Primeira recomendação brasileira de fisioterapia para estimulação sensório-motora de recém-nascidos e lactentes em unidade de terapia intensiva

Johnston, Cíntia; Stopiglia, Mônica Sanchez; Ribeiro, Simone Nascimento Santos; Baez, Cristiane Sousa Nascimento; Pereira, Silvana Alves

doi:10.5935/0103-507X.20210002

Acessibilidade / Reportar erro

Brasil

Revista Brasileira de Terapia Intensiva

Español English

Brasil

Español English

sumário « anterior atual seguinte »

Sumário

ARTIGO ESPECIAL • Rev. bras. ter. intensiva 33 (1) • Jan-Mar 2021 • https://doi.org/10.5935/0103-507X.20210002 copiar

Primeira recomendação brasileira de fisioterapia para estimulação sensório-motora de recém-nascidos e lactentes em unidade de terapia intensiva

Autoria SCIMAGO INSTITUTIONS RANKINGS

RESUMO

Objetivo:

Apresentar as diretrizes de estimulação sensório-motora para recém-nascidos e lactentes em unidade de terapia intensiva.,

Métodos:

Trata-se de um método de delineamento misto com revisão sistemática da literatura e recomendações com base na evidência científica e opiniões de fisioterapeutas especialistas em fisioterapia neonatal de estudos publicados entre 2010 e 2018 nas bases de dados MEDLINE® e Cochrane, que incluiu recém-nascidos (pré-termo e a termo) e lactentes (entre 28 dias e 6 meses de idade) admitidos à unidade de terapia intensiva e submetidos a métodos de estimulação sensório-motora. Os estudos encontrados foram classificados segundo o escore GRADE por cinco fisioterapeutas em diferentes regiões do país e apresentados em oito congressos científicos para discussão das diretrizes de práticas clínicas.,

Resultados:

Foram incluídos 89 artigos para construir as diretrizes de práticas clínicas. Estimulação auditiva, gustatória e contato pele a pele se destacaram por melhorar os sinais vitais, e a massagem terapêutica, assim como a estimulação multimodal tátil-cinestésica por melhorar o peso ou a sucção.,

Conclusão:

Embora todas a modalidades tenham boas avaliações para controle da dor ou do estresse, é recomendado que os procedimentos de estimulação sensório-motora sejam adaptados às necessidades específicas da criança, e as intervenções sejam realizadas por profissionais experientes.

Descritores:
Lactente; Recém-nascido; Estimulação sensório-motora; Desenvolvimento neuropsicomotor; Desenvolvimento infantil; Desempenho psicomotor; Unidades de terapia intensiva, neonatal

Abstract

Objective:

To present guidelines on sensory motor stimulation for newborns and infants in the intensive care unit.

Methods:

We employed a mixed methods design with a systematic review of the literature and recommendations based on scientific evidence and the opinions of physiotherapists with neonatal expertise. The research included studies published between 2010 and 2018 in the MEDLINE® and Cochrane databases that included newborns (preterm and term) and infants (between 28 days and 6 months of age) hospitalized in the intensive care unit and submitted to sensory motor stimulation methods. The studies found were classified according to the GRADE score by five physiotherapists in different regions of Brazil and presented at eight Scientific Congresses held to discuss the clinical practice guidelines.

Results:

We included 89 articles to construct the clinical practice guidelines. Auditory, gustatory and skin-to-skin stimulation stand out for enhancing vital signs, and tactile-kinesthetic massage and multisensory stimulation stand out for improving weight or sucking.

Conclusion:

Although all modalities have good ratings for pain or stress control, it is recommended that sensory motor stimulation procedures be tailored to the infant’s specific needs and that interventions and be carried out by expert professionals.

Keywords:
Infant; Infant, newborn; Sensory motor stimulation; Neuropsychomotor development; Child development; Psychomotor performance; Intensive care units, neonatal

INTRODUÇÃO

A estimulação sensório-motora (ESM) para recém-nascidos (pré-termo e a termo) e lactentes na unidade de terapia intensiva (UTI) é uma intervenção precoce que inclui uma série de estratégias com o objetivo de melhorar o desenvolvimento neuropsicomotor (DNPM) pela promoção de estímulos sensoriais e com base no nível de desenvolvimento funcional, na idade gestacional (IG) ao nascer e no peso dessa população.⁽¹1 Fucile S, Gisel EG. Sensorimotor interventions improve growth and motor function in preterm infants. Neonatal Netw. 2010;29(6):359-66.

O objetivo primário da ESM é organizar os sistemas do corpo humano, como tátil, cinestésico, vestibular, olfatório, paladar, auditivo, visual e/ou uma combinação deles.⁽¹1 Fucile S, Gisel EG. Sensorimotor interventions improve growth and motor function in preterm infants. Neonatal Netw. 2010;29(6):359-66.⁾ Na UTI, os recém-nascidos e lactentes frequentemente apresentam condições clínicas moderada ou altamente complexas, que podem levar à instabilidade dos sistemas neurológico, hemodinâmico e cardiorrespiratório, demandando conhecimento técnico e científico para a condução das avaliações gerais dos candidatos à ESM.⁽²2 Glass HC, Costarino AT, Stayer SA, Brett CM, Cladis F, Davis PJ. Outcomes for extremely premature infants. Anesth Analg. 2015;120(6):1337-51.^,³3 Jesus VR, Oliveira PM, Azevedo VM. Effects of hammock positioning in behavioral status, vital signs, and pain in preterms: a case series study. Braz J Phys Ther. 2018;22(4):304-9.

Apesar dos avanços tecnológicos e esforços multiprofissionais, recém-nascidos extremamente prematuros (IG < 28 semanas) e com peso extremamente baixo (< 1.000g) continuam em alto risco de óbito e incapacidade funcional (em curto, médio e longo prazo). Cerca de 20% a 50% dos sobreviventes têm risco de morbidade, inclusive alterações do crescimento pôndero-estatural e DNPM.⁽²2 Glass HC, Costarino AT, Stayer SA, Brett CM, Cladis F, Davis PJ. Outcomes for extremely premature infants. Anesth Analg. 2015;120(6):1337-51.

A ESM facilita o DNPM típico e previne ou minimiza os efeitos danosos do ambiente da UTI e suas intervenções no crescimento pôndero-estatural. Assim, pode ser aplicada para tratar alterações do DNPM resultantes da prematuridade, doenças e/ou alterações/complicações nos períodos pré-natal, perinatal ou intranatal e após o parto.⁽⁴4 Zeraati H, Nasimi F, Rezaeian A, Shahinfar J, Ghorban Zade M. Effect of multi-sensory stimulation on neuromuscular development of premature infants: a randomized clinical trial. Iran J Child Neurol. 2018;12(3):32-9.

5 Clark-Gambelunghe MB, Clark DA. Sensory development. Pediatr Clin North Am. 2015;62(2):367-84.^-⁶6 Lickliter R. The integrated development of sensory organization. Clin Perinatol. 2011;38(4):591-603.

O objetivo do presente estudo é apresentar diretrizes para a prática clínica relativas à ESM em recém-nascidos e lactentes na UTI.

MÉTODOS

Delineamento do estudo

Estudo com delineamento misto desenvolvido de acordo com os quatro estágios descritos a seguir.

Estágio 1 - submetido para aprovação da criação deste documento e a classificação da ESM, como segue:

Recomendação: os achados principais se baseiam em pelo menos um ensaio clínico, considerando a evidência científica de benefícios versus riscos para recém-nascidos e lactentes internados na UTI, viabilidade de comparações com outras opções terapêuticas e confirmação da confiabilidade da evidência apresentada para dar suporte ao uso ou rejeição da ESM na prática clínica dos fisioterapeutas.

Perguntas de orientação: são considerados os domínios PICO, ou seja, P para paciente (patient; recém-nascido ou lactente); I para intervenção (intervention; qualquer intervenção de ESM); C para comparação (comparison; comparação transversal ou longitudinal, controle com intervenção ou placebo, ou outra intervenção de ESM) e O para desfecho (outcome; estudos com inclusão de desfechos pôndero-estaturais e seus índices; melhora da qualidade do sono; redução da dor; aumento de qualquer domínio do DNPM; outros desfechos relacionados ao DNPM - exemplo: circunferência do braço, crescimento ósseo - e crescimento pôndero-estatural).

Estágio 2 - foi realizada uma busca sistemática nas bases de dados MEDLINE® e Cochrane quanto a estudos sobre ESM publicados entre 2010 e 2018. Os descritores utilizados incluíram indexadores controlados contidos em Health Sciences Descriptors (DeCS, disponível em http://decs.bvs.br/P/decsweb2014.htm) e/ou em Medical Subject Headings (MeSH, disponível em http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=mesh). Utilizou-se também uma série de termos livres relacionados a cada modalidade de ESM (vide cada subitem das Recomendações em “descritores”). Os termos de pesquisa foram combinados utilizando operadores booleano “OU” e “E”, bem como suas palavras correspondentes em inglês. Cinco especialistas conduziram a pesquisa sistemática e avaliaram os estudos de forma independente, segundo cada modalidade de ESM. As discordâncias foram resolvidas por consenso entre todos os presentes nas discussões presenciais e/ou via Skype. Os especialistas foram subdivididos em pares para redigir um relato a respeito das intervenções de ESM. Todos os especialistas eram fisioterapeutas com experiência maior ou igual a 12 anos em intervenções de ESM em pacientes recém-nascidos e lactentes (até 6 meses de idade) na UTI.

Estágio 3 - os dados parciais foram apresentados ao público em diferentes congressos de pediatria e neonatologia, quando os participantes puderam dar suas opiniões e oferecer sugestões e comentários. Os cinco especialistas analisaram as sugestões e os comentários fornecidos pelo público nos eventos e fizeram alterações pertinentes no documento.

Estágio 4 - criação e redação do documento, segundo as três modalidades de ESM (estimulação unimodal e multimodal e exercícios/mobilizações) e os tipos de intervenção encontrados na literatura (Figura 1).

Figura 1
Recomendações sobre a modalidade de estimulação sensório-motora para recém-nascidos e lactentes internados na unidade de terapia intensiva neonatal.

Critérios de inclusão e exclusão

Foram incluídos os ensaios clínicos que cumpriam os seguintes critérios: (1) estudo clínico controlado ou não, comparativo ou não, randomizado ou não, ou cruzado; (2) o estudo incluía algum tipo de intervenção de ESM; (3) população do estudo constituída de recém-nascidos e/ou lactentes e (4) UTI neonatal como local do estudo. Artigos duplicados e estudos de revisão, relatos de caso, editoriais e cartas ao editor foram excluídos, porém, quando considerados relevantes, foram incluídos na introdução e/ou comentários do documento.

Avaliação da qualidade

Os estudos identificados foram classificados segundo o escore Grading of Recommendations Assessment, Development and Evaluation (GRADE) modificado.⁽⁷7 Brugnolli A, Cavada L, Saiani L. Il sistema GRADE. Assist Inferm Ric. 2014;33(4):219-26.⁾ O GRADE é um sistema de classificação de evidências com uma escala de quatro pontos (alta, moderada, baixa e muito baixa). Os ensaios randomizados começam com escore 4/4 (alta) e podem ser rebaixados com base em falhas metodológicas. Quando não havia literatura publicada disponível, utilizamos a opinião de fisioterapeutas especializados. As avaliações segundo o GRADE são apresentadas na tabela 1, sendo os indicadores clínicos apresentados por sinais + indicando o grau de certeza científica: + para recomendação muito fraca, ++ para fraca; +++ para moderada e ++++ para forte.

Thumbnail

Tabela 1
Classificação dos indicadores clínicos, certeza científica e recomendações para estimulação sensório-motora

RESULTADOS

Incluíram-se 89 artigos. Os dados parciais foram apresentados em diferentes congressos de pediatria e neonatologia: Congresso Brasileiro de Medicina Intensiva - AMIB (CBMI-AMIB) em Florianópolis (SC), em 2014; Simpósio Internacional de Fisioterapia Cardiorrespiratória em Salvador (BA), em 2014; CBMI-AMIB em Goiânia (GO), em 2014; CBMI-AMIB na Costa do Sauípe (BA), em 2015; CBMI-AMIB em Porto Alegre (RS), em 2016; CBMI-AMIB em Natal (RN), em 2017; Congresso Panamericano de Terapia Intensiva, no Rio de Janeiro (RJ) em 2017; CBMI-AMIB São Paulo (SP), 2018 e CBMI-AMIB em Fortaleza (CE), em 2018, com a participação de cerca de 600 fisioterapeutas atuantes na área de terapia intensiva neonatal e pediátrica oriundos de diferentes regiões do Brasil.

Os indicadores clínicos classificados pelo sistema GRADE são apresentados na tabela 1. As tabelas 1 a 9, no apêndice 1, mostram um resumo dos dados para os estudos incluídos.

DISCUSSÃO

Estimulação unimodal

A estimulação unimodal inclui intervenções de ESM que fornecem apenas um tipo de estimulação sensorial a recém-nascidos e lactentes, em conformidade com a hierarquia do desenvolvimento fisiológico dos subsistemas sensoriais como tátil→vestibular→paladar→olfatório→auditivo→visual.⁽⁶6 Lickliter R. The integrated development of sensory organization. Clin Perinatol. 2011;38(4):591-603.⁾

Estimulação tátil

Recomendação: a estimulação tátil é recomendada para reduzir o estresse, avaliado pelos níveis urinários de cortisol e aplicada pela utilização da intervenção de toque humano suave (THS);⁽⁸8 Asadollahi M, Jabraeili M, Mahallei M, Asgari Jafarabadi M, Ebrahimi S. Effects of gentle human touch and field massage on urine cortisol level in premature infants: a randomized, controlled clinical trial. J Caring Sci. 2016;5(3):187-94.⁾ reduz a intensidade da dor, conforme avaliação pela Neonatal Infant Pain Scale (NIPS); altera a frequência cardíaca (FC) e a respiratória (FR) associadas com estímulos dolorosos, pelo uso da intervenção de toque terapêutico (TT)⁽⁹9 Ramada NC, Almeida FA, Cunha ML. Therapeutic touch: influence on vital signs of newborns. Einstein (Sao Paulo). 2013;11(4):421-5.⁾ e melhora o sono, conforme avaliação pela Anderson Behavioral State Scale (ABSS) após a intervenção com THS e o protocolo de Yakson.⁽¹⁰10 Bahman Bijari B, Iranmanesh S, Eshghi F, Baneshi MR. Gentle Human Touch and Yakson: The Effect on Preterm's Behavioral Reactions. ISRN Nurs. 2012;2012:750363.⁾ Os indicadores clínicos classificados segundo sistema GRADE são apresentados na tabela 1.

Estimulação vestibular

Recomendação: alguns métodos de posicionamento funcional, que podem também ser utilizados para estimulação vestibular (por exemplo: redes, frequentemente utilizadas em UTIs brasileiras), não apresentaram o grau de evidência científica necessária para inclusão em estimulação unimodal e, portanto, foram incluídos entre os métodos de ESM multimodal.

Estimulação auditiva

Recomendação: a estimulação auditiva é recomendada para aumentar a saturação de oxigênio (SpO₂) e reduzir a FC por meio da exposição a canções de ninar cantadas pelos pais;⁽¹¹11 Taheri L, Jahromi MK, Abbasi M, Hojat M. Effect of recorded male lullaby on physiologic response of neonates in NICU. Appl Nurs Res. 2017;33:127-30.⁾ aumentar a SpO₂ por meio de exposição a canções de ninar de Brahms ou alguma cantada/gravada pela mãe;⁽¹²12 Jabraeili M, Sabet T, MustafaGharebaghi M, Asghari Jafarabadi M, Arshadi M. The effect of recorded mum's lullaby and brahm's lullaby on oxygen saturation in preterm infants: a randomized double-blind clinical trial. J Caring Sci. 2016;5(1):85-93.⁾ diminuir as respostas fisiológicas de FC e comportamentais (estado de sono-vigília e expressões faciais de dor) durante e após estímulo doloroso;⁽¹³13 Shabani F, Nayeri ND, Karimi R, Zarei K, Chehrazi M. Effects of music therapy on pain responses induced by blood sampling in premature infants: a randomized cross-over trial. Iran J Nurs Midwifery Res. 2016;21(4):391-6.^,¹⁴14 Silva CM, Cação JM, Silva KC, Marques CF, Merey LS. Physiological responses of preterm newborn infants submitted to classical music therapy. Rev Paul Pediatr. 2013;31(1):30-6.⁾ reduzir o dispêndio energético em repouso por exposição a músicas de Mozart (efeito Mozart);⁽¹⁵15 Keidar HR, Mandel D, Mimouni FB, Lubetzky R. Bach music in preterm infants: no "Mozart effect" on resting energy expenditure. J Perinatol. 2014;34(2):153-5.⁾ diminuir a FC e a FR por exposição a canções de ninar e redução da FC durante exposição a músicas de Mozart;⁽¹⁶16 Amini E, Rafiei P, Zarei K, Gohari M, Hamidi M. Effect of lullaby and classical music on physiologic stability of hospitalized preterm infants: a randomized trial. J Neonatal Perinatal Med. 2013;6(4):295-301.⁾ reduzir a FC e a FR pelo uso de três tipos de intervenção (canções de ninar, sons semelhantes aos batimentos cardíacos e sons imitando a respiração); melhorar o comportamento de sucção com sons semelhantes a batimentos cardíacos, aumentar a ingestão calórica e melhorar o comportamento de alimentação (taxa de sucções por minuto) com utilização de canções de ninar;⁽¹⁷17 Loewy J, Stewart K, Dassler AM, Telsey A, Homel P. The effects of music therapy on vital signs, feeding, and sleep in premature infants. Pediatrics. 2013;131(5):902-18.⁾ diminuir a frequência de eventos adversos cardiorrespiratórios⁽¹⁸18 Doheny L, Hurwitz S, Insoft R, Ringer S, Lahav A. Exposure to biological maternal sounds improves cardiorespiratory regulation in extremely preterm infants. J Matern Fetal Neonatal Med. 2012;25(9):1591-4.⁾ (definidos como ocorrência de apneia superior a 20 segundos e/ou diminuição na FC abaixo de 100bpm para bebês com IG inferior a 34 semanas ou abaixo de 80bmp para lactentes com IG acima de 34 semanas) com ciclo de sono-vigília ruim⁽¹⁹19 Olischar M, Shoemark H, Holton T, Weninger M, Hunt RW. The influence of music on aEEG activity in neurologically healthy newborns =32 weeks' gestational age. Acta Paediatr. 2011;100(5):670-5.⁾ e choro;⁽²⁰20 Tramo MJ, Lense M, Van Ness C, Kagan J, Settle MD, Cronin JH. Effects of music on physiological and behavioral indices of acute pain and stress in premature infants: clinical trial and literature review. Music Med. 2011;3(2):72-83.⁾ diminuir o pico de FC durante alimentação, melhorar a sucção, promover a transição mais rápida para alimentação oral e diminuir o tempo de hospitalização.⁽²¹21 Yildiz A, Arikan D. The effects of giving pacifiers to premature infants and making them listen to lullabies on their transition period for total oral feeding and sucking success. J Clin Nurs. 2012;21(5-6):644-56.⁾ Um estudo não encontrou efeitos benéficos fisiológicos e comportamentais das canções de ninar para lactentes prematuros. Os autores não encontraram diferenças significantes entre a intervenção (canções de ninar), placebo e grupos controle em termos de respostas fisiológicas e comportamentais.⁽²²22 Alipour Z, Eskandari N, Ahmari Tehran H, Eshagh Hossaini SK, Sangi S. Effects of music on physiological and behavioral responses of premature infants: a randomized controlled trial. Complement Ther Clin Pract. 2013;19(3):128-32.⁾ Os indicadores clínicos classificados segundo sistema GRADE são apresentados na tabela 1.

Estimulação olfatória

Recomendação: a estimulação olfatória é recomendada para prevenir apneia com uso de estimulação com fragrância de baunilha⁽²³23 Edraki M, Pourpulad H, Kargar M, Pishva N, Zare N, Montaseri H. Olfactory stimulation by vanillin prevents apnea in premature newborn infants. Iran J Pediatr. 2013;23(3):261-8.⁾ e reduzir a dor com utilização do odor de leite materno.⁽²⁴24 Baudesson de Chanville A, Brevaut-Malaty V, Garbi A, Tosello B, Baumstarck K, Gire C. Analgesic effect of maternal human milk odor on premature neonates: a randomized controlled trial. J Hum Lact. 2017;33(2):300-8.⁾ A estimulação olfatória não é recomendada para diminuir o gasto energetico em repouso com utilização de fragrância de baunilha,⁽²⁵25 Marom R, Shedlisker-Kening T, Mimouni FB, Lubetzky R, Dollberg S, Berger I, et al. The effect of olfactory stimulation on energy expenditure in growing preterm infants. Acta Paediatr. 2012;101(1):e11-4.⁾ e um odor não familiar (baunilha) teve efeito calmante observável em recém-nascidos a termos submetidos a procedimento doloroso.⁽²⁶26 Romantsik O, Porter RH, Varendi H. The effects of olfactory stimulation and gender differences on pain responses in full-term infants. Acta Paediatr. 2014;103(11):1130-5.⁾ Os indicadores clínicos classificados segundo sistema GRADE são apresentados na tabela 1.

Estimulação gustatória

Recomendação: estimulação gustatória com uso de saturação sensorial,⁽²⁷27 Bernardini V, De Liso P, Santoro F, Allemand F, Allemand A. [Procedural pain perception of preterm newborn in neonatal intensive care unit: assessment and non-pharmacological approaches]. Minerva Pediatr. 2011;63(4):247-55. Italian.⁾ leite materno,⁽²⁸28 Bueno M, Stevens B, de Camargo PP, Toma E, Krebs VL, Kimura AF. Breast milk and glucose for pain relief in preterm infants: a noninferiorityrandomized controlled trial. Pediatrics. 2012;129(4):664-70.⁾ sucção assistida,⁽²⁹29 Cignacco EL, Sellam G, Stoffel L, Gerull R, Nelle M, Anand KJ, et al. Oral sucrose and "facilitated tucking" for repeated pain relief in preterms: a randomized controlled trial. Pediatrics. 2012;129(2):299-308.^,³⁰30 Mekkaoui N, Issef I, Kabiri M, Barkat A. Analgesic effect of 30% glucose, milk and non-nutritive sucking in neonates. J Pain Res. 2012;5:573-7.⁾ e soluções doces (glicose, sucralose e dextrose) são recomendadas para diminuição da dor.⁽³¹31 Ou-Yang MC, Chen IL, Chen CC, Chung MY, Chen FS, Huang HC. Expressed breast milk for procedural pain in preterm neonates: a randomized, double-blind, placebo-controlled trial. Acta Paediatr. 2013;102(1):15-21.

32 Costa MC, Eckert GU, Fortes BG, Fortes Filho JB, Silveira RC, Procianoy RS. Oral glucose for pain relief during examination for retinopathy of prematurity: a masked randomized clinical trial. Clinics (Sao Paulo). 2013;68(2):199-204.

33 Nimbalkar S, Sinojia A, Dongara A. Reduction of neonatal pain following administration of 25% lingual dextrose: a randomized control trial. J Trop Pediatr. 2013;59(3):223-5.

34 Pandey M, Datta V, Rehan HS. Role of sucrose in reducing painful response to orogastric tube insertion in preterm neonates. Indian J Pediatr. 2013;80(6):476-82.^-³⁵35 Sahoo JP, Rao S, Nesargi S, Ranjit T, Ashok C, Bhat S. Expressed breast milk vs 25% dextrose in procedural pain in neonates, a double blind randomized controlled trial. Indian Pediatr. 2013;50(2):203-7.⁾ Quando se compararam estímulos com soluções doces (glicose, sucralose e dextrose) e com placebo,⁽³³33 Nimbalkar S, Sinojia A, Dongara A. Reduction of neonatal pain following administration of 25% lingual dextrose: a randomized control trial. J Trop Pediatr. 2013;59(3):223-5.

34 Pandey M, Datta V, Rehan HS. Role of sucrose in reducing painful response to orogastric tube insertion in preterm neonates. Indian J Pediatr. 2013;80(6):476-82.

35 Sahoo JP, Rao S, Nesargi S, Ranjit T, Ashok C, Bhat S. Expressed breast milk vs 25% dextrose in procedural pain in neonates, a double blind randomized controlled trial. Indian Pediatr. 2013;50(2):203-7.

36 Scaramuzzo RT, Faraoni M, Polica E, Pagani V, Vagli E, Boldrini A. Skin conductance variations compared to ABC scale for pain evaluation in newborns. J Matern Fetal Neonatal Med. 2013;26(14):1399-403.

37 Al Qahtani R, Abu-Salem LY, Pal K. Effect of lidocaine-prilocaine eutectic mixture of local anaesthetic cream compared with oral sucrose or both in alleviating pain in neonatal circumcision procedure. Afr J Paediatr Surg. 2014;11(1):56-61.

38 Dilli D, Ilarslan NE, Kabatas EU, Zenciroglu A, Simsek Y, Okumus N. Oral sucrose and non-nutritive sucking goes some way to reducing pain during retinopathy of prematurity eye examinations. Acta Paediatr. 2014;103(2):e76-9.

39 Ravishankar A, Thawani R, Dewan P, Das S, Kashyap A, Batra P, et al. Oral dextrose for analgesia in neonates during nasogastric tube insertion: a randomised controlled trial. J Paediatr Child Health. 2014;50(2):141-5.

40 Suhrabi Z, Taghinejad H, Valian K, Sayehmiri K, Taheri S. A comparative study on the efficacy of glucose and sucrose on the vaccination pain: a randomized controlled clinical trial. J Clin Diagn Res. 2014;8(10):PC01-3.

41 Uzelli D, Yapucu Günes Ü. Oral glucose solution to alleviate pain induced by intramuscular injections in preterm infants. J Spec Pediatr Nurs. 2015;20(1):29-35.

42 Kataria M, Narang S, Chawla D, Sood S, Gupta PC. Oral dextrose for pain management during laser treatment of retinopathy of prematurity under topical anesthesia. Indian J Pediatr. 2015;82(8):694-7.

43 Tutag Lehr V, Cortez J, Grever W, Cepeda E, Thomas R, Aranda JV. Randomized placebo-controlled trial of sucrose analgesia on neonatal skin blood flow and pain response during heel lance. Clin J Pain. 2015;31(5):451-8.

44 Vezyroglou K, Mehler K, Kribs A, Becker I, Langhammer K, Roth B, et al. Oral glucose in preterm neonates during oropharyngeal suctioning: a randomized controlled cross-over trial. Eur J Pediatr. 2015;174(7):867-74.^-⁴⁵45 Medeiros AM, Jesus GA, Almeida LF, Raposo OF. Integrated sensory motor system in prematurely born children. Codas. 2013;25(5):444-50.⁾ as primeiras apresentaram diminuição da dor; apenas um estudo comparou a sucralose oral e creme EMLA®,⁽³⁷37 Al Qahtani R, Abu-Salem LY, Pal K. Effect of lidocaine-prilocaine eutectic mixture of local anaesthetic cream compared with oral sucrose or both in alleviating pain in neonatal circumcision procedure. Afr J Paediatr Surg. 2014;11(1):56-61.⁾ e a combinação de sucralose com creme EMLA® teve efeito analgésico maior. Os indicadores clínicos classificados segundo sistema GRADE são apresentados na tabela 1.

Estimulação visual

Recomendação: a estimulação visual foi incluída na ESM multimodal em razão da ausência de evidência científica que cumprisse os critérios de inclusão dessas recomendações na estimulação unimodal.

Estimulação multimodal

A estimulação multimodal inclui intervenções de ESM que combinam dois ou mais tipos de estímulo sensorial, como estimulação tátil-cinestésica, massagem terapêutica, controle pele a pele e estimulação multissensorial (Figura 1).

Estimulação tátil-cinestésica

Recomendação: a estimulação tátil-cinestésica é recomendada para melhorar o ganho de peso e reduzir o tempo de hospitalização,⁽⁴⁶46 Ahmed RG, Suliman GI, Elfakey WA, Salih KM, El-Amin EI, Ahmed WA, et al. Effect of tactile kinesthetic stimulation on preterm infants' weight and length of hospital stay in Khartoum, Sudan. Saudi Med J. 2015;36(2):196-9.⁾ aumentar a atividade parassimpática durante o sono,⁽⁴⁷47 Smith SL, Haley S, Slater H, Moyer-Mileur LJ. Heart rate variability during caregiving and sleep after massage therapy in preterm infants. Early Hum Dev. 2013;89(8):525-9.^,⁴⁸48 Smith SL, Lux R, Haley S, Slater H, Beachy J, Moyer-Mileur LJ. The effect of massage on heart rate variability in preterm infants. J Perinatol. 2013;33(1):59-64.⁾ melhorar a força muscular e mineralização óssea,⁽⁴⁹49 Haley S, Beachy J, Ivaska KK, Slater H, Smith S, Moyer-Mileur LJ. Tactile/kinesthetic stimulation (TKS) increases tibial speed of sound and urinary osteocalcin (U-MidOC and unOC) in premature infants (29-32weeks PMA). Bone. 2012;51(4):661-6.⁾ otimizar o desempenho do comportamento motor,⁽⁵⁰50 Aliabadi F, Askary RK. Effects of tactile-kinesthetic stimulation on low birth weight neonates. Iran J Pediatr. 2013;23(3):289-94.⁾ baixar os níveis de bilirrubina,⁽⁵¹51 Chen J, Sadakata M, Ishida M, Sekizuka N, Sayama M. Baby massage ameliorates neonatal jaundice in full-term newborn infants. Tohoku J Exp Med. 2011;223(2):97-102.⁾ favorecer a maturação da atividade elétrica cerebral,⁽⁵²52 Guzzetta A, D'Acunto MG, Carotenuto M, Berardi N, Bancale A, Biagioni E, et al. The effects of preterm infant massage on brain electrical activity. Dev Med Child Neurol. 2011;53 Suppl 4:46-51.⁾ favorecer padrões motores mais maduros e comportamentos mais regulados e organizados,⁽⁵³53 Ferreira AM, Bergamasco NH. Behavioral analysis of preterm neonates included in a tactile and kinesthetic stimulation program during hospitalization. Rev Bras Fisioter. 2010;14(2):141-8. Portuguese.⁾ melhorar o componente motor e encurtar o tempo de hospitalização,⁽⁵⁴54 Ho YB, Lee RS, Chow CB, Pang MY. Impact of massage therapy on motor outcomes in very low-birthweight infants: randomized controlled pilot study. Pediatr Int. 2010;52(3):378-85.⁾ melhorar a deposição de gordura em recém-nascidos pré-termo⁽⁵⁵55 Moyer-Mileur LJ, Haley S, Slater H, Beachy J, Smith SL. Massage improves growth quality by decreasing body fat deposition in male preterm infants. J Pediatr. 2013;162(3):490-5.⁾ e contribuir para fortalecimento do sistema imunológico e ganho de peso.⁽⁵⁶56 Ang JY, Lua JL, Mathur A, Thomas R, Asmar BI, Savasan S, et al. A randomized placebo-controlled trial of massage therapy on the immune system of preterm infants. Pediatrics. 2012;130(6):e1549-58.^,⁵⁷57 Diego MA, Field T, Hernandez-Reif M. Preterm infant weight gain is increased by massage therapy and exercise via different underlying mechanisms. Early Hum Dev. 2014;90(3):137-40.⁾Os indicadores clínicos classificados segundo sistema GRADE são apresentados na tabela 1.

Massagem terapêutica

Recomendação: a ESM utilizando massagem terapêutica é recomendada para melhorar o ganho de peso,⁽⁵⁸58 Kumar J, Upadhyay A, Dwivedi AK, Gothwal S, Jaiswal V, Aggarwal S. Effect of oil massage on growth in preterm neonates less than 1800 g: a randomized control trial. Indian J Pediatr. 2013;80(6):465-9.

59 Saeadi R, Ghorbani Z, Shapouri Moghaddam A. The effect of massage with medium-chain triglyceride oil on weight gain in premature neonates. Acta Med Iran. 2015;53(2):134-8.^-⁶⁰60 Fallah R, Akhavan Karbasi S, Golestan M, Fromandi M. Sunflower oil versus no oil moderate pressure massage leads to greater increases in weight in preterm neonates who are low birth weight. Early Hum Dev. 2013;89(9):769-72.⁾ aumentar a frequência de episódios de defecação,⁽⁶¹61 Basiri-Moghadam M, Basiri-Moghadam K, Kianmehr M, Jani S. The effect of massage on neonatal jaundice in stable preterm newborn infants: a randomized controlled trial. J Pak Med Assoc. 2015;65(6):602-6.^,⁶²62 Lin CH, Yang HC, Cheng CS, Yen CE. Effects of infant massage on jaundiced neonates undergoing phototherapy. Ital J Pediatr. 2015;41:94.⁾ diminuir os níveis transcutâneos de bilirrubina,⁽⁶¹61 Basiri-Moghadam M, Basiri-Moghadam K, Kianmehr M, Jani S. The effect of massage on neonatal jaundice in stable preterm newborn infants: a randomized controlled trial. J Pak Med Assoc. 2015;65(6):602-6.

62 Lin CH, Yang HC, Cheng CS, Yen CE. Effects of infant massage on jaundiced neonates undergoing phototherapy. Ital J Pediatr. 2015;41:94.^-⁶³63 Dalili H, Sheikhi S, Shariat M, Haghnazarian E. Effects of baby massage on neonatal jaundice in healthy Iranian infants: a pilot study. Infant Behav Dev. 2016;42:22-6.⁾ reduzir os escores de dor⁽⁶⁴64 Chik YM, Ip WY, Choi KC. The effect of upper limb massage on infants' venipuncture pain. Pain Manag Nurs. 2017;18(1):50-7.⁾ e aumentar o estado de alerta após a massagem.⁽⁶⁵65 Yates CC, Mitchell AJ, Booth MY, Williams DK, Lowe LM, Whit Hall R. The effects of massage therapy to induce sleep in infants born preterm. Pediatr Phys Ther. 2014;26(4):405-10.⁾ Os indicadores clínicos classificados segundo sistema GRADE são apresentados na tabela 1.

Contato pele a pele

Recomendação: a ESM com utilização de contato pele a pele é recomendada para recém-nascidos sob ventilação mecânica,⁽⁶⁶66 Azevedo VM, Xavier CC, Gontijo FO. Safety of kangaroo mother care in intubated neonates under 1500 g. J Trop Pediatr. 2012;58(1):38-42.

67 Carbasse A, Kracher S, Hausser M, Langlet C, Escande B, Donato L, et al. Safety and effectiveness of skin-to-skin contact in the NICU to support neurodevelopment in vulnerable preterm infants. J Perinat Neonatal Nurs. 2013;27(3):255-62.

68 Karlsson V, Heinemann AB, Sjörs G, Nykvist KH, Agren J. Early skin-to-skin care in extremely preterm infants: thermal balance and care environment. J Pediatr. 2012;161(3):422-6.

69 Lorenz L, Dawson JA, Jones H, Jacobs SE, Cheong JL, Donath SM, et al. Skin-to-skin care in preterm infants receiving respiratory support does not lead to physiological instability. Arch Dis Child Fetal Neonatal Ed. 2017;102(4):F339-44.^-⁷⁰70 Park H, Choi BS, Lee SJ, Son IA, Seol IJ, Lee HJ. Practical application of kangaroo mother care in preterm infants: clinical characteristics and safety of kangaroo mother care. J Perinat Med. 2014;42(2):239-45.⁾ reduz a dor durante procedimentos dolorosos,⁽⁷¹71 Okan F, Ozdil A, Bulbul A, Yapici Z, Nuhoglu A. Analgesic effects of skin-to-skin contact and breastfeeding in procedural pain in healthy term neonates. Ann Trop Paediatr. 2010;30(2):119-28.

72 Saeidi R, Asnaashari Z, Amirnejad M, Esmaeili H, Robatsangi MG. Use of "kangaroo care" to alleviate the intensity of vaccination pain in newborns. Iran J Pediatr. 2011;21(1):99-102.

73 Cong X, Cusson RM, Walsh S, Hussain N, Ludington-Hoe SM, Zhang D. Effects of skin-to-skin contact on autonomic pain responses in preterm infants. J Pain. 2012;13(7):636-45.

74 Nimbalkar SM, Patel VK, Patel DV, Nimbalkar AS, Sethi A, Phatak A. Effect of early skin-to-skin contact following normal delivery on incidence of hypothermia in neonates more than 1800 g: randomized control trial. J Perinatol. 2014;34(5):364-8.

75 Chidambaram AG, Manjula S, Adhisivam B, Bhat BV. Effect of Kangaroo mother care in reducing pain due to heel prick among preterm neonates: a crossover trial. J Matern Neonatal Med. 2014;27(5):488-90.

76 Gao H, Xu G, Gao H, Dong R, Fu H, Wang D, et al. Effect of repeated Kangaroo Mother Care on repeated procedural pain in preterm infants: a randomized controlled trial. Int J Nurs Stud. 2015;52(7):1157-65.^-⁷⁷77 Choudhary M, Dogiyal H, Sharma D, Datt Gupta B, Madabhavi I, Choudhary JS, et al. To study the effect of Kangaroo Mother Care on pain response in preterm neonates and to determine the behavioral and physiological responses to painful stimuli in preterm neonates: a study from western Rajasthan. J Matern Neonatal Med. 2016;29(5):826-31.⁾ alivia o estresse,⁽⁷⁸78 Kaffashi F, Scher MS, Ludington-Hoe SM, Loparo KA. An analysis of the kangaroo care intervention using neonatal EEG complexity: a preliminary study. Clin Neurophysiol. 2013;124(2):238-46.^,⁷⁹79 Neu M, Hazel NA, Robinson J, Schmiege SJ, Laudenslager M. Effect of holding on co-regulation in preterm infants: a randomized controlled trial. Early Hum Dev. 2014;90(3):141-7.⁾ controla a temperatura corpórea,⁽⁸⁰80 Srivastava S, Gupta A, Bhatnagar A, Dutta S. Effect of very early skin to skin contact on success at breastfeeding and preventing early hypothermia in neonates. Indian J Public Health. 2014;58(1):22-6.⁾ associa-se com menores níveis salivares de cortisol em recém-nascidos,⁽⁷⁹79 Neu M, Hazel NA, Robinson J, Schmiege SJ, Laudenslager M. Effect of holding on co-regulation in preterm infants: a randomized controlled trial. Early Hum Dev. 2014;90(3):141-7.⁾ melhora a eficácia da amamentação no seio ou ganho de peso⁽⁸¹81 Jayaraman D, Mukhopadhyay K, Bhalla AK, Dhaliwal LK. Randomized controlled trial on effect of intermittent early versus late kangaroo mother care on human milk feeding in low-birth-weight neonates. J Hum Lact. 2017;33(3):533-9.

82 Nagai S, Andrianarimanana D, Rabesandratana N, Yonemoto N, Nakayama T, Mori R. Earlier versus later continuous Kangaroo Mother Care (KMC) for stable low-birth-weight infants: a randomized controlled trial. Acta Paediatr. 2010;99(6):827-35.

83 Sharma D, Murki S, Pratap OT. The effect of kangaroo ward care in comparison with "intermediate intensive care" on the growth velocity in preterm infant with birth weight <1100 g: randomized control trial. Eur J Pediatr. 2016;175(10):1317-24.

84 Mitchell AJ, Yates CC, Williams DK, Chang JY, Hall RW. Does daily kangaroo care provide sustained pain and stress relief in preterm infants? J Neonatal Perinatal Med. 2013;6(1):45-52.^-⁸⁵85 Ghavane S, Murki S, Subramanian S, Gaddam P, Kandraju H, Thumalla S. Kangaroo Mother Care in Kangaroo ward for improving the growth and breastfeedingoutcomes when reaching term gestational age in very low birth weight infants. Acta Paediatr. 2012;101(12):e545-9.⁾ e diminui a custo da internação.⁽⁸⁶86 Sharma D, Murki S, Oleti TP. To compare cost effectiveness of "Kangaroo Ward Care" with "Intermediate intensive care" in stable very low birth weight infants (birth weight < 1100 grams): a randomized control trial. Ital J Pediatr. 2016;42(1):64.

Um estudo⁽⁸⁴84 Mitchell AJ, Yates CC, Williams DK, Chang JY, Hall RW. Does daily kangaroo care provide sustained pain and stress relief in preterm infants? J Neonatal Perinatal Med. 2013;6(1):45-52.⁾ não demonstrou uma diminuição nos níveis salivares de cortisol em recém-nascidos pré-termo; outras investigações⁽⁸⁵85 Ghavane S, Murki S, Subramanian S, Gaddam P, Kandraju H, Thumalla S. Kangaroo Mother Care in Kangaroo ward for improving the growth and breastfeedingoutcomes when reaching term gestational age in very low birth weight infants. Acta Paediatr. 2012;101(12):e545-9.^,⁸⁶86 Sharma D, Murki S, Oleti TP. To compare cost effectiveness of "Kangaroo Ward Care" with "Intermediate intensive care" in stable very low birth weight infants (birth weight < 1100 grams): a randomized control trial. Ital J Pediatr. 2016;42(1):64.⁾ não produziram evidência significante em termos de ganho médio diário de peso. Os indicadores clínicos classificados segundo sistema GRADE são apresentados na tabela 1.

Estimulação multissensorial

A estimulação multissensorial combina diferentes tipos de estímulos que não precisam, necessariamente, ser oferecidos ao mesmo tempo. Seus benefícios dependem da maturidade do sistema nervoso central e dos subsistemas sensoriais de recém-nascidos.⁽⁴4 Zeraati H, Nasimi F, Rezaeian A, Shahinfar J, Ghorban Zade M. Effect of multi-sensory stimulation on neuromuscular development of premature infants: a randomized clinical trial. Iran J Child Neurol. 2018;12(3):32-9.^,⁸⁷87 Schulzke SM, Kaempfen S, Trachsel D, Patole SK. Physical activity programs for promoting bone mineralization and growth in preterm infants. Cochrane Database Syst Rev. 2014;(4):CD005387.^,⁸⁸88 Kanagasabai PS, Mohan D, Lewis LE, Kamath A, Rao BK. Effect of multisensory stimulation on neuromotor development in preterm infants. Indian J Pediatr 2013;80(6):460-4.

Recomendação: a estimulação multissensorial é recomendada para melhorar o escore neuromotor e a maturação do tônus muscular em recém-nascidos pré-termo pela aplicação do protocolo de “estímulo auditório, tátil, visual e vestibular - ATVV”, melhora a organização comportamental, eleva a frequência de comportamentos orais, aumenta o tempo em estado de alerta,⁽⁸⁹89 Medoff-Cooper B, Rankin K, Li Z, Liu L, White-Traut R. Multisensory intervention for preterm infants improves sucking organization. Adv Neonatal Care. 2015;15(2):142-9.^,⁹⁰90 White-Traut R, Rankin KM, Pham T, Li Z, Liu L. Preterm infants' orally directed behaviors and behavioral state responses to the integrated H-HOPE intervention. Infant Behav Dev. 2014;37(4):583-96.⁾ melhora a interação materno-infantil com ATVV⁽⁹¹91 White-Traut R, Norr KF, Fabiyi C, Rankin KM, Li Z, Liu L. Mother-infant interaction improves with a developmental intervention for mother-preterm infant dyads. Infant Behav Dev. 2013;36(4):694-706.⁾ e aumenta o ganho pôndero-estatural.⁽⁹²92 White-Traut RC, Rankin KM, Yoder JC, Liu L, Vasa R, Geraldo V, et al. Influence of H-HOPE intervention for premature infants on growth, feeding progression and length of stay during initial hospitalization. J Perinatol. 2015;35(8):636-41.⁾ Os indicadores clínicos classificados segundo sistema GRADE são apresentados na tabela 1.

Exercícios/mobilização

Os exercícios/mobilização (passiva ou ativa assistida) podem ser iniciados para recém-nascidos pré-termo clinicamente estáveis com elevado risco de doença osteometabólica e IG inferior a 32 semanas e/ou peso ao nascer inferior a 1.000g.⁽⁹³93 Moyer-Mileur LJ, Brunstetter V, McNaught TP, Gill G, Chan GM. Daily physical activity program increases bone mineralization and growth in preterm very low birth weight infants. Pediatrics. 2000;106(5):1088-92.^,⁹⁴94 Eliakim A, Litmanovitz I, Nemet D. The role of exercise in prevention and treatment of osteopenia of prematurity: an update. Pediatr Exerc Sci. 2017;29(4):450-5.⁾ O protocolo de Moyer-Mileur⁽⁹³93 Moyer-Mileur LJ, Brunstetter V, McNaught TP, Gill G, Chan GM. Daily physical activity program increases bone mineralization and growth in preterm very low birth weight infants. Pediatrics. 2000;106(5):1088-92.⁾ foi utilizado em todos os estudos que cumpriram os critérios de inclusão dessas recomendações.

Recomendação: a ESM com utilização de mobilizações realizadas por fisioterapeutas é recomendada para aumentar peso, estatura e comprimento tibial,⁽⁹⁵95 Erdem E, Tosun Ö, Bayat M, Korkmaz Z, Halis H, Günes T. Daily physical activity in low-risk extremely low birth weight preterm infants: positive impact on bone mineral density and anthropometric measurements. J Bone Miner Metab. 2015;33(3):329-34.⁾ elevar a velocidade de propagação de ultrassom na tíbia,⁽⁹⁵95 Erdem E, Tosun Ö, Bayat M, Korkmaz Z, Halis H, Günes T. Daily physical activity in low-risk extremely low birth weight preterm infants: positive impact on bone mineral density and anthropometric measurements. J Bone Miner Metab. 2015;33(3):329-34.^,⁹⁶96 Tosun Ö, Bayat M, Günes T, Erdem E. Daily physical activity in low-risk pre-term infants: positive impact on bone strength and mid-upper arm circumference. Ann Hum Biol. 2011;38(5):635-9.⁾ ampliar a circunferência do braço,⁽⁹⁷97 Vignochi CM, Silveira RC, Miura E, Canani LH, Procianoy RS. Physical therapy reduces bone resorption and increases bone formation in preterm infants. Am J Perinatol. 2012;29(8):573-8.⁾ aumentar os marcadores de formação óssea e diminuir os marcadores de reabsorção óssea.⁽⁹⁸98 Litmanovitz I, Erez H, Eliakim A, Bauer-Rusek S, Arnon S, Regev RH, et al. The effect of assisted exercise frequency on bone strength in very low birth weight preterm infants: a randomized control trial. Calcif Tissue Int. 2016;99(3):237-42.^,⁹⁹99 Chen HL, Lee CL, Tseng HI, Yang SN, Yang RC, Jao HC. Assisted exercise improves bone strength in very low birthweight infants by bone quantitative ultrasound. J Paediatr Child Health. 2010;46(11):653-9.⁾ Os indicadores clínicos classificados segundo o sistema GRADE são apresentados na tabela 1.

CONCLUSÃO

A única modalidade de estimulação sensório-motora com elevado grau de certeza científica foi a estimulação pele a pele, seguida por estimulação multissensorial. Todas as modalidades tiveram boas classificações para controle da dor ou do estresse. A estimulação auditiva se destaca por melhorar os sinais vitais, e a massagem terapêutica, estimulação tátil-cinestésica e estimulação multissensorial por melhorar o peso ou a sucção. Recomenda-se que os procedimentos de estimulação sensório-motora sejam adaptados às necessidades específicas da criança, e as intervenções sejam realizadas por profissionais experientes.

Realizado pelo Departamento de Fisioterapia em Terapia Intensiva, Associação de Medicina Intensiva Brasileira (AMIB).
DISPONIBILIDADE DOS DADOS E MATERIAIS

O conjunto de dados utilizado e analisado durante o presente estudo está disponível por solicitação razoável ao autor correspondente.
FINANCIAMENTO

Este estudo foi financiado em parte pela Associação de Medicina Intensiva Brasileira (AMIB), pelo programa de Pós-Graduação da Universidade Federal do Rio Grande do Norte e pela Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Capes), código de financiamento 001. O financiamento não teve qualquer efeito no delineamento, na coleta, no corpo de materiais, na análise e na interpretação dos dados ou na redação do manuscrito. Esses órgãos financiaram a tradução (português para inglês) e pagaram a fatura.

AGRADECIMENTOS

Ao Departamento de Fisioterapia em Terapia Intensiva (DEFITI), à AMIB e à Associação Brasileira de Fisioterapia Cardiorrespiratória e Fisioterapia em Terapia Intensiva (ASSOBRAFIR).

APÊNDICE 1

Thumbnail

Table 1S
Studies included for unimodal tactile stimulation recommendations

Thumbnail

Table 2S
Studies included for unimodal auditory stimulation recommendations

Thumbnail

Table 3S
Studies included for unimodal olfactory stimulation recommendations

Thumbnail

Table 4S
Studies included for unimodal gustatory stimulation recommendations

Thumbnail

Table 5S
Studies included for multimodal tactile-kinesthetic stimulation recommendations

Thumbnail

Table 6S
Studies included for multimodal massage stimulation recommendations

Thumbnail

Table 7S
Studies included for multisensory skin-to-skin stimulation recommendations

Thumbnail

Table 8S
Studies included for multisensory stimulation recommendations

Thumbnail

Table 9S
Studies included for multisensory skin-to-skin stimulation recommendations

REFERÊNCIAS

¹
Fucile S, Gisel EG. Sensorimotor interventions improve growth and motor function in preterm infants. Neonatal Netw. 2010;29(6):359-66.
²
Glass HC, Costarino AT, Stayer SA, Brett CM, Cladis F, Davis PJ. Outcomes for extremely premature infants. Anesth Analg. 2015;120(6):1337-51.
³
Jesus VR, Oliveira PM, Azevedo VM. Effects of hammock positioning in behavioral status, vital signs, and pain in preterms: a case series study. Braz J Phys Ther. 2018;22(4):304-9.
⁴
Zeraati H, Nasimi F, Rezaeian A, Shahinfar J, Ghorban Zade M. Effect of multi-sensory stimulation on neuromuscular development of premature infants: a randomized clinical trial. Iran J Child Neurol. 2018;12(3):32-9.
⁵
Clark-Gambelunghe MB, Clark DA. Sensory development. Pediatr Clin North Am. 2015;62(2):367-84.
⁶
Lickliter R. The integrated development of sensory organization. Clin Perinatol. 2011;38(4):591-603.
⁷
Brugnolli A, Cavada L, Saiani L. Il sistema GRADE. Assist Inferm Ric. 2014;33(4):219-26.
⁸
Asadollahi M, Jabraeili M, Mahallei M, Asgari Jafarabadi M, Ebrahimi S. Effects of gentle human touch and field massage on urine cortisol level in premature infants: a randomized, controlled clinical trial. J Caring Sci. 2016;5(3):187-94.
⁹
Ramada NC, Almeida FA, Cunha ML. Therapeutic touch: influence on vital signs of newborns. Einstein (Sao Paulo). 2013;11(4):421-5.
¹⁰
Bahman Bijari B, Iranmanesh S, Eshghi F, Baneshi MR. Gentle Human Touch and Yakson: The Effect on Preterm's Behavioral Reactions. ISRN Nurs. 2012;2012:750363.
¹¹
Taheri L, Jahromi MK, Abbasi M, Hojat M. Effect of recorded male lullaby on physiologic response of neonates in NICU. Appl Nurs Res. 2017;33:127-30.
¹²
Jabraeili M, Sabet T, MustafaGharebaghi M, Asghari Jafarabadi M, Arshadi M. The effect of recorded mum's lullaby and brahm's lullaby on oxygen saturation in preterm infants: a randomized double-blind clinical trial. J Caring Sci. 2016;5(1):85-93.
¹³
Shabani F, Nayeri ND, Karimi R, Zarei K, Chehrazi M. Effects of music therapy on pain responses induced by blood sampling in premature infants: a randomized cross-over trial. Iran J Nurs Midwifery Res. 2016;21(4):391-6.
¹⁴
Silva CM, Cação JM, Silva KC, Marques CF, Merey LS. Physiological responses of preterm newborn infants submitted to classical music therapy. Rev Paul Pediatr. 2013;31(1):30-6.
¹⁵
Keidar HR, Mandel D, Mimouni FB, Lubetzky R. Bach music in preterm infants: no "Mozart effect" on resting energy expenditure. J Perinatol. 2014;34(2):153-5.
¹⁶
Amini E, Rafiei P, Zarei K, Gohari M, Hamidi M. Effect of lullaby and classical music on physiologic stability of hospitalized preterm infants: a randomized trial. J Neonatal Perinatal Med. 2013;6(4):295-301.
¹⁷
Loewy J, Stewart K, Dassler AM, Telsey A, Homel P. The effects of music therapy on vital signs, feeding, and sleep in premature infants. Pediatrics. 2013;131(5):902-18.
¹⁸
Doheny L, Hurwitz S, Insoft R, Ringer S, Lahav A. Exposure to biological maternal sounds improves cardiorespiratory regulation in extremely preterm infants. J Matern Fetal Neonatal Med. 2012;25(9):1591-4.
¹⁹
Olischar M, Shoemark H, Holton T, Weninger M, Hunt RW. The influence of music on aEEG activity in neurologically healthy newborns =32 weeks' gestational age. Acta Paediatr. 2011;100(5):670-5.
²⁰
Tramo MJ, Lense M, Van Ness C, Kagan J, Settle MD, Cronin JH. Effects of music on physiological and behavioral indices of acute pain and stress in premature infants: clinical trial and literature review. Music Med. 2011;3(2):72-83.
²¹
Yildiz A, Arikan D. The effects of giving pacifiers to premature infants and making them listen to lullabies on their transition period for total oral feeding and sucking success. J Clin Nurs. 2012;21(5-6):644-56.
²²
Alipour Z, Eskandari N, Ahmari Tehran H, Eshagh Hossaini SK, Sangi S. Effects of music on physiological and behavioral responses of premature infants: a randomized controlled trial. Complement Ther Clin Pract. 2013;19(3):128-32.
²³
Edraki M, Pourpulad H, Kargar M, Pishva N, Zare N, Montaseri H. Olfactory stimulation by vanillin prevents apnea in premature newborn infants. Iran J Pediatr. 2013;23(3):261-8.
²⁴
Baudesson de Chanville A, Brevaut-Malaty V, Garbi A, Tosello B, Baumstarck K, Gire C. Analgesic effect of maternal human milk odor on premature neonates: a randomized controlled trial. J Hum Lact. 2017;33(2):300-8.
²⁵
Marom R, Shedlisker-Kening T, Mimouni FB, Lubetzky R, Dollberg S, Berger I, et al. The effect of olfactory stimulation on energy expenditure in growing preterm infants. Acta Paediatr. 2012;101(1):e11-4.
²⁶
Romantsik O, Porter RH, Varendi H. The effects of olfactory stimulation and gender differences on pain responses in full-term infants. Acta Paediatr. 2014;103(11):1130-5.
²⁷
Bernardini V, De Liso P, Santoro F, Allemand F, Allemand A. [Procedural pain perception of preterm newborn in neonatal intensive care unit: assessment and non-pharmacological approaches]. Minerva Pediatr. 2011;63(4):247-55. Italian.
²⁸
Bueno M, Stevens B, de Camargo PP, Toma E, Krebs VL, Kimura AF. Breast milk and glucose for pain relief in preterm infants: a noninferiorityrandomized controlled trial. Pediatrics. 2012;129(4):664-70.
²⁹
Cignacco EL, Sellam G, Stoffel L, Gerull R, Nelle M, Anand KJ, et al. Oral sucrose and "facilitated tucking" for repeated pain relief in preterms: a randomized controlled trial. Pediatrics. 2012;129(2):299-308.
³⁰
Mekkaoui N, Issef I, Kabiri M, Barkat A. Analgesic effect of 30% glucose, milk and non-nutritive sucking in neonates. J Pain Res. 2012;5:573-7.
³¹
Ou-Yang MC, Chen IL, Chen CC, Chung MY, Chen FS, Huang HC. Expressed breast milk for procedural pain in preterm neonates: a randomized, double-blind, placebo-controlled trial. Acta Paediatr. 2013;102(1):15-21.
³²
Costa MC, Eckert GU, Fortes BG, Fortes Filho JB, Silveira RC, Procianoy RS. Oral glucose for pain relief during examination for retinopathy of prematurity: a masked randomized clinical trial. Clinics (Sao Paulo). 2013;68(2):199-204.
³³
Nimbalkar S, Sinojia A, Dongara A. Reduction of neonatal pain following administration of 25% lingual dextrose: a randomized control trial. J Trop Pediatr. 2013;59(3):223-5.
³⁴
Pandey M, Datta V, Rehan HS. Role of sucrose in reducing painful response to orogastric tube insertion in preterm neonates. Indian J Pediatr. 2013;80(6):476-82.
³⁵
Sahoo JP, Rao S, Nesargi S, Ranjit T, Ashok C, Bhat S. Expressed breast milk vs 25% dextrose in procedural pain in neonates, a double blind randomized controlled trial. Indian Pediatr. 2013;50(2):203-7.
³⁶
Scaramuzzo RT, Faraoni M, Polica E, Pagani V, Vagli E, Boldrini A. Skin conductance variations compared to ABC scale for pain evaluation in newborns. J Matern Fetal Neonatal Med. 2013;26(14):1399-403.
³⁷
Al Qahtani R, Abu-Salem LY, Pal K. Effect of lidocaine-prilocaine eutectic mixture of local anaesthetic cream compared with oral sucrose or both in alleviating pain in neonatal circumcision procedure. Afr J Paediatr Surg. 2014;11(1):56-61.
³⁸
Dilli D, Ilarslan NE, Kabatas EU, Zenciroglu A, Simsek Y, Okumus N. Oral sucrose and non-nutritive sucking goes some way to reducing pain during retinopathy of prematurity eye examinations. Acta Paediatr. 2014;103(2):e76-9.
³⁹
Ravishankar A, Thawani R, Dewan P, Das S, Kashyap A, Batra P, et al. Oral dextrose for analgesia in neonates during nasogastric tube insertion: a randomised controlled trial. J Paediatr Child Health. 2014;50(2):141-5.
⁴⁰
Suhrabi Z, Taghinejad H, Valian K, Sayehmiri K, Taheri S. A comparative study on the efficacy of glucose and sucrose on the vaccination pain: a randomized controlled clinical trial. J Clin Diagn Res. 2014;8(10):PC01-3.
⁴¹
Uzelli D, Yapucu Günes Ü. Oral glucose solution to alleviate pain induced by intramuscular injections in preterm infants. J Spec Pediatr Nurs. 2015;20(1):29-35.
⁴²
Kataria M, Narang S, Chawla D, Sood S, Gupta PC. Oral dextrose for pain management during laser treatment of retinopathy of prematurity under topical anesthesia. Indian J Pediatr. 2015;82(8):694-7.
⁴³
Tutag Lehr V, Cortez J, Grever W, Cepeda E, Thomas R, Aranda JV. Randomized placebo-controlled trial of sucrose analgesia on neonatal skin blood flow and pain response during heel lance. Clin J Pain. 2015;31(5):451-8.
⁴⁴
Vezyroglou K, Mehler K, Kribs A, Becker I, Langhammer K, Roth B, et al. Oral glucose in preterm neonates during oropharyngeal suctioning: a randomized controlled cross-over trial. Eur J Pediatr. 2015;174(7):867-74.
⁴⁵
Medeiros AM, Jesus GA, Almeida LF, Raposo OF. Integrated sensory motor system in prematurely born children. Codas. 2013;25(5):444-50.
⁴⁶
Ahmed RG, Suliman GI, Elfakey WA, Salih KM, El-Amin EI, Ahmed WA, et al. Effect of tactile kinesthetic stimulation on preterm infants' weight and length of hospital stay in Khartoum, Sudan. Saudi Med J. 2015;36(2):196-9.
⁴⁷
Smith SL, Haley S, Slater H, Moyer-Mileur LJ. Heart rate variability during caregiving and sleep after massage therapy in preterm infants. Early Hum Dev. 2013;89(8):525-9.
⁴⁸
Smith SL, Lux R, Haley S, Slater H, Beachy J, Moyer-Mileur LJ. The effect of massage on heart rate variability in preterm infants. J Perinatol. 2013;33(1):59-64.
⁴⁹
Haley S, Beachy J, Ivaska KK, Slater H, Smith S, Moyer-Mileur LJ. Tactile/kinesthetic stimulation (TKS) increases tibial speed of sound and urinary osteocalcin (U-MidOC and unOC) in premature infants (29-32weeks PMA). Bone. 2012;51(4):661-6.
⁵⁰
Aliabadi F, Askary RK. Effects of tactile-kinesthetic stimulation on low birth weight neonates. Iran J Pediatr. 2013;23(3):289-94.
⁵¹
Chen J, Sadakata M, Ishida M, Sekizuka N, Sayama M. Baby massage ameliorates neonatal jaundice in full-term newborn infants. Tohoku J Exp Med. 2011;223(2):97-102.
⁵²
Guzzetta A, D'Acunto MG, Carotenuto M, Berardi N, Bancale A, Biagioni E, et al. The effects of preterm infant massage on brain electrical activity. Dev Med Child Neurol. 2011;53 Suppl 4:46-51.
⁵³
Ferreira AM, Bergamasco NH. Behavioral analysis of preterm neonates included in a tactile and kinesthetic stimulation program during hospitalization. Rev Bras Fisioter. 2010;14(2):141-8. Portuguese.
⁵⁴
Ho YB, Lee RS, Chow CB, Pang MY. Impact of massage therapy on motor outcomes in very low-birthweight infants: randomized controlled pilot study. Pediatr Int. 2010;52(3):378-85.
⁵⁵
Moyer-Mileur LJ, Haley S, Slater H, Beachy J, Smith SL. Massage improves growth quality by decreasing body fat deposition in male preterm infants. J Pediatr. 2013;162(3):490-5.
⁵⁶
Ang JY, Lua JL, Mathur A, Thomas R, Asmar BI, Savasan S, et al. A randomized placebo-controlled trial of massage therapy on the immune system of preterm infants. Pediatrics. 2012;130(6):e1549-58.
⁵⁷
Diego MA, Field T, Hernandez-Reif M. Preterm infant weight gain is increased by massage therapy and exercise via different underlying mechanisms. Early Hum Dev. 2014;90(3):137-40.
⁵⁸
Kumar J, Upadhyay A, Dwivedi AK, Gothwal S, Jaiswal V, Aggarwal S. Effect of oil massage on growth in preterm neonates less than 1800 g: a randomized control trial. Indian J Pediatr. 2013;80(6):465-9.
⁵⁹
Saeadi R, Ghorbani Z, Shapouri Moghaddam A. The effect of massage with medium-chain triglyceride oil on weight gain in premature neonates. Acta Med Iran. 2015;53(2):134-8.
⁶⁰
Fallah R, Akhavan Karbasi S, Golestan M, Fromandi M. Sunflower oil versus no oil moderate pressure massage leads to greater increases in weight in preterm neonates who are low birth weight. Early Hum Dev. 2013;89(9):769-72.
⁶¹
Basiri-Moghadam M, Basiri-Moghadam K, Kianmehr M, Jani S. The effect of massage on neonatal jaundice in stable preterm newborn infants: a randomized controlled trial. J Pak Med Assoc. 2015;65(6):602-6.
⁶²
Lin CH, Yang HC, Cheng CS, Yen CE. Effects of infant massage on jaundiced neonates undergoing phototherapy. Ital J Pediatr. 2015;41:94.
⁶³
Dalili H, Sheikhi S, Shariat M, Haghnazarian E. Effects of baby massage on neonatal jaundice in healthy Iranian infants: a pilot study. Infant Behav Dev. 2016;42:22-6.
⁶⁴
Chik YM, Ip WY, Choi KC. The effect of upper limb massage on infants' venipuncture pain. Pain Manag Nurs. 2017;18(1):50-7.
⁶⁵
Yates CC, Mitchell AJ, Booth MY, Williams DK, Lowe LM, Whit Hall R. The effects of massage therapy to induce sleep in infants born preterm. Pediatr Phys Ther. 2014;26(4):405-10.
⁶⁶
Azevedo VM, Xavier CC, Gontijo FO. Safety of kangaroo mother care in intubated neonates under 1500 g. J Trop Pediatr. 2012;58(1):38-42.
⁶⁷
Carbasse A, Kracher S, Hausser M, Langlet C, Escande B, Donato L, et al. Safety and effectiveness of skin-to-skin contact in the NICU to support neurodevelopment in vulnerable preterm infants. J Perinat Neonatal Nurs. 2013;27(3):255-62.
⁶⁸
Karlsson V, Heinemann AB, Sjörs G, Nykvist KH, Agren J. Early skin-to-skin care in extremely preterm infants: thermal balance and care environment. J Pediatr. 2012;161(3):422-6.
⁶⁹
Lorenz L, Dawson JA, Jones H, Jacobs SE, Cheong JL, Donath SM, et al. Skin-to-skin care in preterm infants receiving respiratory support does not lead to physiological instability. Arch Dis Child Fetal Neonatal Ed. 2017;102(4):F339-44.
⁷⁰
Park H, Choi BS, Lee SJ, Son IA, Seol IJ, Lee HJ. Practical application of kangaroo mother care in preterm infants: clinical characteristics and safety of kangaroo mother care. J Perinat Med. 2014;42(2):239-45.
⁷¹
Okan F, Ozdil A, Bulbul A, Yapici Z, Nuhoglu A. Analgesic effects of skin-to-skin contact and breastfeeding in procedural pain in healthy term neonates. Ann Trop Paediatr. 2010;30(2):119-28.
⁷²
Saeidi R, Asnaashari Z, Amirnejad M, Esmaeili H, Robatsangi MG. Use of "kangaroo care" to alleviate the intensity of vaccination pain in newborns. Iran J Pediatr. 2011;21(1):99-102.
⁷³
Cong X, Cusson RM, Walsh S, Hussain N, Ludington-Hoe SM, Zhang D. Effects of skin-to-skin contact on autonomic pain responses in preterm infants. J Pain. 2012;13(7):636-45.
⁷⁴
Nimbalkar SM, Patel VK, Patel DV, Nimbalkar AS, Sethi A, Phatak A. Effect of early skin-to-skin contact following normal delivery on incidence of hypothermia in neonates more than 1800 g: randomized control trial. J Perinatol. 2014;34(5):364-8.
⁷⁵
Chidambaram AG, Manjula S, Adhisivam B, Bhat BV. Effect of Kangaroo mother care in reducing pain due to heel prick among preterm neonates: a crossover trial. J Matern Neonatal Med. 2014;27(5):488-90.
⁷⁶
Gao H, Xu G, Gao H, Dong R, Fu H, Wang D, et al. Effect of repeated Kangaroo Mother Care on repeated procedural pain in preterm infants: a randomized controlled trial. Int J Nurs Stud. 2015;52(7):1157-65.
⁷⁷
Choudhary M, Dogiyal H, Sharma D, Datt Gupta B, Madabhavi I, Choudhary JS, et al. To study the effect of Kangaroo Mother Care on pain response in preterm neonates and to determine the behavioral and physiological responses to painful stimuli in preterm neonates: a study from western Rajasthan. J Matern Neonatal Med. 2016;29(5):826-31.
⁷⁸
Kaffashi F, Scher MS, Ludington-Hoe SM, Loparo KA. An analysis of the kangaroo care intervention using neonatal EEG complexity: a preliminary study. Clin Neurophysiol. 2013;124(2):238-46.
⁷⁹
Neu M, Hazel NA, Robinson J, Schmiege SJ, Laudenslager M. Effect of holding on co-regulation in preterm infants: a randomized controlled trial. Early Hum Dev. 2014;90(3):141-7.
⁸⁰
Srivastava S, Gupta A, Bhatnagar A, Dutta S. Effect of very early skin to skin contact on success at breastfeeding and preventing early hypothermia in neonates. Indian J Public Health. 2014;58(1):22-6.
⁸¹
Jayaraman D, Mukhopadhyay K, Bhalla AK, Dhaliwal LK. Randomized controlled trial on effect of intermittent early versus late kangaroo mother care on human milk feeding in low-birth-weight neonates. J Hum Lact. 2017;33(3):533-9.
⁸²
Nagai S, Andrianarimanana D, Rabesandratana N, Yonemoto N, Nakayama T, Mori R. Earlier versus later continuous Kangaroo Mother Care (KMC) for stable low-birth-weight infants: a randomized controlled trial. Acta Paediatr. 2010;99(6):827-35.
⁸³
Sharma D, Murki S, Pratap OT. The effect of kangaroo ward care in comparison with "intermediate intensive care" on the growth velocity in preterm infant with birth weight <1100 g: randomized control trial. Eur J Pediatr. 2016;175(10):1317-24.
⁸⁴
Mitchell AJ, Yates CC, Williams DK, Chang JY, Hall RW. Does daily kangaroo care provide sustained pain and stress relief in preterm infants? J Neonatal Perinatal Med. 2013;6(1):45-52.
⁸⁵
Ghavane S, Murki S, Subramanian S, Gaddam P, Kandraju H, Thumalla S. Kangaroo Mother Care in Kangaroo ward for improving the growth and breastfeedingoutcomes when reaching term gestational age in very low birth weight infants. Acta Paediatr. 2012;101(12):e545-9.
⁸⁶
Sharma D, Murki S, Oleti TP. To compare cost effectiveness of "Kangaroo Ward Care" with "Intermediate intensive care" in stable very low birth weight infants (birth weight < 1100 grams): a randomized control trial. Ital J Pediatr. 2016;42(1):64.
⁸⁷
Schulzke SM, Kaempfen S, Trachsel D, Patole SK. Physical activity programs for promoting bone mineralization and growth in preterm infants. Cochrane Database Syst Rev. 2014;(4):CD005387.
⁸⁸
Kanagasabai PS, Mohan D, Lewis LE, Kamath A, Rao BK. Effect of multisensory stimulation on neuromotor development in preterm infants. Indian J Pediatr 2013;80(6):460-4.
⁸⁹
Medoff-Cooper B, Rankin K, Li Z, Liu L, White-Traut R. Multisensory intervention for preterm infants improves sucking organization. Adv Neonatal Care. 2015;15(2):142-9.
⁹⁰
White-Traut R, Rankin KM, Pham T, Li Z, Liu L. Preterm infants' orally directed behaviors and behavioral state responses to the integrated H-HOPE intervention. Infant Behav Dev. 2014;37(4):583-96.
⁹¹
White-Traut R, Norr KF, Fabiyi C, Rankin KM, Li Z, Liu L. Mother-infant interaction improves with a developmental intervention for mother-preterm infant dyads. Infant Behav Dev. 2013;36(4):694-706.
⁹²
White-Traut RC, Rankin KM, Yoder JC, Liu L, Vasa R, Geraldo V, et al. Influence of H-HOPE intervention for premature infants on growth, feeding progression and length of stay during initial hospitalization. J Perinatol. 2015;35(8):636-41.
⁹³
Moyer-Mileur LJ, Brunstetter V, McNaught TP, Gill G, Chan GM. Daily physical activity program increases bone mineralization and growth in preterm very low birth weight infants. Pediatrics. 2000;106(5):1088-92.
⁹⁴
Eliakim A, Litmanovitz I, Nemet D. The role of exercise in prevention and treatment of osteopenia of prematurity: an update. Pediatr Exerc Sci. 2017;29(4):450-5.
⁹⁵
Erdem E, Tosun Ö, Bayat M, Korkmaz Z, Halis H, Günes T. Daily physical activity in low-risk extremely low birth weight preterm infants: positive impact on bone mineral density and anthropometric measurements. J Bone Miner Metab. 2015;33(3):329-34.
⁹⁶
Tosun Ö, Bayat M, Günes T, Erdem E. Daily physical activity in low-risk pre-term infants: positive impact on bone strength and mid-upper arm circumference. Ann Hum Biol. 2011;38(5):635-9.
⁹⁷
Vignochi CM, Silveira RC, Miura E, Canani LH, Procianoy RS. Physical therapy reduces bone resorption and increases bone formation in preterm infants. Am J Perinatol. 2012;29(8):573-8.
⁹⁸
Litmanovitz I, Erez H, Eliakim A, Bauer-Rusek S, Arnon S, Regev RH, et al. The effect of assisted exercise frequency on bone strength in very low birth weight preterm infants: a randomized control trial. Calcif Tissue Int. 2016;99(3):237-42.
⁹⁹
Chen HL, Lee CL, Tseng HI, Yang SN, Yang RC, Jao HC. Assisted exercise improves bone strength in very low birthweight infants by bone quantitative ultrasound. J Paediatr Child Health. 2010;46(11):653-9.

Editado por

Editor responsável: Arnaldo Prata-Barbosa

Datas de Publicação

Publicação nesta coleção
19 Abr 2021
Data do Fascículo
Jan-Mar 2021

Histórico

Recebido
08 Set 2020
Aceito
16 Set 2020

Este é um artigo publicado em acesso aberto (Open Access) sob a licença Creative Commons Attribution, que permite uso, distribuição e reprodução em qualquer meio, sem restrições desde que o trabalho original seja corretamente citado.

Indicadores clínicos	Tátil	Auditivo	Olfatório	Gustatório	Tátil-cinestésico^* * Estimulação multimodal: intervenções de estimulação sensório-motora que combinam dois ou mais tipos de estímulos sensoriais.	Massagem^* * Estimulação multimodal: intervenções de estimulação sensório-motora que combinam dois ou mais tipos de estímulos sensoriais.	Pele com pele^* * Estimulação multimodal: intervenções de estimulação sensório-motora que combinam dois ou mais tipos de estímulos sensoriais.	Multissensorial^* * Estimulação multimodal: intervenções de estimulação sensório-motora que combinam dois ou mais tipos de estímulos sensoriais.	Mobilizações^* * Estimulação multimodal: intervenções de estimulação sensório-motora que combinam dois ou mais tipos de estímulos sensoriais.
Reduz a dor/estresse ou melhora a organização comportamental	+++	+++	+++	++++	+++	++++	++++	++++
Melhora os eventos fisiológicos vitais (regula FR, FC, SpO₂, temperatura e reduz episódios de apneia)	++	++++	+++				++++
Melhora os ciclos de sono-vigília	++	+			++	+
Acelera a maturação cerebral					+	+		+++
Melhora o peso ou a sucção ou promove progressão mais rápida para alimentação oral total		++			+++	+++	++++	+++
Melhora a massa óssea ou a força muscular ou a maturação do tônus muscular					+++			+++	+++
Diminui o tempo de hospitalização ou reduz o número de morbidades		++			+++	+++	++++

Author	Type of study	Sample	Interventions	Main outcomes	Main results
Asadollahi et al.⁽⁸8 Asadollahi M, Jabraeili M, Mahallei M, Asgari Jafarabadi M, Ebrahimi S. Effects of gentle human touch and field massage on urine cortisol level in premature infants: a randomized, controlled clinical trial. J Caring Sci. 2016;5(3):187-94.⁾	Randomized controlled trial	n = 78 NB, GA: 30 - 36 weeks, Weight: 1,000g - 1,800g, Without ventilatory support	Tactile stimulation performed 7 to 10 days after birth; interventions conducted 3 times a day for 5 consecutive days, Randomized into 3 groups:, Control Group, n = 24: the physiotherapist placed the palm of one hand on the NB's forehead for 15 minutes (fingers on the eyebrows) and the other on the lower abdomen to support the spine and hip , Gentle Human Touch Group, n = 27 , Massage Group, n = 27	The decrease in stress assessed by urine cortisol level	A decline in cortisol level in the Gentle Human Touch and Massage Group, but significantly higher in the latter
Ramada et al.⁽⁹9 Ramada NC, Almeida FA, Cunha ML. Therapeutic touch: influence on vital signs of newborns. Einstein (Sao Paulo). 2013;11(4):421-5.⁾	Prospective controlled trial	n = 40 NB (21 preterm NB and 19 term NB), GA: not informed, Weight: not informed	Vital signs and pain level compared before and after therapeutic touch (physiotherapists kept their hands on each region for 3 minutes: head, anterior and posterior chest and regions of the body affected). Total time of 20 - 30 minutes	Assessment of vital sign variability (HR, RR, temperature), Pain assessment according to NIPS	Pain and vital signs declined after intervention (HR, RR)
Bahman Bijari et al.⁽¹⁰10 Bahman Bijari B, Iranmanesh S, Eshghi F, Baneshi MR. Gentle Human Touch and Yakson: The Effect on Preterm's Behavioral Reactions. ISRN Nurs. 2012;2012:750363.⁾	Randomized controlled trial,	n = 90 NB, GA: 26 - 34 weeks, Weight: 1,200g - 2,000g, Without ventilatory support	Tactile stimulation performed 7 to 10 days after birth; interventions conducted twice a day for 5 consecutive days, Randomized into 3 groups: Control Group, Gentle Human Touch Group and Yakson Group	Assessment of newborns' behavioral status according to the ABSS scale	The newborns improved behaviorally, especially in the sleep phase, which increased in both the Gentle Human Touch and Yakson Groups

Author	Type of study	Sample	Interventions	Main outcomes	Main results
Taheri et al.⁽¹¹11 Taheri L, Jahromi MK, Abbasi M, Hojat M. Effect of recorded male lullaby on physiologic response of neonates in NICU. Appl Nurs Res. 2017;33:127-30.⁾	Double-blind randomized controlled trial	n = 52 NB, GA: 33 ± 4 weeks (Intervention Group), GA: 34 ± 4 weeks (Control Group), Weight: not informed	Randomized into 2 groups (n = 26 each):, (1) Intervention Group: submitted to auditory stimulation with lullabies, through earphones, at 50 - 60dB, for 20 minutes, (2) Control Group: earphones with no music (silence). The two groups were observed for 40 minutes	HR and SpO₂ assessment	Lullaby (male voice and without music) could significantly reduce heart rate and increase blood oxygen saturation of neonates
Jabraeili et al.⁽¹²12 Jabraeili M, Sabet T, MustafaGharebaghi M, Asghari Jafarabadi M, Arshadi M. The effect of recorded mum's lullaby and brahm's lullaby on oxygen saturation in preterm infants: a randomized double-blind clinical trial. J Caring Sci. 2016;5(1):85-93.⁾	Double-blind randomized controlled trial	n = 66 NB, GA: 29 - 34 weeks, Postnatal age ≥ 3 days,, Weight: ≤ 2,800g, Without invasive or noninvasive ventilatory support	Randomized into three groups:, (1) Lullabies Sung by the Mother Group (n = 21) , (2) Brahms Lullaby group (n = 25) , (3) Control Group (n = 20): ambient noises. The stimulus was presented at 65 - 70dB, for 15 minutes, between 10am and 7pm, in three consecutive sessions	SpO₂ assessment	Lullabies sung by the mother and Brahms lullaby music can help to improve SpO₂ in preterm
Shabani et al.⁽¹³13 Shabani F, Nayeri ND, Karimi R, Zarei K, Chehrazi M. Effects of music therapy on pain responses induced by blood sampling in premature infants: a randomized cross-over trial. Iran J Nurs Midwifery Res. 2016;21(4):391-6.⁾	Randomized crossover clinical trial	n = 20 NB, but each infant was studied in two groups of experimental and control. So, totally 40 infants were studied, GA: 29 - 36 weeks, Birth weight: < 2,500g	Auditory stimulation was performed with Schwartz' Transitions music (combination of intrauterine sounds of a pregnant woman and a song sung by a female singer), through speakers placed 20cm from the NB's ear, at 45 - 60dB, for 15 minutes	Physiological responses to pain (HR and SpO₂), Sleep-wake state, Pain level assessed by the NFCS scale	Playing music is an effective intervention which decreases the heart rate, sleep-wake state scores, and facial expressions of pain
Silva et al.⁽¹⁴14 Silva CM, Cação JM, Silva KC, Marques CF, Merey LS. Physiological responses of preterm newborn infants submitted to classical music therapy. Rev Paul Pediatr. 2013;31(1):30-6.⁾	Non-controlled clinical trial	n = 12 NB, GA ≤ 36 weeks, Weight: not informed, Spontaneous breathing	Auditory stimulation performed with classical music twice a day, for 15 minutes, 1 hour after breastfeeding, for 3 consecutive days, totaling 6 interventions, The music was played inside the incubator at 45 to 55dB, (total noise = intervention + ambient noises), The speakers were placed outside the incubator, in front of the porthole (which remained open during the intervention), but near the NB's head	Assessment of HR, RR, SpO₂, BP (systolic and diastolic) and BT	Classical music can change the short-term physiological responses of NBs, HR in one of the sessions, but increased it in the next session; besides, it led to the reduction of HR in two sessions and promoted different variations in SatO2 at when compared to the fifth and sixth session of music therapy
Keidar et al.⁽¹⁵15 Keidar HR, Mandel D, Mimouni FB, Lubetzky R. Bach music in preterm infants: no "Mozart effect" on resting energy expenditure. J Perinatol. 2014;34(2):153-5.⁾	Randomized crossover prospective clinical trial	n = 12 NB, GA: 30 - 37 weeks, Tube feeding, Weight: not informed	Randomized for auditory stimulation with two types of music (Mozart and Bach) and control (no auditory stimulation), in random sequences, for three consecutive days, The music was always played at midday through speakers placed 30 cm from the NB's ear, at 65 - 70dB, for 30 minutes to one hour after feeding, with the infant in the prone position	Primary outcome was resting energy expenditure, However, vital signs (HR, RR and SpO₂) were constantly recorded	Auditory stimulation with Mozart music (Mozart Effect) significantly decreased resting energy expenditure
Amini et al.⁽¹⁶16 Amini E, Rafiei P, Zarei K, Gohari M, Hamidi M. Effect of lullaby and classical music on physiologic stability of hospitalized preterm infants: a randomized trial. J Neonatal Perinatal Med. 2013;6(4):295-301.⁾	Randomized crossover clinical trial	n = 25 NB, GA: 29 - 36 weeks, Weight: 1,000g - 2,500g	The NBs were randomly submitted to 2 days of classical music (Mozart), two of lullabies and 2 control days (no music), The stimulus was presented through speakers placed 30cm from the NB's ear, for 20 minutes, with the baby in the supine or prone position	Assessment of vital signs (HR, RR and SpO₂)	Lullabies lowered HR and RR. These effects continued after exposure, Classical music lowered HR, but the effect disappeared after exposure was discontinued, SpO₂ did not change with the intervention
Loewy et al.⁽¹⁷17 Loewy J, Stewart K, Dassler AM, Telsey A, Homel P. The effects of music therapy on vital signs, feeding, and sleep in premature infants. Pediatrics. 2013;131(5):902-18.⁾	Randomized multicenter controlled trial with blind assessor	n = 272 NB, GA ≥ 32 weeks, Weight: not informed	All the infants received 3 types of intervention:, (1) Lullabies, (2) Breathing-like sounds (Ocean disc), (3) Heart beat-like sounds (Gato box), Each child received the three stimulation modalities three times a week (in the morning or afternoon), for two weeks, totaling 6 interventions, Auditory stimulation was conducted near the crib or incubator, at 55 - 65dB for 10 minutes, The incubator babies received the intervention through an open porthole, - Control group: did not receive auditory stimulation	Primary: vital signs (HR, RR and SpO₂) and activity level, Secondary: feeding behavior (suckings per minute), Sucking behavior (frequency), Sleep pattern, calorie intake	The three interventions positively influenced vital signs, sound and lullaby may improve feeding behaviors and sucking patterns and may increase prolonged periods of quiet-alert states and parent-preferred lullabies, sung live, can enhance bonding, thus decreasing the stress parents associate with premature infant care
Doheny et al.⁽¹⁸18 Doheny L, Hurwitz S, Insoft R, Ringer S, Lahav A. Exposure to biological maternal sounds improves cardiorespiratory regulation in extremely preterm infants. J Matern Fetal Neonatal Med. 2012;25(9):1591-4.⁾	Within-subject experimental study	n = 14 NB, GA: 26 to 32 weeks, and at least 27 weeks of age at the time of the study, Weight: not informed	Submitted to routine hospital and maternal sounds (voice and heart beats), inside the incubator/crib, at 55 - 60 dBA, 4 times a day, for 30 minutes, Auditory stimulation with maternal sounds within 7 days of birth and continued until NICU discharge	Frequency of adverse cardiorespiratory events (apnea > 20 seconds and/or HR decrease to below 100bpm for babies < 34 gestational weeks or below 80bpm for infants > 34 gestational weeks)	Cardiorespiratory events declined with age., Frequency was lower with exposure to maternal sounds. This effect was significant in infants with GA ≥ 33 weeks, suggesting a therapeutic window
Olischar et al.⁽¹⁹19 Olischar M, Shoemark H, Holton T, Weninger M, Hunt RW. The influence of music on aEEG activity in neurologically healthy newborns =32 weeks' gestational age. Acta Paediatr. 2011;100(5):670-5.⁾	Randomized controlled trial	n = 20 NB, GA: ≥ 32 weeks, Weight: not informed, Neurologically healthy during the first 6 weeks of life, without ventilatory support	Randomized into 2 groups (n = 10 each):, (1) Experimental Group: submitted to Brahms' lullabies, through speakers placed 30cm from the NB's head inside the incubator, at 50 - 55 dBA for 20 minutes, (2) Control Group: no auditory stimulation with music	Assessment of aEEG activity:, Background pattern, sleep-wake cycle quality and periods of restful sleep in terms of frequency, duration and minimum and maximum amplitudes	There were no statistically significant intergroup differences; however, the small sample was small
Tramo et al.⁽²⁰20 Tramo MJ, Lense M, Van Ness C, Kagan J, Settle MD, Cronin JH. Effects of music on physiological and behavioral indices of acute pain and stress in premature infants: clinical trial and literature review. Music Med. 2011;3(2):72-83.⁾	Randomized prospective controlled trial	n = 13 NB, GA: 30 weeks and 6 days to 34 weeks and 3 days, Weight: 1,200g - 2,600g at 1 to 35 days of life, without ventilatory support or oxygenation	Randomized into 2 groups:, (1) Intervention Group (n = 7): submitted to auditory stimulation with lullabies, through speakers placed 50cm from the infant's head, inside the incubator, at 70 dBA for 10 minutes, (2) Control Group (n = 6): no auditory stimulation with music	Assessment of physiological responses (HR, RR and SpO₂) and behavioral assessment (opening the eyes, head movements and crying) before, during and after heel puncture	In both groups, HR and RR increased during the heel puncture procedure and nearly all the infants cried, During the 10-minute recovery period following heel puncture, HR and crying decreased significantly in the intervention group
Yildiz et al.⁽²¹21 Yildiz A, Arikan D. The effects of giving pacifiers to premature infants and making them listen to lullabies on their transition period for total oral feeding and sucking success. J Clin Nurs. 2012;21(5-6):644-56.⁾	Quasi-experimental prospective study	n = 90 NB, GA: 30 - 34 weeks and exhibiting no sucking reflex, Weight: ≥ 1,000g, Tolerating enteral diet	Allocated to 3 groups (N = 30/each):, (1) Control Group: no intervention, (2) Sucking Group: the babies were given pacifiers, (3) Lullaby Group: Lullabies were played to the babies through speakers. placed at the infants' feet in the incubator, at 65dB, during force feeding	Assessment of peak HR, RR, and SpO₂ before, during and after feeding, body weight, sucking success, transition period to oral feeding, and hospitalization time	The pacifier group proceeded to total oral feeding faster, followed by the Lullaby Group, Sucking success was achieved by the pacifier group, followed by the Lullaby Group, The pacifier group had the shortest hospitalization time, followed by the Lullaby Group, There was no difference in RR, SpO₂ and weight between the 3 groups
Alipour et al.⁽²²22 Alipour Z, Eskandari N, Ahmari Tehran H, Eshagh Hossaini SK, Sangi S. Effects of music on physiological and behavioral responses of premature infants: a randomized controlled trial. Complement Ther Clin Pract. 2013;19(3):128-32.⁾	Double-blind randomized placebo-controlled clinical trial	N = 90 NB, GA: 28 - 36 weeks and 1 to 25 days of life, Weight: not informed	Randomized into 3 groups (n = 30 each):, (1) Intervention: auditory stimulation with lullabies, at 50 - 60 dB, through earphones, for 20 minutes, with the NB in the supine position, (2) Silence Group (placebo): NB in the supine position with earphones for 20 minutes, without music, (3) Control Group: no intervention; routine care	Physiological responses (HR, RR and SpO₂), Behavioral responses assessed by the BSI scale	No significant intergroup differences in terms of physiological and behavioral responses,

Author	Type of study	Sample	Interventions	Main outcomes	Main results
Edraki et al.⁽²³23 Edraki M, Pourpulad H, Kargar M, Pishva N, Zare N, Montaseri H. Olfactory stimulation by vanillin prevents apnea in premature newborn infants. Iran J Pediatr. 2013;23(3):261-8.⁾	Randomized prospective controlled clinical trial	n = 36 premature NB, GA: 33 - 35 weeks , Weight: < 2,500g	Randomized into two groups (18 NB in each group):, Control Group: submitted to routine care, Intervention Group: olfactory stimulation with vanillin solution	Frequency of apnea episodes, arterial blood oxygen saturation and HR	There was a reduction in apnea episodes in the group submitted to vanillin solution, There was no change in vital signs between groups
Baudesson de Chanville et al.⁽²⁴24 Baudesson de Chanville A, Brevaut-Malaty V, Garbi A, Tosello B, Baumstarck K, Gire C. Analgesic effect of maternal human milk odor on premature neonates: a randomized controlled trial. J Hum Lact. 2017;33(2):300-8.⁾	Double-blind randomized placebo-controlled clinical trial	n = 33 NB, GA: 30 - 36 weeks , Weight: > 1,500g	Randomized into two groups: , Control Group: 17 NB submitted to routine care , Intervention Group: 16 NB Olfactory stimulation with maternal milk 10 days after birth	Pain assessment using PIPP and changes in vital signs (HR & SPO2) of NBs submitted to venipuncture	Significant pain reduction without changes in vital signs
Marom et al.⁽²⁵25 Marom R, Shedlisker-Kening T, Mimouni FB, Lubetzky R, Dollberg S, Berger I, et al. The effect of olfactory stimulation on energy expenditure in growing preterm infants. Acta Paediatr. 2012;101(1):e11-4.⁾	Randomized prospective controlled clinical trial	n = 20 NB, GA: 32 - 35 weeks , Weight: not informed , Without ventilatory support	Olfactory stimulation with vanillin odour exposureversus no vanillin odour exposure for 2 consecutive days	Metabolic rate evaluated through indirect calorimetry; oxygen (VO₂) and carbon dioxide (VCO₂) consumption	There was no difference between the two groups in terms of resting energy expenditure,
Romantsik et al.⁽²⁶26 Romantsik O, Porter RH, Varendi H. The effects of olfactory stimulation and gender differences on pain responses in full-term infants. Acta Paediatr. 2014;103(11):1130-5.⁾	Randomized prospective controlled clinical trial	n = 69 NB, GA: ≤ 37 weeks , Weight: 3,000g - 4,000g	Randomized into two groups: , Control Group: 30 NB submitted to water scent (7cm from the nose) for 3 minutes, Intervention Group: 39 NB olfactory stimulation with vanilla scent (7cm from the nose) for 3 minutes	Responses to painful procedures with vanilla and water scents were measured using two scales, the NFCS and BIIP, along with crying duration and hand movements	There were no statistically significant differences between stimulation with vanilla scent compared to water use for the reduction of pain after painful procedures

Author	Type of study	Sample	Interventions	Main outcomes	Main results
Bernardini et al.⁽²⁷27 Bernardini V, De Liso P, Santoro F, Allemand F, Allemand A. [Procedural pain perception of preterm newborn in neonatal intensive care unit: assessment and non-pharmacological approaches]. Minerva Pediatr. 2011;63(4):247-55. Italian.⁾	Randomized prospective controlled clinical trial	n = 28 NB, GA: 30 - 35 weeks, Weight: not disclosed	Glucose solution associated to no nutritive suction versus sensorial saturation (14 each) comprising a 6-step protocol:, Keep the NB in lateral position, Maintain eye contact, Massage face and back, Talk to the baby gently but firmly, Allow child to smell the fragrance of a baby oil (Babygella, Guieu Labs) on the therapist's hands place 10% glucose on the baby's tongue	Assess pain level during venipuncture using the PIPP scale	Sensorial saturation ameliorates the quality of life in NICU and reduces the pain threshold perceived by newborn
Bueno et al.⁽²⁸28 Bueno M, Stevens B, de Camargo PP, Toma E, Krebs VL, Kimura AF. Breast milk and glucose for pain relief in preterm infants: a noninferiorityrandomized controlled trial. Pediatrics. 2012;129(4):664-70.⁾	Randomized prospective controlled clinical trial	n = 113 NB, GA: 34 - 36 weeks, Weight: ≥ 2,000g	Stimulation with maternal milk versus glucose	Evaluate pain level by comparing stimulation with maternal milk versus glucose, before NB heel puncture, using the PIPP	No statistically significant differences were found between the interventions
Cignacco et al.⁽²⁹29 Cignacco EL, Sellam G, Stoffel L, Gerull R, Nelle M, Anand KJ, et al. Oral sucrose and "facilitated tucking" for repeated pain relief in preterms: a randomized controlled trial. Pediatrics. 2012;129(2):299-308.⁾	Randomized prospective multicenter controlled clinical trial	n = 71 NB, GA: 24 - 32 weeks, Weight: not disclosed	Stimulation with sucrose, facilitated tucking, and a combination of both interventions during heel puncture and collected during the first 14 days of their NICU stay	Assess pain level by comparing sucrose versus assisted suction, during heel puncture of NBs, using the BPNS score (combination of items that evaluate physiological and behavioral status)	Sucrose, regardless of association, showed better efficacy in reducing pain
Mekkaoui et al.⁽³⁰30 Mekkaoui N, Issef I, Kabiri M, Barkat A. Analgesic effect of 30% glucose, milk and non-nutritive sucking in neonates. J Pain Res. 2012;5:573-7.⁾	Randomized prospective controlled clinical trial	n = 125 NB, GA: 28 - 37 weeks, Weight: not disclosed	Randomized into five non-pharmacological interventions: , Oral glucose stimulation , Non-nutritive sucking , Oral administration of glucose 30%; associated with pacifier suction, Oral administration of glucose 30%; associated with formula milk, Oral administration of age-appropriate formula milk	Assess pain level during heel puncture using the DAN scale	Among the five groups, NB who received 30% glucose, artificial milk, or sucking a pacifier showed better results
Ou-Yang et al.⁽³¹31 Ou-Yang MC, Chen IL, Chen CC, Chung MY, Chen FS, Huang HC. Expressed breast milk for procedural pain in preterm neonates: a randomized, double-blind, placebo-controlled trial. Acta Paediatr. 2013;102(1):15-21.⁾	Randomized prospective controlled clinical trial	n = 123 NB, IG: < 37 weeks, Weight: not disclosed	Stimulation with distilled water (n = 48) versus 25% glucose water (n = 50) versus maternal milk (n = 62)	Assess pain level during heel puncture using the PIPP scale	Stimulation with maternal milk decrease pain level
Costa et al.⁽³²32 Costa MC, Eckert GU, Fortes BG, Fortes Filho JB, Silveira RC, Procianoy RS. Oral glucose for pain relief during examination for retinopathy of prematurity: a masked randomized clinical trial. Clinics (Sao Paulo). 2013;68(2):199-204.⁾	Randomized prospective controlled clinical trial	n = 124 NB, GA: ≤ 32 weeks, Weight: ≤ 1,500g	Administration of a 1mLdose of 25% glucose solution 2 minutes before and immediately after the first retinopathy of prematurity (ROP) eye examination	Evaluate pain intensity during the first eye examination for retinopathy of prematurity in NB using the NPAS scale	Glucose decreases the pain level of the first eye examination for retinopathy of prematurity
Nimbalkar et al.⁽³³33 Nimbalkar S, Sinojia A, Dongara A. Reduction of neonatal pain following administration of 25% lingual dextrose: a randomized control trial. J Trop Pediatr. 2013;59(3):223-5.⁾	Randomized prospective controlled clinical trial	n = 104 NB , GA: > 28 weeks, Weight: not disclosed	One group received lingual dextrose before orogastric tube placement and the other received a placebo	Evaluate pain reduction after orogastric tube placement, with lingual administration of 25% dextrose, using the PIPP scale	Lingual dextrose administration decreases pain level compared to the placebo group
Pandey et al.⁽³⁴34 Pandey M, Datta V, Rehan HS. Role of sucrose in reducing painful response to orogastric tube insertion in preterm neonates. Indian J Pediatr. 2013;80(6):476-82.⁾	Randomized prospective controlled clinical trial	n = 105 NB, IG: < 37 weeks (< 168 hours of life), Weight: not disclosed	Stimulation with 24% sterile sucrose solution (n = 53) versus distilled water (n = 52), both administered orally 2 minutes before orogastric tube placement	Evaluate pain level following orogastric tube placement using the PIPP scale	Sucrose reduced pain level compared to the placebo group
Sahoo et al.⁽³⁵35 Sahoo JP, Rao S, Nesargi S, Ranjit T, Ashok C, Bhat S. Expressed breast milk vs 25% dextrose in procedural pain in neonates, a double blind randomized controlled trial. Indian Pediatr. 2013;50(2):203-7.⁾	Randomized prospective controlled clinical trial	n = 160 NB, GA: > 34 weeks, Weight not disclosed	Three groups randomized into: , Stimulation with maternal milk (n = 50), 25% dextrose (n = 62), Sterile water (n = 48)	Assess pain level after venipuncture using the PIPP scale and changes in HR, SpO₂ and duration of crying	Dextrose and maternal milk reduced pain level compared to the placebo group
Scaramuzzo et al.⁽³⁶36 Scaramuzzo RT, Faraoni M, Polica E, Pagani V, Vagli E, Boldrini A. Skin conductance variations compared to ABC scale for pain evaluation in newborns. J Matern Fetal Neonatal Med. 2013;26(14):1399-403.⁾	Randomized prospective controlled clinical trial	n = 158 NB, GA: > 37 weeks, Weight: not disclosed	Randomized into two groups: stimulation with oral sucrose (n = 82) versus wrapping (n = 76)	Evaluate spontaneous fluctuations in skin conductance to measure pain and to compare oral sucrose with non-apharmacological analgesic packaging	Oral sucrose is more effective in reducing pain level
Al Qahtani et al.⁽³⁷37 Al Qahtani R, Abu-Salem LY, Pal K. Effect of lidocaine-prilocaine eutectic mixture of local anaesthetic cream compared with oral sucrose or both in alleviating pain in neonatal circumcision procedure. Afr J Paediatr Surg. 2014;11(1):56-61.⁾	Randomized prospective controlled clinical trial	n = 90 NB, GA: > 38 weeks, Weight: not disclosed	Stimulation with EMLA cream (n = 30) versus oral sucrose (n = 30) versus combination of EMLA cream and oral sucrose (n = 30)	Assess pain level comparing EMLA use and oral sucrose in NBs during circumcision	The combination of sucrose with EMLA cream has the greatest analgesic effect
Dilli et al.⁽³⁸38 Dilli D, Ilarslan NE, Kabatas EU, Zenciroglu A, Simsek Y, Okumus N. Oral sucrose and non-nutritive sucking goes some way to reducing pain during retinopathy of prematurity eye examinations. Acta Paediatr. 2014;103(2):e76-9.⁾	Randomized prospective controlled clinical trial	n = 64 NB, GA: 28 - 37 weeks, Weight: not disclosed	Stimulation with sucrose on pacifier (n = 32) versus sucrose-free pacifier versus sterile water (n = 32) 30 seconds before eye examination	Evaluate effectiveness of oral sucrose combined with non-nutritive sucking to reduce pain level	Sucrose combined with non-nutritive sucking reduces pain level during eye examinations
Ravishankar et al⁽³⁹39 Ravishankar A, Thawani R, Dewan P, Das S, Kashyap A, Batra P, et al. Oral dextrose for analgesia in neonates during nasogastric tube insertion: a randomised controlled trial. J Paediatr Child Health. 2014;50(2):141-5.⁾	Randomized prospective controlled clinical trial	n = 150 NB, GA: > 34 weeks, Weight: not disclosed	Randomization into 3 groups: stimulation with 25% dextrose (n = 50) versus 10% dextrose (n = 50) versus distilled water (n = 50), 2 minutes before nasogastric tube placement	Assess pain level using the PIPP scale, crying duration, and changes in heart rate	25% oral dextrose reduces pain level before nasogastric tube placement
Suhrabi et al.⁽⁴⁰40 Suhrabi Z, Taghinejad H, Valian K, Sayehmiri K, Taheri S. A comparative study on the efficacy of glucose and sucrose on the vaccination pain: a randomized controlled clinical trial. J Clin Diagn Res. 2014;8(10):PC01-3.⁾	Randomized prospective controlled clinical trial,	n = 90 NB, GA: > 37 weeks, Weight: not disclosed	Randomization into three groups: stimulation with glucose (n = 30) versus oral sucrose (n = 30) versus placebo (n = 30), 2 minutes before vaccination	Assess pain intensity before the Hepatitis B vaccination using the NIPS scale	Both glucose and sucrose are equally effective in decreasing pain when administered before the Hepatitis B vaccination
Uzelli et al.⁽⁴¹41 Uzelli D, Yapucu Günes Ü. Oral glucose solution to alleviate pain induced by intramuscular injections in preterm infants. J Spec Pediatr Nurs. 2015;20(1):29-35.⁾	Randomized prospective controlled clinical trial	n = 80 NB, GA: > 33 weeks, Weight: not disclosed	Oral glucose administration (n = 40) versus control group (n = 40) 2 minutes before intramuscular injection	Assess pain intensity using the NIPS scale	Oral glucose, even when used in low amounts, is effective in reducing pain before intramuscular injection
Kataria et al.⁽⁴²42 Kataria M, Narang S, Chawla D, Sood S, Gupta PC. Oral dextrose for pain management during laser treatment of retinopathy of prematurity under topical anesthesia. Indian J Pediatr. 2015;82(8):694-7.⁾	Randomized prospective controlled clinical trial	n = 24 NB, GA: > 31 weeks, Weight not disclosed	Administration of 2mL dextrose (n = 12) versus control group (n = 12 PTNBs) 2 minutes before retinopathy of prematurity corrective laser surgery	Assess pain intensity using the PIPP scale before and 30 seconds after starting the laser treatment	A single dose of oral dextrose did not significantly reduce pain during laser treatment in premature neonates
Tutag Lehr et al.⁽⁴³43 Tutag Lehr V, Cortez J, Grever W, Cepeda E, Thomas R, Aranda JV. Randomized placebo-controlled trial of sucrose analgesia on neonatal skin blood flow and pain response during heel lance. Clin J Pain. 2015;31(5):451-8.⁾	Randomized prospective controlled clinical trial	n = 56 NB, IG: > 37 weeks (≤ 7 days of life), Weight: not disclosed	Randomized into 2 groups: stimulation with 24% sucrose (n = 29) versus sterile water (n = 27) 10 minutes before heel puncture	Assess pain and blood flow, in NB under the effect of oral sucrose, using laser doppler and NIPS scale	Blood flow and pain after heel puncture were less in NB who received 24% sucrose
Vezyroglou et al.⁽⁴⁴44 Vezyroglou K, Mehler K, Kribs A, Becker I, Langhammer K, Roth B, et al. Oral glucose in preterm neonates during oropharyngeal suctioning: a randomized controlled cross-over trial. Eur J Pediatr. 2015;174(7):867-74.⁾	Randomized prospective controlled clinical trial	n = 32 NB, GA: < 37 weeks, Weight: > 1,500g	Randomized into 2 groups: stimulation with glucose (n = 16) versus placebo group (n = 16), 3 minutes before oropharyngeal aspiration	Evaluate pain level using the PIPP scale	Pain level did not differ between the two groups
Medeiros et al.⁽⁴⁵45 Medeiros AM, Jesus GA, Almeida LF, Raposo OF. Integrated sensory motor system in prematurely born children. Codas. 2013;25(5):444-50.⁾	Randomized prospective controlled clinical trial	n = 90 NB, GA: 28 - 36 weeks, Weight: not disclosed	Randomization into 2 groups: stimulation with water (n = 46) versus sucrose (n = 44) to analyze specific hand-to-mouth and hand sucking behaviors	Assess motor behavior and behavioral status of NB by observing hand-to-mouth and hand sucking behavior	Oral stimulation had a positive influence on hand-mouth coordination, regardless of the stimulus (water or sucrose)

Author	Type of study	Sample	Interventions	Main outcomes	Main results
Ahmed et al.⁽⁴⁶46 Ahmed RG, Suliman GI, Elfakey WA, Salih KM, El-Amin EI, Ahmed WA, et al. Effect of tactile kinesthetic stimulation on preterm infants' weight and length of hospital stay in Khartoum, Sudan. Saudi Med J. 2015;36(2):196-9.⁾	Prospective quasi-experimental clinical trial	n = 151 NB, GA: 30 - 37 weeks , Weight: 1,000g - 1,200g , Without ventilatory support	Randomized into two groups:, - Control Group: 76 NB submitted to routine care, - Intervention Group: 75 NB submitted to tactile-kinesthetic stimulation for 15 minutes (3 times a day for 7 consecutive days)	Weight gain and length of hospital stay	Tactile kinesthetic group had greater weight gain and shorter length of hospital stay compared to the control group
Smith et al.⁽⁴⁷47 Smith SL, Haley S, Slater H, Moyer-Mileur LJ. Heart rate variability during caregiving and sleep after massage therapy in preterm infants. Early Hum Dev. 2013;89(8):525-9.⁾	Randomized prospective double-blind placebo-controlled clinical trial	n = 21 NB, GA: 30 - 31 weeks , Weight: 1,500g	Randomized into two groups: , Control Group: 11 NB, therapists stood beside the incubator for 20 minutes twice a day, Intervention Group : 10 NBs submitted to 20 minutes of massage + kinesthetic movement (Moyer-Mileur) twice a day	Autonomic nervous system function during sleep stages and assistive care, measured by HRV after 2 weeks of massage therapy performed twice a day	There was no difference in HRV between intervention group and control group
Smith et al.⁽⁴⁸48 Smith SL, Lux R, Haley S, Slater H, Beachy J, Moyer-Mileur LJ. The effect of massage on heart rate variability in preterm infants. J Perinatol. 2013;33(1):59-64.⁾	Randomized prospective single-blind controlled clinical trial	n = 21 NB, GA: 29 - 32 weeks , Weight: 1,500g	Randomized into two groups: , Control Group: 20 NB, therapists stood beside the incubator for 20 minutes twice a day, Intervention Group: 17 NB, 20 minutes of massage + kinesthetic movement (Moyer-Mileur) twice a day for 4 weeks	Heart rate variability through ECG	Massage improved the sample's autonomic nervous system function
Haley et al.⁽⁴⁹49 Haley S, Beachy J, Ivaska KK, Slater H, Smith S, Moyer-Mileur LJ. Tactile/kinesthetic stimulation (TKS) increases tibial speed of sound and urinary osteocalcin (U-MidOC and unOC) in premature infants (29-32weeks PMA). Bone. 2012;51(4):661-6.⁾	Randomized prospective single-blind controlled clinical trial	n = 40 NB, GA: < 37 weeks, Weight: 1,500g - 1,600g	Randomized into two groups: , Control Group: 20 NB are placed in a supine position without tactile stimulation and without kinesthetic , TKS Group: movement tactile/kinesthetic stimulation: 20 NB, 20 minutes of massage twice daily, 6 days per week for 2 weeks, TKS = (1) legs from top of thighs to ankles and feet, (2) chest over ribcage, (3) shoulders to hands, (4) head from crown to neck and including face, (5) back from neck to waist (performed with infant remaining in supine position)	Increase in anthropometry; in the quantitative measurement of the ultrasound-assessed tibial speed of sound; urine and blood markers	TKS improved bone strength; bone metabolism biomarkers suggest improved bone mineralization in the massage group.
Aliabadi et al.⁽⁵⁰50 Aliabadi F, Askary RK. Effects of tactile-kinesthetic stimulation on low birth weight neonates. Iran J Pediatr. 2013;23(3):289-94.⁾	Randomized prospective controlled clinical trial	n = 40 NB , GA: 29 - 32 weeks , Weight: > 1,500g and < 2,499g	Randomized into two groups: , Control Group: 20 NB; , Intervention Group: 20 NB submitted to 15-minutes interventions divided into three phases: 5 minutes massage + 5 minutes. TKS + 5 minutes massage (field protocol), 3 times daily for 10 consecutive days	Behavioral state assessment	The group that received TKS showed better motor and regulation state
Chen et al.⁽⁵¹51 Chen J, Sadakata M, Ishida M, Sekizuka N, Sayama M. Baby massage ameliorates neonatal jaundice in full-term newborn infants. Tohoku J Exp Med. 2011;223(2):97-102.⁾	Randomized prospective controlled clinical trial	n = 42 NB, GA: 37 - 41 weeks , Weight: 2,800g to 3,600g	Randomized into two groups: , Control Group: 22 NB , Intervention Group: 20 NB submitted to 15 to 20-minute interventions (touch therapy by field protocol), performed twice daily for 5 consecutive days	Assessment of bowel movement frequency, measurement of transcutaneous jaundice and serum bilirubin levels	The group that received massage (touch therapy by field protocol), showed lower bilirubin levels
Guzzetta et al.⁽⁵²52 Guzzetta A, D'Acunto MG, Carotenuto M, Berardi N, Bancale A, Biagioni E, et al. The effects of preterm infant massage on brain electrical activity. Dev Med Child Neurol. 2011;53 Suppl 4:46-51.⁾	Randomized prospective controlled clinical trial , ,	n = 20 NB, GA: 30 - 33 weeks, Stable hospitalized NB , Weight: between the 25th and 75th percentile	Randomized into two groups: , Control Group: 10 NB, Intervention Group: 10 NB submitted to 15-minutes interventions divided into two phases: 10 minutes massage + 5 minutes. Kinesthetic movement, performed 3 times daily for 5 consecutive days over a period of 2 weeks (two-day interval between weeks)	ECG assessment of brain electrical activity	Massage favored a maturation process of brain electrical activity similar to that observed in utero
Ferreira et al.⁽⁵³53 Ferreira AM, Bergamasco NH. Behavioral analysis of preterm neonates included in a tactile and kinesthetic stimulation program during hospitalization. Rev Bras Fisioter. 2010;14(2):141-8. Portuguese.⁾	Randomized prospective controlled clinical trial	n = 32 NB, GA: 31 - 33 weeks , Weight: < 2,500g	Randomized into two groups: , Control Group: 16 NB , Intervention Group 16 NBs submitted to TKS	Assessment of behavioral state	TKS contribute towards adjustment and self-regulation of behaviour
Ho et al.⁽⁵⁴54 Ho YB, Lee RS, Chow CB, Pang MY. Impact of massage therapy on motor outcomes in very low-birthweight infants: randomized controlled pilot study. Pediatr Int. 2010;52(3):378-85.⁾	Randomized prospective controlled clinical trial	n = 20 NB, GA: < 34 weeks , Weight: < 1,500g	Randomized into two groups: , Control Group: 12 NB received similar duration of light still touch , Intervention Group: 12 NB received massage therapy starting at 34 weeks post-conceptional age (15 minutes daily, 5 days/week for 4 weeks)	Assessment of motor performance using the TIMP scale	Improvement in motor performance (NB with low TIMP score before intervention); shorter length of hospital stay for intervention group
Moyer-Mileur et al.⁽⁵⁵55 Moyer-Mileur LJ, Haley S, Slater H, Beachy J, Smith SL. Massage improves growth quality by decreasing body fat deposition in male preterm infants. J Pediatr. 2013;162(3):490-5.⁾	Randomized prospective single-blind controlled clinical trial	n = 44 NB, GA: 29 - 32 weeks , Weight: 1,300g - 1,800g	Randomized into two groups: , Control Group: 22 NB, therapists stood beside the incubator twice a day, Intervention Group: 22 NBs submitted to interventions of 20 minutes, divided into massage + TKS, twice daily for 6 consecutive days over a period of 4 weeks (Moyer-Mileur Protocol)	Evaluate weight gain and fat deposition	massage may improve body fat deposition, and in turn growth quality, of preterm infants in a sex-specific manner
Ang et al.⁽⁵⁶56 Ang JY, Lua JL, Mathur A, Thomas R, Asmar BI, Savasan S, et al. A randomized placebo-controlled trial of massage therapy on the immune system of preterm infants. Pediatrics. 2012;130(6):e1549-58.⁾	Randomized prospective controlled clinical trial	n = 120 NB, GA: 30 weeks , Weight: 600g - 1,800g	Randomized into two groups: , Control Group: 62 NB, Intervention Group: 58 NB submitted to interventions of 5 to 15 minutes, divided into three phases: 5 minutes. massage + 5 minutes. TKS + 5 minutes. massage (field protocol) 3 times daily for a minimum of 5 days (maximum of 4 weeks or until hospital discharge)	Assessment of massage effects on the immune system	Increase in white blood cells and greater weight gain in the intervention group
Diego et al.⁽⁵⁷57 Diego MA, Field T, Hernandez-Reif M. Preterm infant weight gain is increased by massage therapy and exercise via different underlying mechanisms. Early Hum Dev. 2014;90(3):137-40.⁾	Randomized prospective controlled clinical trial	n = 30 NB , GA: 28 - 32 weeks stable hospitalized NB , Weight: 1,000 - 1,500g	Randomized into two groups: , Massage Group: 15 NB submitted to massage movements three times a day for 10 minutes over 5 days, TKS Group: 15 NB submitted to limb flexion /extension 3 times a day for 10 minutes over 5 consecutive days (field and Moyer-Mileur adapted protocol)	Assessment of vagal activity (ECG in the first week of intervention) and calorie consumption	Increase in weight gain in the intervention group

Author	Type of study	Sample	Interventions	Main outcomes	Main results
Kumar et al.⁽⁵⁸58 Kumar J, Upadhyay A, Dwivedi AK, Gothwal S, Jaiswal V, Aggarwal S. Effect of oil massage on growth in preterm neonates less than 1800 g: a randomized control trial. Indian J Pediatr. 2013;80(6):465-9.⁾	Randomized controlled clinical trial	n = 44 , GA: < 35 weeks, Weight: < 1,800g	Two groups: , 23 in the control group , 25 submitted to massage therapy using oil on both shoulders starting from the neck with baby in prone position, then the upper back to hip area followed by the upper and lower limbs, one at a time in supine position for 10 minutes, 4 times daily over a period of 28 consecutive days	Weight gain; serum triglyceride level; length and head circumference	The massage group presented weight gain after 28 days and decreased weight loss within the first 7 days. There was no statistical difference regarding the other outcomes
Seaedi et al.⁽⁵⁹59 Saeadi R, Ghorbani Z, Shapouri Moghaddam A. The effect of massage with medium-chain triglyceride oil on weight gain in premature neonates. Acta Med Iran. 2015;53(2):134-8.⁾	Randomized controlled clinical trial	n = 121, GA: < 37 weeks, Weight: not disclosed	Three groups:, Massage therapy group with oil (n = 40), Massage therapy (n = 40), Control group (n = 40), 5 minutes of massage 4 times a day for 7 days	Weight gain	There was greater weight gain in the oil massage therapy group compared to the other 2 groups
Fallah et al.⁽⁶⁰60 Fallah R, Akhavan Karbasi S, Golestan M, Fromandi M. Sunflower oil versus no oil moderate pressure massage leads to greater increases in weight in preterm neonates who are low birth weight. Early Hum Dev. 2013;89(9):769-72.⁾	Randomized controlled clinical trial	n = 57, GA: 33 - 37 weeks	Two groups: , Group 1: only moderate pressure massage therapy (n = 17), Group 2: massage therapy with moderate pressure and oil (n = 17)	Weight gain on day 14, 1 and 2 months after the interventions	The group submitted to massage oil therapy exhibited greater weight gain in all assessments compared to the other group
Basiri Moghadam et al.⁽⁶¹61 Basiri-Moghadam M, Basiri-Moghadam K, Kianmehr M, Jani S. The effect of massage on neonatal jaundice in stable preterm newborn infants: a randomized controlled trial. J Pak Med Assoc. 2015;65(6):602-6.⁾	Randomized controlled clinical trial,	n = 40, GA: 34 - 36 weeks, Weight: not disclosed	Two groups: , 20 controls, 20 underwent massage therapy. Type of massage therapy not disclosed. Intervention time: 20 minutes twice a day for 4 consecutive days	Number of bowel movements; transcutaneous bilirubin level	The massage therapy group had a higher number of bowel movements and lower transcutaneous bilirubin levels
Lin et al.⁽⁶²62 Lin CH, Yang HC, Cheng CS, Yen CE. Effects of infant massage on jaundiced neonates undergoing phototherapy. Ital J Pediatr. 2015;41:94.⁾	Randomized controlled clinical trial	n = 56, GA: 30 - 40 weeks, Weight: not disclosed	Two groups: , Control Group (n = 29), Massage Therapy group (n = 27)	Length of hospital stay; weight gain; increased bowel movement frequency; microbilirubin level	There was an increase in bowel movement frequency and a decrease in bilirubin levels in the massage group; there was no difference between the groups for the other outcomes
Dalili et al.⁽⁶³63 Dalili H, Sheikhi S, Shariat M, Haghnazarian E. Effects of baby massage on neonatal jaundice in healthy Iranian infants: a pilot study. Infant Behav Dev. 2016;42:22-6.⁾	Randomized controlled	n = 50, GA: 36 - 40 weeks, Weight: not disclosed	Two groups:, Control Group (n = 25), Massage Group (n = 25)	Increased bowel movement frequency; transcutaneous bilirubin level	There was a decrease in bilirubin levels in the massage group. There was an increase in bowel movement frequency in the control group on day 1. On the subsequent days, there was no difference between the two groups
Chik et al.⁽⁶⁴64 Chik YM, Ip WY, Choi KC. The effect of upper limb massage on infants' venipuncture pain. Pain Manag Nurs. 2017;18(1):50-7.⁾	Randomized controlled clinical trial	n = 80, GA: 30 to 40 weeks	Two groups: , Control Group (n = 40), Massage Group (n = 40): upper limb massage before and after venipuncture	Pain level reduction assessed by PIPP	There was a reduction in pain score in the group submitted to massage therapy
Yates et al.⁽⁶⁵65 Yates CC, Mitchell AJ, Booth MY, Williams DK, Lowe LM, Whit Hall R. The effects of massage therapy to induce sleep in infants born preterm. Pediatr Phys Ther. 2014;26(4):405-10.⁾	randomized cross-over study	n = 23, GA: 32 - 48 weeks, Weight: not disclosed	Two groups: , Massage therapy the first day (n = 13), Massage therapy the second day (n = 10)	Massage therapy can be used as an adjunct intervention to induce sleep	Massage therapy did not induce sleep immediately after massage and infants are more wakeful following massage therapy

Author	Type of study	Sample	Interventions	Main outcomes	Main results
Azevedo et al.⁽⁶⁶66 Azevedo VM, Xavier CC, Gontijo FO. Safety of kangaroo mother care in intubated neonates under 1500 g. J Trop Pediatr. 2012;58(1):38-42.⁾	Quasi-experimental study design	n = 43, GA: > 29 weeks , Weight: not disclosed, Hemodynamically stable, intubated receiving MV	A group evaluated longitudinally on 3 occasions: before, during and after the procedure for a duration of 90 minutes	Procedure safety, Variables measured: HR, SpO₂, FiO2, mean arterial blood pressure, and temperature	Changes in the variables studied were not clinically significant (< 5% from baseline) although statistically significant. Skin-to-skin contact is a safe procedure for NBs receiving MV
Carbasse et al.⁽⁶⁷67 Carbasse A, Kracher S, Hausser M, Langlet C, Escande B, Donato L, et al. Safety and effectiveness of skin-to-skin contact in the NICU to support neurodevelopment in vulnerable preterm infants. J Perinat Neonatal Nurs. 2013;27(3):255-62.⁾	Quasi-experimental study design study	n = 96 , GA: 24 - 33 weeks, Weight: > 500g, Vulnerable preterm infants	Vital signs, body temperature, and oxygen requirement data were prospectively recorded by each infant's nurse before (baseline), during (3 time points), and after their first skin-to-skin contact. , 17 clinically stable NBs receiving MV, 49 with nasal CPAP and 30 spontaneously breathing room air	Safety and physiological effectiveness of the procedure, Evaluate the impact of the respiratory support. Variables measured: HR, SpO₂, FiO2, transcutaneous partial pressure of carbon dioxide (TcPCO₂), and temperature	Changes in the variables studied were statistically significant , Skin-to-skin contact is an effective and safe procedure for vulnerable preterm infants
Karlsson et al.⁽⁶⁸68 Karlsson V, Heinemann AB, Sjörs G, Nykvist KH, Agren J. Early skin-to-skin care in extremely preterm infants: thermal balance and care environment. J Pediatr. 2012;161(3):422-6.⁾	Quasi-experimental study design	n = 27, GA = 22 to 26 weeks , Weight: not disclosed	Infants' skin temperature and body temperature, ambient temperature, and relative humidity were measured during pretest (in incubator), test (during SSC), and posttest (in incubator) periods	Assessment of the NICU's thermal balance and physical care environment during skin-to-skin, Variables studied: Relative humidity and air temperature in the incubator and skin-to-skin environment; corporal temperature; skin temperature; evaporimetry (transepidermal water loss and insensible water loss)	Early skin-to-skin initiation allows thermoregulation to occur in even the smallest NBs receiving intensive care, including mechanical ventilation , Skin-to-skin is an important and safe care mode for extreme PTNBs, even with mechanical ventilation
Lorenz et al.⁽⁶⁹69 Lorenz L, Dawson JA, Jones H, Jacobs SE, Cheong JL, Donath SM, et al. Skin-to-skin care in preterm infants receiving respiratory support does not lead to physiological instability. Arch Dis Child Fetal Neonatal Ed. 2017;102(4):F339-44.⁾	Prospective observational non-inferiority study	n = 40, GA < 33 weeks, Weight: > 800g, Receiving ventilatory support (ETT, CPAP or HFNC)	rcO2 was measured using near-infrared spectroscopy. Ninety minutes of skin-to-skin contact, with infants in incubators acting as their own control	Evaluate rcO2 on two occasions (skin-to-skin contact, and incubator care). Secondary outcomes included physiological parameters (SpO₂, HR, FiO2, cFTOE and AT) evaluated on both occasions and divided by ventilatory support modality.	Cerebral oxygenation and other physiological measurements in ventilated preterm infants did not differ between skin-to-skin contact, and incubator care
Park et al.⁽⁷⁰70 Park H, Choi BS, Lee SJ, Son IA, Seol IJ, Lee HJ. Practical application of kangaroo mother care in preterm infants: clinical characteristics and safety of kangaroo mother care. J Perinat Med. 2014;42(2):239-45.⁾	Prospective clinical trial,	n = 31, GA: 25 - 32 weeks, Weight: 760g - 1,740g	Two groups submitted to skin-to-skin contact: 25 - 28 weeks (n = 11) and 29 - 32 weeks (n = 20)	Determine the clinical characteristics and safety of skin-to-skin contact according to GA, Physiological parameters were evaluated longitudinally for 60 minutes (15 minutes before, 30 minutes during and 15 minutes after the procedure). , Variables studied: HR, RR, SpO₂, blood pressure, temperature	Changes in the variables studied were not clinically significant (< 5% from baseline) although some were statistically significant. , At the same post-menstrual age, the lower GA group showed greater thermoregulation maturation compared to the higher GA group, Skin-to-skin contact is a safe procedure for PTNBs even while receiving ventilatory support
Okan et al.⁽⁷¹71 Okan F, Ozdil A, Bulbul A, Yapici Z, Nuhoglu A. Analgesic effects of skin-to-skin contact and breastfeeding in procedural pain in healthy term neonates. Ann Trop Paediatr. 2010;30(2):119-28.⁾	Randomized controlled clinical trial, ,	n = 107, GA: > 37 weeks, Age between 24 and 48 hours of life, Weight: not disclosed, Healthy NB,	Three groups:, Skin-to-skin contact group (N = 35) with maternal breast feeding;, n = 36 skin-to-skin contact, n = 36 placed in the crib, evaluated before, during and after the painful stimulus,	Evaluate the effectiveness of skin-to-skin contact for pain reduction during heel puncture in FTNBs, Assess whether the combination of skin-to-skin contact with breastfeeding provides greater analgesia than skin-to-skin contact alone, Variables studied: Crying time after painful stimulus. Secondary outcomes: HR, SpO₂	HR, SpO₂, and crying duration was significantly lower in the groups skin-to-skin and skin-to-skin contact with breastfeeding, compared to NBs in the crib who underwent the painful procedure, Skin-to-skin contact before, during, and after a painful stimulus promotes a reduction in physiological and behavioral responses to pain in healthy FTNBs, The combination of skin-to-skin contact with breastfeeding promotes an analgesic effect similar to skin-to-skin contact only
Saeidi et al.⁽⁷²72 Saeidi R, Asnaashari Z, Amirnejad M, Esmaeili H, Robatsangi MG. Use of "kangaroo care" to alleviate the intensity of vaccination pain in newborns. Iran J Pediatr. 2011;21(1):99-102.⁾	Randomized controlled clinical trial	n = 60, GA: healthy full-term NBs, Weight: not disclosed	Two groups: skin-to-skin contact for 30 minutes (n = 30) and control (wrapped in blanket and placed next to mother, n = 30)	Evaluate the effect of skin-to-skin contact on pain intensity using the NIPS scale in healthy NBs undergoing a painful procedure (vaccination), Secondary outcomes: HR, SpO₂ and crying duration	Mean pain intensity during the procedure, and 3 minutes after, was significantly lower in the skin-to-skin contact group, Kangaroo care may be used to decrease pain intensity in newborns undergoing painful procedures
Cong et al.⁽⁷³73 Cong X, Cusson RM, Walsh S, Hussain N, Ludington-Hoe SM, Zhang D. Effects of skin-to-skin contact on autonomic pain responses in preterm infants. J Pain. 2012;13(7):636-45.⁾	Randomized crossover clinical trial	n = 28, GA: 28 - 32 weeks, Weight: not disclosed, < 14 days of life in heated incubator	Three groups randomized into different procedure sequences, evaluated on 6 occasions: skin-to-skin for 30 minutes, skin-to-skin for 15 minutes, and standard care	Skin-to-skin effect (duration of 30 and 15 minutes) on the autonomic pain response of PTNBs subjected to heel puncture compared to standard care. , Variables studied: HR variability, behavioral state	Both skin-to-skin contact durations, before and during heel puncture, promote prolonged restful sleep after puncture. , Kangaroo care has a significant effect on reducing autonomic pain responses in preterm infants. The findings support that KC is a safe and effective pain intervention, in the neonatal intensive care unit
Nimbalkar et al.⁽⁷⁴74 Nimbalkar SM, Patel VK, Patel DV, Nimbalkar AS, Sethi A, Phatak A. Effect of early skin-to-skin contact following normal delivery on incidence of hypothermia in neonates more than 1800 g: randomized control trial. J Perinatol. 2014;34(5):364-8.⁾	Randomized controlled clinical trial	n = 100 term and late preterm, Weight: > 1,800g	Two groups:, Intervention Group: SSC at 30 minutes to 1 hour after delivery and continue for as long as possible in the first 24 hours with each session lasting for minimum 60 minutes, Control Group, after providing routine care under radiant warmer, NBs were kept clothed (including head cap) and covered with blanket with their mother (bedding in) for first 48 hours	Temperature and heart rate	The incidence of hypothermia in conventional care was significantly higher as compared with the SSC
Chidambaram et al.⁽⁷⁵75 Chidambaram AG, Manjula S, Adhisivam B, Bhat BV. Effect of Kangaroo mother care in reducing pain due to heel prick among preterm neonates: a crossover trial. J Matern Neonatal Med. 2014;27(5):488-90.⁾	Randomized crossover clinical trial	n = 100, GA: 32 - 36 weeks, Weight: < 2,500g, Hemodynamically stable without dependence on oxygen.	Two groups: , Control Group (n = 50), Skin-to-Skin Contact Group (n = 50),	PIPP pain scale assessment 15 minutes before, 15 and 30 minutes after heel puncture	PIPP scores at 15 and 30 minutes after puncture were significantly lower in the skin-to-skin contact group compared to the control group, Skin-to-skin contact is effective in reducing pain in PTNBs subjected to heel puncture
Gao et al.⁽⁷⁶76 Gao H, Xu G, Gao H, Dong R, Fu H, Wang D, et al. Effect of repeated Kangaroo Mother Care on repeated procedural pain in preterm infants: a randomized controlled trial. Int J Nurs Stud. 2015;52(7):1157-65.⁾	Randomized controlled clinical trial	n = 75, GA: < 37 weeks, Weight: 2,030g	Two groups: , Control group (n = 37), Skin-to-Skin Group (n = 38)	Evaluate the effectiveness of 30 minutes of skin-to-skin contact on behavioral and physiological responses of PTNBs undergoing heel punctures. During the first puncture procedure, all NBs were kept in the incubator. In the other three procedures, the NBs were randomized into skin-to-skin contact or standard incubator care; evaluators were blinded to the purpose of the study. , Variables studied: facial expression, crying, and HR in four heel puncture procedures	HR was significantly lower, crying and grimacing duration was significantly shorter (from time of heel puncture to recovery) across repeated heel puncture procedures in the skin-to-skin group compared to the control group, The effect of repeated Kangaroo Mother Care analgesia remains stable in preterm infants over repeated painful procedures
Choudhary et al.⁽⁷⁷77 Choudhary M, Dogiyal H, Sharma D, Datt Gupta B, Madabhavi I, Choudhary JS, et al. To study the effect of Kangaroo Mother Care on pain response in preterm neonates and to determine the behavioral and physiological responses to painful stimuli in preterm neonates: a study from western Rajasthan. J Matern Neonatal Med. 2016;29(5):826-31.⁾	Quasi-experimental crossover single-blind clinical trial	n = 140, Weight: > 1,000g	One group (n = 140): each NB was its own control, GA < 37 weeks , All NBs were divided into gestational age: 28 - 30 weeks (n = 80); 30 - 34 weeks (n = 60) and birth weight: 1,000g - 1,500 g (n = 88); 1,500 - 2,500g (n = 52)	Assessment of PIPP during heel puncture, HR, SpO₂, crying duration and recovery time,	The effect of skin-to-skin contact was statistically significant in the PTNBs (30 - 34 weeks) and very low weight (1,000 - 1,500g) groups, SpO₂ drop was lower (36% reduction) in the skin-to-skin contact group than in conventional care, Crying duration was shorter in the skin-to-skin contact group than in conventional care, with a statistically significant difference, PIPP scores were significantly lower with skin-to-skin contact, Implementing skin-to-skin contact is a safe method of helping physiological and behavioral stability in PTNBs
Kaffashi et al.⁽⁷⁸78 Kaffashi F, Scher MS, Ludington-Hoe SM, Loparo KA. An analysis of the kangaroo care intervention using neonatal EEG complexity: a preliminary study. Clin Neurophysiol. 2013;124(2):238-46.⁾	Randomized quasi-experimental crossover clinical trial	n = 134 NBs (8 PTNBs), Received 8 weeks of skin-to-skin contact.	Three groups: PTNBs received skin-to-skin contact for 8 weeks (16 EEG recordings during sleep, n = 8) compared to two groups (nN = 126): one group of PTNBs with corrected gestational age and another of FTNBs	Neurophysiology maturation of the neonatal brain by quantifying temporal characteristics (regularity and predictability) of sleep EEG signals, , ,	The group of PTNBs that received skin-to-skin contact exhibited more complex EEG signals compared to PTNBs of the same gestational age, Discriminatory analyses show that PTNBs who received skin-to-skin contact (at 40 weeks corrected age) exhibit patterns closer to FTNBs than PTNBs not submitted to this intervention, at the same gestational age.
Neu et al.⁽⁷⁹79 Neu M, Hazel NA, Robinson J, Schmiege SJ, Laudenslager M. Effect of holding on co-regulation in preterm infants: a randomized controlled trial. Early Hum Dev. 2014;90(3):141-7.⁾	Randomized controlled clinical trial	n = 79, GA: 32 - 35 weeks, Weight: not disclosed	Three groups: , Control Group (n = 24), Skin-to-Skin Contact Group (n = 29), Group Wrapped in Blanket (n = 26	Evaluate coregulation in salivary cortisol between mother and NB; coregulation defined as progressive reduction in the absolute difference between mother and NB cortisol levels during each 60-minute session of skin-to-skin contact, Variable studied: coregulation of salivary cortisol between mother and NB	Decreased cortisol levels in mothers and NBs suggesting that skin-to-skin contact caused a decline in stress hormone levels, There was no significant difference in coregulation between the groups, nonstressful situations, co-regulation in salivary cortisol may not differ based on holding method
Srivastava et al.⁽⁸⁰80 Srivastava S, Gupta A, Bhatnagar A, Dutta S. Effect of very early skin to skin contact on success at breastfeeding and preventing early hypothermia in neonates. Indian J Public Health. 2014;58(1):22-6.⁾	Randomized controlled clinical trial	n = 240, GA: any age, Weight > 2,500g, Skin-to-skin in the first 30 minutes of life	Two groups: , Control Group (n = 118), Skin-to-Skin Contact Group (n = 122), Variables studied: breastfeeding effectiveness, 6-week breastfeeding status, maternal satisfaction, thermoregulation, weight loss at hospital discharge and at first follow-up, and morbidity	Evaluate the impact of early skin-to-skin initiation on breastfeeding effectiveness and maternal satisfaction in relation to perceived NB breastfeeding status at hospital discharge, Secondary outcomes: related to neonatal well-being (thermoregulation in the immediate postpartum period, NB weight parameters and morbidities during the first six weeks of life)	Skin-to-skin contact contributed to greater breastfeeding effectiveness, more infants being exclusively breastfed at the first follow-up and at 6 weeks, greater maternal satisfaction, better immediate postpartum temperature gain, lower weight loss at hospital discharge and first follow-up, and lower morbidity when compared to the control group
Jayaraman et al.⁽⁸¹81 Jayaraman D, Mukhopadhyay K, Bhalla AK, Dhaliwal LK. Randomized controlled trial on effect of intermittent early versus late kangaroo mother care on human milk feeding in low-birth-weight neonates. J Hum Lact. 2017;33(3):533-9.⁾	Randomized controlled clinical trial, ,	n = 160, Weight: 1,000g - 1,800g,	Two groups: early skin-to-skin contact initiated within the first 4 days of life (n = 80); late skin-to-skin contact, initiated after complete stabilization, defined as absence of respiratory support and intravenous fluids (n = 80)	Evaluate the effects of early skin-to-skin contact initiation on exclusive breastfeeding, growth, mortality and morbidity compared to late initiation (during hospitalization and after hospital discharge) in low-weight NBs	The early skin-to-skin contact group had higher proportion of exclusive breastfeeding, higher breastfeeding rate during hospitalization, and a higher proportion of exclusive breastfeeding up to one month after hospital discharge, The incidence of apnea and recurrent apnea requiring ventilation was significantly reduced in the early skin-to-skin contact group, There was no significant difference in mortality, morbidity, and growth during hospitalization and after hospital discharge
Nagai et al.⁽⁸²82 Nagai S, Andrianarimanana D, Rabesandratana N, Yonemoto N, Nakayama T, Mori R. Earlier versus later continuous Kangaroo Mother Care (KMC) for stable low-birth-weight infants: a randomized controlled trial. Acta Paediatr. 2010;99(6):827-35.⁾	Randomized controlled clinical trial,	n = 73, Weight: < 2,500g, Age: < 24 hours, Relatively stable clinical conditions	Two groups: early skin-to-skin contact within the first 24 hours of life (n = 37)., Control: conventional care performed initially with skin contact after 48 - 72 hours of life (n = 36).	Evaluate the effectiveness of early skin contact initiation for relatively stable low-weight NBs in a resource-constrained country	There were no differences in the incidence of morbidity, Weight loss from birth up to 24 hours (and up to 48 hours) of life was significantly lower in the early skin-to-skin contact group compared with the control group, The occurrence of adverse effects and length of hospitalization did not differ between the groups
Sharma et al.⁽⁸³83 Sharma D, Murki S, Pratap OT. The effect of kangaroo ward care in comparison with "intermediate intensive care" on the growth velocity in preterm infant with birth weight <1100 g: randomized control trial. Eur J Pediatr. 2016;175(10):1317-24.⁾	Randomized controlled clinical trial	n = 141, Weight: < 1,100g, Clinically stable	Two groups: skin-to-skin contact (n = 71) and conventional care (n = 70) when NBs reached 1,150g.	Assess weight gain (g/day) from start of randomization to full-term (40 weeks), Variables studied: weight gain (g/day), Secondary outcomes: weight, length and head circumference at 40 weeks; intra-hospital weight gain (g/day), length (cm/week) and head circumference (cm/week) following randomization; breastfeeding rates at hospital discharge and at full-term age; neonatal ICU readmissions (level III or intermediate care unit)	Average weight gain, as well as weight, length and head circumference at term corrected age were comparable in both groups, There was a significant reduction in hospitalization time in the conventional care group and a significant increase in weight gain before discharge in the skin-to-skin contact group
Mitchell et al.⁽⁸⁴84 Mitchell AJ, Yates CC, Williams DK, Chang JY, Hall RW. Does daily kangaroo care provide sustained pain and stress relief in preterm infants? J Neonatal Perinatal Med. 2013;6(1):45-52.⁾	Randomized controlled clinical trial, ,	n = 38, GA: 27 - 30 weeks , Weight: < 1,311g , Receiving ventilatory support (MV, CPAP or nasal cannula)	Two groups: , Control Group (n = 19), Skin-to-Skin Contact Group (n = 19) ,	Determine if stress on PTNBs (measured by salivary cortisol levels) decreases after 5 days of skin-to-skin contact compared to 5 days in standard care, Determine if skin-to-skin provides sustained pain relief following the period of contact, Salivary cortisol was collected and evaluated on the 5th and 10th day of life, PIPP pain score was measured during routine tracheal and nasal aspiration because such procedures are considered painful,	Skin-to-skin contact did not affect basal salivary cortisol levels in PTNBs compared to standard care , Salivary cortisol levels decreased in both groups between the 5th and 10th day of life, demonstrating that the day of life variable should be considered when salivary cortisol is evaluated in PTNBs, Skin-to-skin contact did not affect PIPP scores after aspiration, as NBs were not in skin-to-skin contact during the procedure
Ghavane et al.⁽⁸⁵85 Ghavane S, Murki S, Subramanian S, Gaddam P, Kandraju H, Thumalla S. Kangaroo Mother Care in Kangaroo ward for improving the growth and breastfeedingoutcomes when reaching term gestational age in very low birth weight infants. Acta Paediatr. 2012;101(12):e545-9.⁾	Randomized controlled clinical trial	n = 140, Weight: < 1,500g, Hemodynamically stable; tolerating spoon feeding of 150mL/kg /day	Two groups: skin-to-skin contact (n = 71) and conventional care (n = 69)	Evaluate the effectiveness of early NB skin-to-skin contact in the Kangaroo unit compared to conventional care in the neonatal unit, in relation to the growth and breastfeeding of very low weight NBs at 40 weeks corrected age. , Variables studied: mean weight gain (g/kg/day) from randomization to corrected term age.	At full-term GA there were no differences between groups regarding mean weight gain (g/kg/day) after randomization and breastfeeding rate. , Skin-to-skin contact in the Kangaroo unit is as effective as conventional care at the neonatal unit with no increase in mortality or morbidity in very low weight NBs.
Sharma et al.⁽⁸⁶86 Sharma D, Murki S, Oleti TP. To compare cost effectiveness of "Kangaroo Ward Care" with "Intermediate intensive care" in stable very low birth weight infants (birth weight < 1100 grams): a randomized control trial. Ital J Pediatr. 2016;42(1):64.⁾	Randomized controlled clinical trial	n = 141, GA: ≤ 32 weeks, Weight: < 1,000g, Clinically stable	Two groups: 71 KWC Group and 70 to Intermediate Intensive Care Group	Compare growth and cost-effectiveness of skin-to-skin contact with intermediate intensive care	Average weight gain, as well as weight, length and head circumference at term corrected age were comparable in both groups, Initiating early shifting to Kangaroo ward is cost effective intervention and have huge monetary implication in resource poor countries

Author	Type of study	Sample	Interventions	Main outcomes	Main results
Kanagabasai et al.⁽⁸⁸88 Kanagasabai PS, Mohan D, Lewis LE, Kamath A, Rao BK. Effect of multisensory stimulation on neuromotor development in preterm infants. Indian J Pediatr 2013;80(6):460-4.⁾	Randomized controlled	n = 50 , GA: 28 - 36 weeks , Weight: 1,000 to 2,000g	Two groups: Control Group (n = 25); Multisensory Stimulation Group (n = 25) submitted to interventions in five 12-minute sessions per week until hospital discharge	Neuromotor development evaluation	The multisensory intervention group had better muscle tone
Medoff-Cooper et al.⁽⁸⁹89 Medoff-Cooper B, Rankin K, Li Z, Liu L, White-Traut R. Multisensory intervention for preterm infants improves sucking organization. Adv Neonatal Care. 2015;15(2):142-9.⁾	Randomized controlled	n = 183, GA: 29 - 34 weeks , Weight: not disclosure	Two groups: Control Group (n = 93); Multisensory Stimulation (ATVV) Group (n =90) to evaluate sucking organization PTNBs following a multisensory stimulation, ATVV = 10' of auditory (female voice), tactile (moderate touch stroking or massage) and visual (eye to eye) stimulation, followed by 5' of vestibular stimulation (horizontal rocking)	Infant sucking was digitally recorded	ATVV infants exhibited improved sucking organization during hospitalization
White-Traut et al.⁽⁹⁰90 White-Traut R, Rankin KM, Pham T, Li Z, Liu L. Preterm infants' orally directed behaviors and behavioral state responses to the integrated H-HOPE intervention. Infant Behav Dev. 2014;37(4):583-96.⁾	Randomized controlled	n = 195 , GA = 29 to 34 weeks , Weight: not disclosure	Two groups: Control Group (n = 95), H-Hope Group (n = 90): ATVV protocol performed twice more maternal participatory guidance sessions by a nurse-community advocate team daily for 6 consecutive weeks	Behavioral state (frequency of oral behaviors and time of alertness)	The intervention group showed greater frequency of oral behaviors and increased alertness
White-Traut et al.⁽⁹¹91 White-Traut R, Norr KF, Fabiyi C, Rankin KM, Li Z, Liu L. Mother-infant interaction improves with a developmental intervention for mother-preterm infant dyads. Infant Behav Dev. 2013;36(4):694-706.⁾	Randomized controlled	n = 198 , GA: 29 to 34 weeks , Weight: not disclosure	Two groups: , Control Group (n = 102), H-Hope Group (n = 96)	Improved mother-baby interaction during feeding and play at 6-weeks corrected age	The intervention group had better mother-baby interaction
White-Traut et al.⁽⁹²92 White-Traut RC, Rankin KM, Yoder JC, Liu L, Vasa R, Geraldo V, et al. Influence of H-HOPE intervention for premature infants on growth, feeding progression and length of stay during initial hospitalization. J Perinatol. 2015;35(8):636-41.⁾	Randomized controlled	n = 182 , GA: 29 - 34 weeks , Average weight = 1,865g	Two groups: Control group (N = 94)., H-Hope Group (n = 88): ATVV protocol performed twice daily for 6 consecutive weeks	Weight-length growth measured by weight and height	The intervention group had faster weight-length gain than the control group

Author	Type of study	Sample	Interventions	Main outcomes	Main results
Erdem et al.⁽⁹⁵95 Erdem E, Tosun Ö, Bayat M, Korkmaz Z, Halis H, Günes T. Daily physical activity in low-risk extremely low birth weight preterm infants: positive impact on bone mineral density and anthropometric measurements. J Bone Miner Metab. 2015;33(3):329-34.⁾	Randomized controlled	n = 28 , GA: 26 - 32 weeks , Weight: ≤ 1,000g	Two groups: , Control Group (n = 14) , Daily Mobilization Group (n = 14): Moyer-Mileur^* * Moyer-Mileur* protocol.is: Extension and flexion in the range of motion exercise against extremity resistance, performed for wrists, elbows, shoulders, ankles, knees, and hip-joints (acetabulofemoral joints), 5 days/week for 4 weeks with one session a day. Each activity repeated 5 - 8 times. protocol for 4 weeks (5 weekly sessions once a day)	Bone mineralization and anthropometric indices	The intervention group showed weight (p = 0.002) and height (p = 0.015) increase, as well as improved bone mineralization (p ≤ 0.001) compared to the control group
Tosun et al.⁽⁹⁶96 Tosun Ö, Bayat M, Günes T, Erdem E. Daily physical activity in low-risk pre-term infants: positive impact on bone strength and mid-upper arm circumference. Ann Hum Biol. 2011;38(5):635-9.⁾	Randomized controlled	n = 40 , GA: 26 - 32 weeks , Birth weight: 800 - 1,600g , Low-risk PTNBs	Two groups:, Control Group (n = 20), Intervention Group (n = 20): Moyer-Mileur protocol for 4 weeks (5 weekly sessions once a day)	Bone mineralization and anthropometric indices	The intervention group improved its bone mineralization (p ≤ 0.001) and anthropometric indices (p ≤ 0.001) compared to the control group
Vignochi et al.⁽⁹⁷97 Vignochi CM, Silveira RC, Miura E, Canani LH, Procianoy RS. Physical therapy reduces bone resorption and increases bone formation in preterm infants. Am J Perinatol. 2012;29(8):573-8.⁾	Randomized controlled	n = 30 , GA: ≤ 35 weeks , Weight: not disclosed	Two groups: , Control Group (n = 15); , Physiotherapy Group (n = 15): passive flexion-extension movements associated with mild joint compression/decompression for 15 minutes 5 times a week (until NB reaches 2,000g), Bone metabolism: imbalance between bone formation and resorption was lower in the intervention group	Bone metabolism	Imbalance between bone formation and resorption was lower in the intervention group
Litmanovitz et al.⁽⁹⁸98 Litmanovitz I, Erez H, Eliakim A, Bauer-Rusek S, Arnon S, Regev RH, et al. The effect of assisted exercise frequency on bone strength in very low birth weight preterm infants: a randomized control trial. Calcif Tissue Int. 2016;99(3):237-42.⁾	Randomized controlled	n = 34 PTNBs, GA: 28.6 ± 1.1 weeks, Weight: 1,217g ± 55g	3 Groups: , Group 1 Control (n = 10): no interventions, Group 2 (n = 13): mobilizations twice a day, Group 3 (n = 11): mobilizations once a day. Mobilization started at the NB's 08 ± 2.4 days of life and continued for 4 consecutive weeks, Mobilization protocols: passive mobilization consisting of flexion-extension of the extremities (upper and lower limbs)	Bone mineralization assessed by ultrasound	There was decreased bone loss in Group 2 compared to the other groups (p = 0.03), suggesting that passive mobilization performed twice a day may prevent demineralization
Chen et al.⁽⁹⁹99 Chen HL, Lee CL, Tseng HI, Yang SN, Yang RC, Jao HC. Assisted exercise improves bone strength in very low birthweight infants by bone quantitative ultrasound. J Paediatr Child Health. 2010;46(11):653-9.⁾	Randomized controlled clinical trial	n = 16 , GA: not disclosed, Birth weight: ≤ 1,500g	2 Groups, Control Group (n = 8): routine care , Intervention Group (n = 8): submitted to the Moyer-Mileur^* * Moyer-Mileur* protocol.is: Extension and flexion in the range of motion exercise against extremity resistance, performed for wrists, elbows, shoulders, ankles, knees, and hip-joints (acetabulofemoral joints), 5 days/week for 4 weeks with one session a day. Each activity repeated 5 - 8 times. protocol.	Bone mineralization assessed by ultrasound	There was an increase in bone mineralization in the intervention group compared to the control group

Associação de Medicina Intensiva Brasileira - AMIB Rua Arminda, 93 - Vila Olímpia, CEP 04545-100 - São Paulo - SP - Brasil, Tel.: (11) 5089-2642 - São Paulo - SP - Brazil
E-mail: rbti.artigos@amib.com.br

Acompanhe os números deste periódico no seu leitor de RSS

[1] Realizado pelo Departamento de Fisioterapia em Terapia Intensiva, Associação de Medicina Intensiva Brasileira (AMIB).

[2] DISPONIBILIDADE DOS DADOS E MATERIAIS

O conjunto de dados utilizado e analisado durante o presente estudo está disponível por solicitação razoável ao autor correspondente.

[3] FINANCIAMENTO

Este estudo foi financiado em parte pela Associação de Medicina Intensiva Brasileira (AMIB), pelo programa de Pós-Graduação da Universidade Federal do Rio Grande do Norte e pela Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Capes), código de financiamento 001. O financiamento não teve qualquer efeito no delineamento, na coleta, no corpo de materiais, na análise e na interpretação dos dados ou na redação do manuscrito. Esses órgãos financiaram a tradução (português para inglês) e pagaram a fatura.