Oxygen Saturation in the Dental Pulp of Maxillary Premolars in Different Age Groups - Part 1

Estrela, Carlos; Serpa, Giuliano C.; Alencar, Ana Helena G.; Bruno, Kely F.; Barletta, Fernando B.; .Felippe, Wilson T; Estrela, Cyntia R.A.; Souza, João B

doi:10.1590/0103-6440201701660

Abstract

The aim of this study was to determine oxygen saturation levels in the dental pulp of maxillary premolars in different age groups. A total of 120 human maxillary premolars with normal dental pulps were selected covering the following age groups: 20-24, 25-29, 30-34, 35-39 and 40-44 years (n=24 each group). Oxygen saturation was assessed using pulse oximetry. Analysis of variance was used to assess differences in oxygen saturation levels and Tukey’s test was used to identify the age groups that differed from each other. Significance was set at 0.05. Mean oxygen saturation of 120 premolars was 86.20% considering all age groups. Significantly reduced levels were found in the oldest group compared to the other groups: 40 to 44 years - 80.00% vs. 89.71, 87.67, 88.71, and 84.80% for age groups 20-24, 25-29, 30-34, 35-39 years, respectively. The mean oxygen saturation levels were similar between 20 and 39 years of age (86.20%) in the whole sample, but reduced significantly in the 40-44-year age group, suggesting that older patients present lower oxygen saturation results even in the absence of pulp tissue injury.

Key Words:
oxygen saturation; pulp vitality; sensibility test; dental pulp; diagnosis.

Resumo

Este estudo determinou os níveis de saturação de oxigênio (SaO2) em polpas dentárias de pré-molares superiores em diferentes faixas etárias. Foram selecionados 120 pré-molares superiores humanos com polpas dentárias normais, abrangendo os seguintes grupos etários: 20-24, 25-29, 30-34, 35-39 e 40-44 anos (n=24 para cada grupo). A saturação de oxigênio foi avaliada utilizando oximetria de pulso. A análise de variância foi utilizada para avaliar diferenças nos níveis de saturação de oxigênio, e o teste de Tukey foi utilizado para identificar os grupos etários que diferiam uns dos outros. A significância foi estabelecida em 0,05. A saturação média de oxigênio foi de 86,20% considerando todos os grupos etários. Níveis significativamente reduzidos foram encontrados no grupo de indivíduos de maior idade em comparação aos outros grupos: 40 a 44 anos - 80,00% vs. 89,71, 87,67, 88,71 e 84,80% para os grupos etários 20-24, 25-29, 30-34, 35-39 anos. Os níveis médios de saturação de oxigênio foram semelhantes entre os 20 e os 39 anos de idade (86,20%), mas reduziram-se significativamente na faixa etária de 40-44 anos, sugerindo que os pacientes mais idosos apresentam menor saturação de oxigênio mesmo na ausência de lesão do tecido pulpar.

Introduction

Aging causes changes to the dentin-pulp complex, leading to natural decreases in cell density, blood supply, lymphatic drainage, and nerve supply. As a result, the volume of the pulp chamber and root canal progressively decrease. These factors affect the reparative capacity of the pulp, which may compromise your condition with aging¹1 Murray, PE; Stanley, HR; Matthews, JB; Sloan, AJ; Smith, AJ. Age-related odontometric changes of human teeth. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2002;93:474-482..

In fact, it have been shown that sensibility tests do not accurately determine pulpal condition, irrespective of age, as they are based on vasoconstriction or vasodilation and sensitization of nerve fibers and are therefore incapable of providing precise information on pulpal blood flow²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,³3 Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15.^,⁴4 Mejàre, IA; Axelsson, S; Davidson, T; Frisk, F; Hakeberg, M; Kvist, T; et al.. Diagnosis of the condition of the dental pulp: a systematic review. Int Endod J 2012;45:597-613.. Moreover, age-related changes to the morphophysiological characteristics of the dental pulp may induce false-negative responses to thermal and electric pulp sensibility tests, as a result of increased dentin thickness, presence of pulp calcifications and other biological changes²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,³3 Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15..

Considering the need to overcome the limitations of dental pulp sensibility tests (thermal and electric), new diagnostic tools have been proposed to determine pulp vitality. Among these new options, pulse oximetry has been incorporated to endodontic practice, constituting a method noninvasive, painless and reliable²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,³3 Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15.^,⁴4 Mejàre, IA; Axelsson, S; Davidson, T; Frisk, F; Hakeberg, M; Kvist, T; et al.. Diagnosis of the condition of the dental pulp: a systematic review. Int Endod J 2012;45:597-613.^,⁵5 Gopikrishna, V; Tinagupta, K; Kandaswamy, D. Evaluation of efficacy of a new custom-made pulse oximeter dental probe in comparison with the electrical and thermal tests for assessing pulp vitality. J Endod 2007;33:411-414.^,⁶6 Nitzan, M; Romen, A; Koppel, R. Pulse oximetry: fundamentals and technology update. Med Dev: Evid Res 2014;7:231-239.^,⁷7 Calil, E; Caldeira, CL; Gavini, G; Lemos, EM. Determination of pulp vitality in vivo with pulse oximetry. Int Endod J 2008;41:741-746.^,⁸8 Bruno, KF; Barletta, FB; Felippe, WT; Silva, JA; Alencar, AHG; Estrela, C. Oxygen saturation in the dental pulp of permanent teeth: a critical review. J Endod 2014;40:1054-1057.^,⁹9 Pozzobon, MH; Vieira, RS; Alves, AM; Reyes-Carmona, J; Teixeira, CS; de Souza, BD, et al.. Assessment of pulp blood flow in primary and permanent teeth using pulse oximetry. Dent Traumatol 2011;27:184-188.^,¹⁰10 Dastmalch,i N; Jafarzadeh, H; Moradi, S. Comparison of the efficacy of a custom-made pulse oximeter probe with digital electric pulp tester, cold spray, and rubber cup for assessing pulp vitality. J Endod 2012;38:1182-1186.^,¹¹11 Setzer, FC; Kataoka, SH; Natrielli, F; Gondim-Junior, E; Caldeira, CL. Clinical diagnosis of pulp inflammation based on pulp oxygenation rates measured by pulse oximetry. J Endod 2012;38:880-883.^,¹²12 Giovanella, LB; Barletta, FB; Felippe, WT; Bruno, KF; Alencar, AHG; Estrela, C. Assessment of oxygen saturation in dental pulp of permanent teeth with periodontal disease. J Endod 2014;40:1927-1931.^,¹³13 Stella, JPF; Barletta, FB; Giovanella, LB; Grazziotin-Soares, R; Tovo ,MF; Felippe, WT; et al.. Oxygen saturation in dental pulp of permanent teeth: difference between children/adolescents and adults. J Endod 2015;41:1445-1449.^,¹⁴14 Schnettler, JM; Wallace, JA. Pulse oximetry as a diagnostic tool of pulpal vitality. J Endod 1991;17:488-490.^,¹⁵15 Mills, RW. Pulse oximetry-a method of vitality testing for teeth? Br Dent J 1992;172:334-335..

The knowledge of the process of oxygen saturation (SaO₂) in the arterial blood²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,³3 Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15.^,¹⁵15 Mills, RW. Pulse oximetry-a method of vitality testing for teeth? Br Dent J 1992;172:334-335.^,¹⁶16 Farmer, J. Blood oxygen measurement. In: Webster, JG, ed. Design of Pulse Oximeters. Bristol: Institute of Physics; 1997:21-39.^,¹⁷17 Wagner, PD. Ventilation, blood oxygen and gas exchange. In: Mason, RJ; Broaddus, VC; Murray, JF; Nadel, JA. Murray and Nadel’s Textbook of Respiratory Medicine. Philadelphia: WB Saunders: 2005.^,¹⁸18 Cerqueira, MG. Desenvolvimento de um sensor de determinação da vitalidade dentária. Master’s dissertation. Coimbra: Universidade de Coimbra; 2013.^,¹⁹19 Schratz, WW. Pulse oximetry: a review, with emphasis on applications in dentistry. Anesth Prog 1987;34;100-101.^,²⁰20 Samraj, RV; Indira, R; Srinivasan, MR; Kumar, A. Recent advances in pulp vitality testing. Endodontol2003;15:14-19. allows to understand the importance of the application of this diagnostic recourse in determining the dental pulp vitality. Nitzan et al.⁶6 Nitzan, M; Romen, A; Koppel, R. Pulse oximetry: fundamentals and technology update. Med Dev: Evid Res 2014;7:231-239. reported that the total oxygen in blood includes the hemoglobin-bound oxygen (97%-98%) and the oxygen dissolved in plasma (since hemoglobin is that allows the transfer of oxygen from the lungs to tissue cells). The level of arterial hemoglobin oxygenation is assessed by oxygen saturation in arterial blood (SaO₂), which is the ratio of oxygenated hemoglobin concentration [HbO₂] to total hemoglobin concentration in the blood ([HbO₂] + [Hb])⁶6 Nitzan, M; Romen, A; Koppel, R. Pulse oximetry: fundamentals and technology update. Med Dev: Evid Res 2014;7:231-239.^,¹⁶16 Farmer, J. Blood oxygen measurement. In: Webster, JG, ed. Design of Pulse Oximeters. Bristol: Institute of Physics; 1997:21-39.^,¹⁷17 Wagner, PD. Ventilation, blood oxygen and gas exchange. In: Mason, RJ; Broaddus, VC; Murray, JF; Nadel, JA. Murray and Nadel’s Textbook of Respiratory Medicine. Philadelphia: WB Saunders: 2005.. When hemoglobin is fully saturated with oxygen it is called oxyhemoglobin (HbO₂), and when it release oxygen, it is reduced and called deoxyhemoglobin (Hb). These two forms of hemoglobin absorb different amounts of light at different wavelengths¹⁹19 Schratz, WW. Pulse oximetry: a review, with emphasis on applications in dentistry. Anesth Prog 1987;34;100-101.. Pulse oximeters measure arterial oxygen saturation (SaO₂) in the dental pulp through a probe containing two diodes that emit light in two wavelengths, one in the red spectrum (approximately 660 nm) and the other in the infrared spectrum (approximately 940 nm). These emissions are captured by a photodiode receptor and converted by electronic circuits into SaO₂ and pulse rates²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,¹⁵15 Mills, RW. Pulse oximetry-a method of vitality testing for teeth? Br Dent J 1992;172:334-335.^,¹⁶16 Farmer, J. Blood oxygen measurement. In: Webster, JG, ed. Design of Pulse Oximeters. Bristol: Institute of Physics; 1997:21-39.^,¹⁷17 Wagner, PD. Ventilation, blood oxygen and gas exchange. In: Mason, RJ; Broaddus, VC; Murray, JF; Nadel, JA. Murray and Nadel’s Textbook of Respiratory Medicine. Philadelphia: WB Saunders: 2005.^,¹⁸18 Cerqueira, MG. Desenvolvimento de um sensor de determinação da vitalidade dentária. Master’s dissertation. Coimbra: Universidade de Coimbra; 2013..

Pulp oximetry has been used to determine SaO₂ levels in healthy dental pulps, with mean values ranging from 75 to 94% (3-5,8,12-15) for different tooth groups, in different age groups. A recent critical review involving SaO₂ levels revealed the following mean results: 87.73% for central incisors, 87.24% for lateral incisors, and 87.26% for canines⁸8 Bruno, KF; Barletta, FB; Felippe, WT; Silva, JA; Alencar, AHG; Estrela, C. Oxygen saturation in the dental pulp of permanent teeth: a critical review. J Endod 2014;40:1054-1057.. Conversely, the relationship between age and SaO₂ levels in posterior teeth has been little explored. The aim of this study was to determine SaO₂ levels in the normal dental pulp of maxillary premolars in different age groups using pulse oximetry.

Material and Methods

Subject Selection

This in vivo study included 120 healthy maxillary premolars from 100 patients treated at the endodontic clinic of the Dental School of the Universidade Federal de Goiás (Goiânia, GO, Brazil). Patients were selected through convenience sampling so as to form five groups (n=24), according to the following age groups: 20-24, 25-29, 30-34, 35-39 and 40-44 years.

Inclusion criteria were: teeth with intact crowns (no caries, restorations or fractures, no dental wear), absence of periodontal disease and absence of internal/external root obliteration or resorption. Smokers, patients with a history of systemic vascular or cardiovascular disease, occlusal or dental trauma and patients using systemic medications were excluded.

The present study was approved by the local institutional Research Ethics Committee. All the patients signed an informed consent form prior to the performance of any study procedures.

Sample Calculation

Sample size was calculated considering a confidence level of 95% (z=1.96), a margin of error of ≤2% and a standard deviation of 5, which resulted in a sample (n) of 24 teeth for each age group. Selected teeth were assessed using a cold sensibility test and pulse oximetry.

Cold Sensibility Test

After the initial X-ray image acquisition, used as a diagnostic aid, cold sensibility tests were performed by an endodontist. Teeth were isolated with cotton rolls and a saliva ejector. Then, Green Endo-Ice spray (-26.2 °C, Hygenic Corp., Akron, OH, USA) was applied to the middle third of the buccal surface of the teeth using a cotton ball and a tweezer. Patients were asked to rate the intensity of sensitive stimuli (pain) using a 0-10-point scale, where 0=no pain and 10=severe pain. Score 0 was defined as a negative response after 15 s of spray application. When this occurred, the test was repeated 2 min after the first one.

Pulse Oximetry

SaO₂ levels were determined using the BCI 3301 hand-held pediatric pulse oximetry monitoring system (Smiths Medical PM Inc., Waukesha, WI, USA), equipped with 3025 (for teeth) and 3026 (for fingers) sensors. All tests were performed by an endodontist. Teeth were isolated with cotton rolls, a saliva ejector and no dental reflector lamp. The probe was coupled to a device developed specifically for testing premolars, with the objective of placing the two diodes in parallel, so as to allow correct measuring of SaO₂ levels in the dental pulp. A stainless steel adapter was fabricated specifically for this study (Fig 1). SaO₂ levels were measured twice, i.e., the first time 30 s after adapting the probe to the tooth, and the second time 30 s after the first reading; the mean of the two measurements was used as the final result. A third measure was taken by placing the probe on the patient’s index finger, to determine SaO₂ levels in their blood.

Figure 1
A-D: Stainless steel probe prepared to adapt the pulse oximeter to maxillary premolars.

All vitality tests were performed by a same professional, specialist in endodontics with more than 10 years of experience, with previous training in 10% of the sample.

Statistical Analysis

Analysis of variance (ANOVA) was used to assess differences in SaO₂ levels between the age groups. Whenever differences were detected, Tukey’s multiple comparison test was performed to identify the age groups that differed from each other. All results showing p<0.05 (α=5%) were considered significant.

Results

All the teeth assessed responded positively to the cold sensibility test. The overall mean SaO₂ level obtained in the dental pulps was 86.2% (range: 69.0 to 99.0), lower than that found in the patients’ index fingers (mean: 93.7%; range: 70.0 to 99.0). Table 1 shows SaO₂ levels obtained in the dental pulp of maxillary premolars according to age group. The 40-44-year age group differed statistically from the 20-24, 25-29, and 30-34-year groups (p<0.05) (Fig. 2), but showed similar results to the 35-39-year group (p=0.122) (Table 2). However, this evidence is not sufficient to affirm that the group aged 35-39 years was statistically different from the others (Table 1). Even though the SaO₂ results obtained in the 35-39-year age group did differ statistically from the other age groups, they did show a marked drop in SaO₂, as can be viewed in Figure 2.

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Table 1
Oxygen saturation levels (%) measured in the dental pulp of maxillary premolars according to age group (n=24 each)

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Table 2
Differences between different age groups considering mean oxygen saturation levels measured in the dental pulp of maxillary premolars

Figure 2
Distribution of oxygen saturation levels (%) measured in the dental pulps of maxillary premolars according to age group.

Discussion

This study was conducted to determine oxygen saturation levels in the normal dental pulp of maxillary premolars in different age groups. The mean SaO₂ level found in the dental pulps of maxillary premolars considering the whole sample was 86.20%, lower than the levels measured in the patients’ index fingers (93.70%). The mean results obtained for the different age groups were as follows: 89.71, 87.67, 88.71, 84.80 and 80.00% for age groups 20-24, 25-29, 30-34, 35-39 and 40-44 years, respectively. The oldest group (40-44) showed significantly lower SaO₂ levels when compared to the other groups, and the 35-39-year group also showed a marked drop in SaO₂ readings, however at a non-significant difference.

Precise diagnosis of pulp tissue conditions remains a challenge in endodontic practice, as the dental pulp is located inside a cavity and, consequently, inaccessible to direct inspection²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,³3 Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15.^,⁹9 Pozzobon, MH; Vieira, RS; Alves, AM; Reyes-Carmona, J; Teixeira, CS; de Souza, BD, et al.. Assessment of pulp blood flow in primary and permanent teeth using pulse oximetry. Dent Traumatol 2011;27:184-188.. In addition to anatomical aspects, dental pulp sensibility tests (thermal and electric) commonly used in clinical practice provide information on nerve stimulation only, not on pulpal blood flow (2-6).

In this context, the use of pulse oximetry to analyze the vascular conditions of pulp tissues has emerged as an interesting diagnostic recourse²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,³3 Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15.^,⁴4 Mejàre, IA; Axelsson, S; Davidson, T; Frisk, F; Hakeberg, M; Kvist, T; et al.. Diagnosis of the condition of the dental pulp: a systematic review. Int Endod J 2012;45:597-613.^,⁵5 Gopikrishna, V; Tinagupta, K; Kandaswamy, D. Evaluation of efficacy of a new custom-made pulse oximeter dental probe in comparison with the electrical and thermal tests for assessing pulp vitality. J Endod 2007;33:411-414.^,¹²12 Giovanella, LB; Barletta, FB; Felippe, WT; Bruno, KF; Alencar, AHG; Estrela, C. Assessment of oxygen saturation in dental pulp of permanent teeth with periodontal disease. J Endod 2014;40:1927-1931.^,¹⁷17 Wagner, PD. Ventilation, blood oxygen and gas exchange. In: Mason, RJ; Broaddus, VC; Murray, JF; Nadel, JA. Murray and Nadel’s Textbook of Respiratory Medicine. Philadelphia: WB Saunders: 2005.^,¹⁸18 Cerqueira, MG. Desenvolvimento de um sensor de determinação da vitalidade dentária. Master’s dissertation. Coimbra: Universidade de Coimbra; 2013.^,¹⁹19 Schratz, WW. Pulse oximetry: a review, with emphasis on applications in dentistry. Anesth Prog 1987;34;100-101.^,²⁰20 Samraj, RV; Indira, R; Srinivasan, MR; Kumar, A. Recent advances in pulp vitality testing. Endodontol2003;15:14-19.^,²¹21 Tranasi, M; Sberna, MT; Zizzari, V; D’Apolito, G; Mastrangelo, F; Salini, L; et al. Microarray evaluation of aged-related changes in human dental pulp. J Endod 2009;35:1211-1217.. Different pulse oximetry sensors and techniques have been studied⁵5 Gopikrishna, V; Tinagupta, K; Kandaswamy, D. Evaluation of efficacy of a new custom-made pulse oximeter dental probe in comparison with the electrical and thermal tests for assessing pulp vitality. J Endod 2007;33:411-414.^,⁶6 Nitzan, M; Romen, A; Koppel, R. Pulse oximetry: fundamentals and technology update. Med Dev: Evid Res 2014;7:231-239.^,⁷7 Calil, E; Caldeira, CL; Gavini, G; Lemos, EM. Determination of pulp vitality in vivo with pulse oximetry. Int Endod J 2008;41:741-746.^,⁸8 Bruno, KF; Barletta, FB; Felippe, WT; Silva, JA; Alencar, AHG; Estrela, C. Oxygen saturation in the dental pulp of permanent teeth: a critical review. J Endod 2014;40:1054-1057.^,⁹9 Pozzobon, MH; Vieira, RS; Alves, AM; Reyes-Carmona, J; Teixeira, CS; de Souza, BD, et al.. Assessment of pulp blood flow in primary and permanent teeth using pulse oximetry. Dent Traumatol 2011;27:184-188.^,¹⁰10 Dastmalch,i N; Jafarzadeh, H; Moradi, S. Comparison of the efficacy of a custom-made pulse oximeter probe with digital electric pulp tester, cold spray, and rubber cup for assessing pulp vitality. J Endod 2012;38:1182-1186.^,¹¹11 Setzer, FC; Kataoka, SH; Natrielli, F; Gondim-Junior, E; Caldeira, CL. Clinical diagnosis of pulp inflammation based on pulp oxygenation rates measured by pulse oximetry. J Endod 2012;38:880-883.,1213,1920) with the aim of effectively diagnose pulpal conditions. However, before pulse oximetry can be used to detect dental pulp abnormalities in different clinical situations, reference SaO₂ levels for normal/healthy dental pulps have to be determined²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,⁷7 Calil, E; Caldeira, CL; Gavini, G; Lemos, EM. Determination of pulp vitality in vivo with pulse oximetry. Int Endod J 2008;41:741-746.^,⁸8 Bruno, KF; Barletta, FB; Felippe, WT; Silva, JA; Alencar, AHG; Estrela, C. Oxygen saturation in the dental pulp of permanent teeth: a critical review. J Endod 2014;40:1054-1057.^,⁹9 Pozzobon, MH; Vieira, RS; Alves, AM; Reyes-Carmona, J; Teixeira, CS; de Souza, BD, et al.. Assessment of pulp blood flow in primary and permanent teeth using pulse oximetry. Dent Traumatol 2011;27:184-188.^,¹⁰10 Dastmalch,i N; Jafarzadeh, H; Moradi, S. Comparison of the efficacy of a custom-made pulse oximeter probe with digital electric pulp tester, cold spray, and rubber cup for assessing pulp vitality. J Endod 2012;38:1182-1186.^,¹¹11 Setzer, FC; Kataoka, SH; Natrielli, F; Gondim-Junior, E; Caldeira, CL. Clinical diagnosis of pulp inflammation based on pulp oxygenation rates measured by pulse oximetry. J Endod 2012;38:880-883.^,¹²12 Giovanella, LB; Barletta, FB; Felippe, WT; Bruno, KF; Alencar, AHG; Estrela, C. Assessment of oxygen saturation in dental pulp of permanent teeth with periodontal disease. J Endod 2014;40:1927-1931.^,¹³13 Stella, JPF; Barletta, FB; Giovanella, LB; Grazziotin-Soares, R; Tovo ,MF; Felippe, WT; et al.. Oxygen saturation in dental pulp of permanent teeth: difference between children/adolescents and adults. J Endod 2015;41:1445-1449.^,¹⁴14 Schnettler, JM; Wallace, JA. Pulse oximetry as a diagnostic tool of pulpal vitality. J Endod 1991;17:488-490..

In the present study, different SaO₂ results were found in the dental pulps and index fingers of the patients. A possible explanation for this difference could be dental pulp location, i.e., surrounded by hard tissues, which act as a physical barrier to the detection of vascularization and to the diffraction of light through enamel prisms and dentin, leading to lower readings in the oximeter¹1 Murray, PE; Stanley, HR; Matthews, JB; Sloan, AJ; Smith, AJ. Age-related odontometric changes of human teeth. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2002;93:474-482.^,²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,⁵5 Gopikrishna, V; Tinagupta, K; Kandaswamy, D. Evaluation of efficacy of a new custom-made pulse oximeter dental probe in comparison with the electrical and thermal tests for assessing pulp vitality. J Endod 2007;33:411-414.^,²²22 Stanley, HR; White, CL; McCray, L. The rate of tertiary (reparative) dentin formation in the human tooth. Oral Surg Oral Med Oral Pathol 1966;21:180-189..

Mean SaO₂ level measured in premolar teeth in our study was 86.20%, different from previous studies⁵5 Gopikrishna, V; Tinagupta, K; Kandaswamy, D. Evaluation of efficacy of a new custom-made pulse oximeter dental probe in comparison with the electrical and thermal tests for assessing pulp vitality. J Endod 2007;33:411-414.^,¹⁰10 Dastmalch,i N; Jafarzadeh, H; Moradi, S. Comparison of the efficacy of a custom-made pulse oximeter probe with digital electric pulp tester, cold spray, and rubber cup for assessing pulp vitality. J Endod 2012;38:1182-1186.^,¹¹11 Setzer, FC; Kataoka, SH; Natrielli, F; Gondim-Junior, E; Caldeira, CL. Clinical diagnosis of pulp inflammation based on pulp oxygenation rates measured by pulse oximetry. J Endod 2012;38:880-883.. One important difference between our study is the larger sample size (n=120) and the stratification of patients according to age groups. Age stratification aimed to determine whether SaO₂ levels in teeth would vary with age and indeed revealed that SaO₂ levels gradually decrease as age advances. In fact, this decrease reached statistical significance in our oldest age group, aged 40-44 years, where mean SaO₂ was 80%. This finding may be associated with age-related changes in the morphophysiological characteristics of the dentin-pulp complex, combined with a decrease in pulpal blood flow. Tranasi et al.²¹21 Tranasi, M; Sberna, MT; Zizzari, V; D’Apolito, G; Mastrangelo, F; Salini, L; et al. Microarray evaluation of aged-related changes in human dental pulp. J Endod 2009;35:1211-1217. observed that the genetic changes underlie the histological modification of the dental pulp in aging. The authors reported that a significant reduction of the vitality in older dental pulp results from the gene expression, cellular and tissue development, cellular growth and proliferation charts. These data are confirmed by the higher expression of growth factors like bone morphogenetic protein, TGFA, growth factor differentiation family, platelet-derived growth factor α, vascular endothelial growth factor α, and FGF family in young dental pulp.

Aging leads to the deposition of mineralized tissue in the pulp chamber and root canal walls. During root formation, dentinal deposition occurs as part of the physiological processes of aging, due to the continuous secretion of dentin matrix by odontoblasts²²22 Stanley, HR; White, CL; McCray, L. The rate of tertiary (reparative) dentin formation in the human tooth. Oral Surg Oral Med Oral Pathol 1966;21:180-189.. This progressive reduction of the dental pulp space is the most evident morphological change associated with aging²³23 Morse, DR. Age-related changes of the dental pulp complex and their relationship to systemic aging. Oral Surg Oral Med Oral Pathol 1991;72:721-745.. In addition, physiological changes also take place in the pulp, i.e., blood vessels show arteriosclerotic changes, potentially causing accumulation of mineral deposits on the inner walls of arterioles²⁴24 Ikawa, M; Komatsu, H; Ikawa, H; Mayanagi, H; Shimauchi, H. Age-related changes in the human pulpal blood flow measured by laser Doppler flowmetry. Dent Traumatol 2003;19:36-40.. All these data seem to contribute to the lower levels of SaO₂ obtained in older people, as pointed out in previous studies⁹9 Pozzobon, MH; Vieira, RS; Alves, AM; Reyes-Carmona, J; Teixeira, CS; de Souza, BD, et al.. Assessment of pulp blood flow in primary and permanent teeth using pulse oximetry. Dent Traumatol 2011;27:184-188.^,¹⁰10 Dastmalch,i N; Jafarzadeh, H; Moradi, S. Comparison of the efficacy of a custom-made pulse oximeter probe with digital electric pulp tester, cold spray, and rubber cup for assessing pulp vitality. J Endod 2012;38:1182-1186.^,¹³13 Stella, JPF; Barletta, FB; Giovanella, LB; Grazziotin-Soares, R; Tovo ,MF; Felippe, WT; et al.. Oxygen saturation in dental pulp of permanent teeth: difference between children/adolescents and adults. J Endod 2015;41:1445-1449..

Age-related decreases in SaO₂ levels in pulp tissue have been reported before. According to Stella et al.¹³13 Stella, JPF; Barletta, FB; Giovanella, LB; Grazziotin-Soares, R; Tovo ,MF; Felippe, WT; et al.. Oxygen saturation in dental pulp of permanent teeth: difference between children/adolescents and adults. J Endod 2015;41:1445-1449., the mean SaO₂ reading for normal maxillary central incisors in a sample of children/adolescents (7-13 years old) was higher than the mean reading obtained in a sample of adults (22-36 years old), with 84.35 vs. 77.88%, respectively. Bargrizan et al.²⁵25 Bargrizan, M; Ashari, MA; Ahmadi, M; Ramezani, J. The use of pulse oximetry in evaluation of pulp vitality in immature permanent teeth. Dental Traumatol 2016; 32:43-47. measured SaO₂ levels in open-apex teeth and found a mean of 86.71% in left central, 86.83% in right central, 84.50% in left lateral, and 83.35% in right lateral incisors. The same authors also assessed teeth with closed apices, observing the following results: 84.61% in left central, 85.00% in right central, 83.14% in left lateral, and 81.82% in right lateral incisors. Giovanella et al.¹²12 Giovanella, LB; Barletta, FB; Felippe, WT; Bruno, KF; Alencar, AHG; Estrela, C. Assessment of oxygen saturation in dental pulp of permanent teeth with periodontal disease. J Endod 2014;40:1927-1931. used pulse oximetry to determine the level of SaO₂ in the dental pulp of intact permanent teeth with periodontal attachment loss and gingival recession. The authors found a correlation between periodontal disease and lower SaO₂ values in the pulp.

To increase the reliability of the study, we only included patients with intact crowns, absence of periodontal disease, normal probing depth, absence of gingival recession, and absence of root obliteration/resorption. These inclusion criteria aimed at eliminating any factors that could affect pulp status. Also, our exclusion criteria were determined so as to exclude any clinical conditions that might impair or limit the use of pulse oximetry, e.g., patients with high venous pressure, cardiovascular diseases, low peripheral perfusion, or hypotension⁷7 Calil, E; Caldeira, CL; Gavini, G; Lemos, EM. Determination of pulp vitality in vivo with pulse oximetry. Int Endod J 2008;41:741-746.. Finally, teeth with a history of occlusal or traumatic dental injury were excluded due to the potential presence of pulp tissue alterations, which could lead to less effective or false-negative responses to pulse oximetry²2 Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.^,³3 Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15.^,⁵5 Gopikrishna, V; Tinagupta, K; Kandaswamy, D. Evaluation of efficacy of a new custom-made pulse oximeter dental probe in comparison with the electrical and thermal tests for assessing pulp vitality. J Endod 2007;33:411-414.^,⁷7 Calil, E; Caldeira, CL; Gavini, G; Lemos, EM. Determination of pulp vitality in vivo with pulse oximetry. Int Endod J 2008;41:741-746.^,⁹9 Pozzobon, MH; Vieira, RS; Alves, AM; Reyes-Carmona, J; Teixeira, CS; de Souza, BD, et al.. Assessment of pulp blood flow in primary and permanent teeth using pulse oximetry. Dent Traumatol 2011;27:184-188.^,¹⁰10 Dastmalch,i N; Jafarzadeh, H; Moradi, S. Comparison of the efficacy of a custom-made pulse oximeter probe with digital electric pulp tester, cold spray, and rubber cup for assessing pulp vitality. J Endod 2012;38:1182-1186.^,¹¹11 Setzer, FC; Kataoka, SH; Natrielli, F; Gondim-Junior, E; Caldeira, CL. Clinical diagnosis of pulp inflammation based on pulp oxygenation rates measured by pulse oximetry. J Endod 2012;38:880-883.^,¹²12 Giovanella, LB; Barletta, FB; Felippe, WT; Bruno, KF; Alencar, AHG; Estrela, C. Assessment of oxygen saturation in dental pulp of permanent teeth with periodontal disease. J Endod 2014;40:1927-1931.^,¹³13 Stella, JPF; Barletta, FB; Giovanella, LB; Grazziotin-Soares, R; Tovo ,MF; Felippe, WT; et al.. Oxygen saturation in dental pulp of permanent teeth: difference between children/adolescents and adults. J Endod 2015;41:1445-1449.^,¹⁴14 Schnettler, JM; Wallace, JA. Pulse oximetry as a diagnostic tool of pulpal vitality. J Endod 1991;17:488-490.^,¹⁵15 Mills, RW. Pulse oximetry-a method of vitality testing for teeth? Br Dent J 1992;172:334-335.^,²⁰20 Samraj, RV; Indira, R; Srinivasan, MR; Kumar, A. Recent advances in pulp vitality testing. Endodontol2003;15:14-19..

In order to obtain more reliable readings with pulse oximetry, through the parallelism of both light-emitting diodes, we developed a device to specifically fit maxillary premolars. Several studies unanimously state that pulse oximeters should be adapted to fit properly on the patients’ teeth, since they have been developed to measure SaO₂ in fingers³3 Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15.^,⁵5 Gopikrishna, V; Tinagupta, K; Kandaswamy, D. Evaluation of efficacy of a new custom-made pulse oximeter dental probe in comparison with the electrical and thermal tests for assessing pulp vitality. J Endod 2007;33:411-414.^,⁷7 Calil, E; Caldeira, CL; Gavini, G; Lemos, EM. Determination of pulp vitality in vivo with pulse oximetry. Int Endod J 2008;41:741-746.^,⁸8 Bruno, KF; Barletta, FB; Felippe, WT; Silva, JA; Alencar, AHG; Estrela, C. Oxygen saturation in the dental pulp of permanent teeth: a critical review. J Endod 2014;40:1054-1057.^,⁹9 Pozzobon, MH; Vieira, RS; Alves, AM; Reyes-Carmona, J; Teixeira, CS; de Souza, BD, et al.. Assessment of pulp blood flow in primary and permanent teeth using pulse oximetry. Dent Traumatol 2011;27:184-188.^,¹¹11 Setzer, FC; Kataoka, SH; Natrielli, F; Gondim-Junior, E; Caldeira, CL. Clinical diagnosis of pulp inflammation based on pulp oxygenation rates measured by pulse oximetry. J Endod 2012;38:880-883.^,¹²12 Giovanella, LB; Barletta, FB; Felippe, WT; Bruno, KF; Alencar, AHG; Estrela, C. Assessment of oxygen saturation in dental pulp of permanent teeth with periodontal disease. J Endod 2014;40:1927-1931.^,¹³13 Stella, JPF; Barletta, FB; Giovanella, LB; Grazziotin-Soares, R; Tovo ,MF; Felippe, WT; et al.. Oxygen saturation in dental pulp of permanent teeth: difference between children/adolescents and adults. J Endod 2015;41:1445-1449.. The accuracy of the pulse oximeter to evaluated de SaO₂ levels may be associated with equipment calibration.

Dentists should be alert to age-related dental pulp alterations, so that they can establish an accurate diagnosis and precise treatment plan to achieve the most favorable outcomes, avoiding premature and unnecessary interventions. Thermal and electric tests and even cavity tests may yield false-negative results in older individuals. Thus, the association of sensibility and vitality tests seems to be a sensible alternative to determine clinically the pulpal condition.

In summary, the present study advances the current body of knowledge by determining mean SaO₂ levels in the normal dental pulp of maxillary premolars in different age groups, with mean of 86.20%. There was verified reduction significant in the 40-44-year age group, suggesting that older patients present lower oxygen saturation results even in the absence of pulp tissue injury.

Acknowledgements

The authors have no conflicts of interest to declare concerning publication of this manuscript. This study was supported in part by grants from the National Council for Scientific and Technological Development (CNPq #306394/2011-1 to C.E.).

References

¹
Murray, PE; Stanley, HR; Matthews, JB; Sloan, AJ; Smith, AJ. Age-related odontometric changes of human teeth. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2002;93:474-482.
²
Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.
³
Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15.
⁴
Mejàre, IA; Axelsson, S; Davidson, T; Frisk, F; Hakeberg, M; Kvist, T; et al.. Diagnosis of the condition of the dental pulp: a systematic review. Int Endod J 2012;45:597-613.
⁵
Gopikrishna, V; Tinagupta, K; Kandaswamy, D. Evaluation of efficacy of a new custom-made pulse oximeter dental probe in comparison with the electrical and thermal tests for assessing pulp vitality. J Endod 2007;33:411-414.
⁶
Nitzan, M; Romen, A; Koppel, R. Pulse oximetry: fundamentals and technology update. Med Dev: Evid Res 2014;7:231-239.
⁷
Calil, E; Caldeira, CL; Gavini, G; Lemos, EM. Determination of pulp vitality in vivo with pulse oximetry. Int Endod J 2008;41:741-746.
⁸
Bruno, KF; Barletta, FB; Felippe, WT; Silva, JA; Alencar, AHG; Estrela, C. Oxygen saturation in the dental pulp of permanent teeth: a critical review. J Endod 2014;40:1054-1057.
⁹
Pozzobon, MH; Vieira, RS; Alves, AM; Reyes-Carmona, J; Teixeira, CS; de Souza, BD, et al.. Assessment of pulp blood flow in primary and permanent teeth using pulse oximetry. Dent Traumatol 2011;27:184-188.
¹⁰
Dastmalch,i N; Jafarzadeh, H; Moradi, S. Comparison of the efficacy of a custom-made pulse oximeter probe with digital electric pulp tester, cold spray, and rubber cup for assessing pulp vitality. J Endod 2012;38:1182-1186.
¹¹
Setzer, FC; Kataoka, SH; Natrielli, F; Gondim-Junior, E; Caldeira, CL. Clinical diagnosis of pulp inflammation based on pulp oxygenation rates measured by pulse oximetry. J Endod 2012;38:880-883.
¹²
Giovanella, LB; Barletta, FB; Felippe, WT; Bruno, KF; Alencar, AHG; Estrela, C. Assessment of oxygen saturation in dental pulp of permanent teeth with periodontal disease. J Endod 2014;40:1927-1931.
¹³
Stella, JPF; Barletta, FB; Giovanella, LB; Grazziotin-Soares, R; Tovo ,MF; Felippe, WT; et al.. Oxygen saturation in dental pulp of permanent teeth: difference between children/adolescents and adults. J Endod 2015;41:1445-1449.
¹⁴
Schnettler, JM; Wallace, JA. Pulse oximetry as a diagnostic tool of pulpal vitality. J Endod 1991;17:488-490.
¹⁵
Mills, RW. Pulse oximetry-a method of vitality testing for teeth? Br Dent J 1992;172:334-335.
¹⁶
Farmer, J. Blood oxygen measurement. In: Webster, JG, ed. Design of Pulse Oximeters. Bristol: Institute of Physics; 1997:21-39.
¹⁷
Wagner, PD. Ventilation, blood oxygen and gas exchange. In: Mason, RJ; Broaddus, VC; Murray, JF; Nadel, JA. Murray and Nadel’s Textbook of Respiratory Medicine. Philadelphia: WB Saunders: 2005.
¹⁸
Cerqueira, MG. Desenvolvimento de um sensor de determinação da vitalidade dentária. Master’s dissertation. Coimbra: Universidade de Coimbra; 2013.
¹⁹
Schratz, WW. Pulse oximetry: a review, with emphasis on applications in dentistry. Anesth Prog 1987;34;100-101.
²⁰
Samraj, RV; Indira, R; Srinivasan, MR; Kumar, A. Recent advances in pulp vitality testing. Endodontol2003;15:14-19.
²¹
Tranasi, M; Sberna, MT; Zizzari, V; D’Apolito, G; Mastrangelo, F; Salini, L; et al. Microarray evaluation of aged-related changes in human dental pulp. J Endod 2009;35:1211-1217.
²²
Stanley, HR; White, CL; McCray, L. The rate of tertiary (reparative) dentin formation in the human tooth. Oral Surg Oral Med Oral Pathol 1966;21:180-189.
²³
Morse, DR. Age-related changes of the dental pulp complex and their relationship to systemic aging. Oral Surg Oral Med Oral Pathol 1991;72:721-745.
²⁴
Ikawa, M; Komatsu, H; Ikawa, H; Mayanagi, H; Shimauchi, H. Age-related changes in the human pulpal blood flow measured by laser Doppler flowmetry. Dent Traumatol 2003;19:36-40.
²⁵
Bargrizan, M; Ashari, MA; Ahmadi, M; Ramezani, J. The use of pulse oximetry in evaluation of pulp vitality in immature permanent teeth. Dental Traumatol 2016; 32:43-47.

Publication Dates

Publication in this collection
Jul-Sep 2017

History

Received
08 Feb 2017
Accepted
08 May 2017

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Murray, PE; Stanley, HR; Matthews, JB; Sloan, AJ; Smith, AJ. Age-related odontometric changes of human teeth. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2002;93:474-482.

[2] ²
Jafarzadeh, H; Rosenberg, PA. Pulse oximetry: review of potential aid in endodontic diagnosis. J Endod 2009;35:329-333.

[3] ³
Gopikrishna, V; Pradeep, G; Venkateshbabu, N. Assessment of pulp vitality: a review. Int J Pediatr Dent 2009;19:3-15.

[4] ⁴
Mejàre, IA; Axelsson, S; Davidson, T; Frisk, F; Hakeberg, M; Kvist, T; et al.. Diagnosis of the condition of the dental pulp: a systematic review. Int Endod J 2012;45:597-613.

[5] ⁵
Gopikrishna, V; Tinagupta, K; Kandaswamy, D. Evaluation of efficacy of a new custom-made pulse oximeter dental probe in comparison with the electrical and thermal tests for assessing pulp vitality. J Endod 2007;33:411-414.

[6] ⁶
Nitzan, M; Romen, A; Koppel, R. Pulse oximetry: fundamentals and technology update. Med Dev: Evid Res 2014;7:231-239.

[7] ⁷
Calil, E; Caldeira, CL; Gavini, G; Lemos, EM. Determination of pulp vitality in vivo with pulse oximetry. Int Endod J 2008;41:741-746.

[8] ⁸
Bruno, KF; Barletta, FB; Felippe, WT; Silva, JA; Alencar, AHG; Estrela, C. Oxygen saturation in the dental pulp of permanent teeth: a critical review. J Endod 2014;40:1054-1057.

[9] ⁹
Pozzobon, MH; Vieira, RS; Alves, AM; Reyes-Carmona, J; Teixeira, CS; de Souza, BD, et al.. Assessment of pulp blood flow in primary and permanent teeth using pulse oximetry. Dent Traumatol 2011;27:184-188.

[10] ¹⁰
Dastmalch,i N; Jafarzadeh, H; Moradi, S. Comparison of the efficacy of a custom-made pulse oximeter probe with digital electric pulp tester, cold spray, and rubber cup for assessing pulp vitality. J Endod 2012;38:1182-1186.

[11] ¹¹
Setzer, FC; Kataoka, SH; Natrielli, F; Gondim-Junior, E; Caldeira, CL. Clinical diagnosis of pulp inflammation based on pulp oxygenation rates measured by pulse oximetry. J Endod 2012;38:880-883.

[12] ¹²
Giovanella, LB; Barletta, FB; Felippe, WT; Bruno, KF; Alencar, AHG; Estrela, C. Assessment of oxygen saturation in dental pulp of permanent teeth with periodontal disease. J Endod 2014;40:1927-1931.

[13] ¹³
Stella, JPF; Barletta, FB; Giovanella, LB; Grazziotin-Soares, R; Tovo ,MF; Felippe, WT; et al.. Oxygen saturation in dental pulp of permanent teeth: difference between children/adolescents and adults. J Endod 2015;41:1445-1449.

[14] ¹⁴
Schnettler, JM; Wallace, JA. Pulse oximetry as a diagnostic tool of pulpal vitality. J Endod 1991;17:488-490.

[15] ¹⁵
Mills, RW. Pulse oximetry-a method of vitality testing for teeth? Br Dent J 1992;172:334-335.

[16] ¹⁶
Farmer, J. Blood oxygen measurement. In: Webster, JG, ed. Design of Pulse Oximeters. Bristol: Institute of Physics; 1997:21-39.

[17] ¹⁷
Wagner, PD. Ventilation, blood oxygen and gas exchange. In: Mason, RJ; Broaddus, VC; Murray, JF; Nadel, JA. Murray and Nadel’s Textbook of Respiratory Medicine. Philadelphia: WB Saunders: 2005.

[18] ¹⁸
Cerqueira, MG. Desenvolvimento de um sensor de determinação da vitalidade dentária. Master’s dissertation. Coimbra: Universidade de Coimbra; 2013.

[19] ¹⁹
Schratz, WW. Pulse oximetry: a review, with emphasis on applications in dentistry. Anesth Prog 1987;34;100-101.

[20] ²⁰
Samraj, RV; Indira, R; Srinivasan, MR; Kumar, A. Recent advances in pulp vitality testing. Endodontol2003;15:14-19.

[21] ²¹
Tranasi, M; Sberna, MT; Zizzari, V; D’Apolito, G; Mastrangelo, F; Salini, L; et al. Microarray evaluation of aged-related changes in human dental pulp. J Endod 2009;35:1211-1217.

[22] ²²
Stanley, HR; White, CL; McCray, L. The rate of tertiary (reparative) dentin formation in the human tooth. Oral Surg Oral Med Oral Pathol 1966;21:180-189.

[23] ²³
Morse, DR. Age-related changes of the dental pulp complex and their relationship to systemic aging. Oral Surg Oral Med Oral Pathol 1991;72:721-745.

[24] ²⁴
Ikawa, M; Komatsu, H; Ikawa, H; Mayanagi, H; Shimauchi, H. Age-related changes in the human pulpal blood flow measured by laser Doppler flowmetry. Dent Traumatol 2003;19:36-40.

[25] ²⁵
Bargrizan, M; Ashari, MA; Ahmadi, M; Ramezani, J. The use of pulse oximetry in evaluation of pulp vitality in immature permanent teeth. Dental Traumatol 2016; 32:43-47.

Age group (years)	Oxygen saturation (%)				Standard error
Age group (years)	Minimum	Maximum	Median	Mean	Standard error
20-24	76.00	99.00	90.75	89.71	1.50
25-29	70.00	99.00	87.00	87.67	1.55
30-34	73.50	98.50	90.00	88.71	1.26
35-39	72.50	96.00	85.25	84.80	1.58
40-44	69.00	90.50	79.50	80.00	1.10

Age group (years)		Difference	p value
20-24	25-29	2.04	0.845
	30-34	0.99	0.987
	35-39	4.91	0.107
	40-44	9.71	0.000*
25-29	20-24	-2.04	0.845
	30-34	-1.04	0.985
	35-39	2.87	0.605
	40-44	7.67	0.002*
30-34	20-24	-0.99	0.987
	25-29	1.04	0.985
	35-39	3.92	0.291
	40-44	8.71	0.000*
35-39	20-24	-4.91	0.107
	25-29	-2.87	0.605
	30-34	-3.92	0.291
	40-44	4.80	0.122
40-44	20-24	-9.71	0.000*
	25-29	-7.67	0.002*
	30-34	-8.71	0.000*
	35-39	-4.80	0.122

Brasil