Development and validation of predictive model for long-term hospitalization, readmission, and in-hospital death of patients over 60 years old

Costa, Maria Luiza Monteiro; Mafra, Ana Carolina Cintra Nunes; Cendoroglo, Maysa Seabra; Rodrigues, Patrícia Silveira; Ferreira, Milene Silva; Studenski, Stephanie A.; Franco, Fábio Gazelato de Mello

doi:10.31744/einstein_journal/2022AO8012

ABSTRACT

Objective

To develop and validate a high-risk predictive model that identifies, at least, one common adverse event in older population: early readmission (up to 30 days after discharge), long hospital stays (10 days or more) or in-hospital deaths.

Methods

This was a retrospective cohort study including patients aged 60 years or older (n=340) admitted at a 630-beds tertiary hospital, located in the city of São Paulo, Brazil. A predictive model of high-risk indication was developed by analyzing logistical regression models. This model prognostic capacity was assessed by measuring accuracy, sensitivity, specificity, and positive and negative predictive values. Areas under the receiver operating characteristic curve with 95% confidence intervals were also obtained to assess the discriminatory power of the model. Internal validation of the prognostic model was performed in a separate sample (n=168).

Results

Statistically significant predictors were identified, such as current Barthel Index, number of medications in use, presence of diabetes mellitus, difficulty chewing or swallowing, extensive surgery, and dementia. The study observed discrimination model acceptance in the construction sample 0.77 (95% confidence interval: 0.71-0.83) and good calibration. The characteristics of the validation samples were similar, and the receiver operating characteristic curve area was 0.687 (95% confidence interval: 0.598-0.776). We could assess an older patient’s adverse health events during hospitalization after admission.

Conclusion

A predictive model with acceptable discrimination was obtained, with satisfactory results for early readmission (30 days), long hospital stays (10 days), or in-hospital death.

Aging; lenght of stay; Long-term care; Patient readmission; Hospital mortality; Hospitalization; Logistic models

INTRODUCTION

Population aging impacts society in many ways including health, economics, politics, and social aspects.(¹1. World Health Organization (WHO). Number of people over 60 years set to double by 2050: major societal changes required. Geneva: WHO; 2015 [cited 2015 Sep 30]. Available from: https://www.who.int/news/item/30-09-2015-who-number-of-people-over-60-years-set-to-double-by-2050-major-societal-changes-required
https://www.who.int/news/item/30-09-2015... ,²2. Eurostat Statistic Explained. Population structure and ageing. Luxembourg: Eurostat; 2017 [cited 2017 June 22]. Available from: http://ec.europa.eu/eurostat/statistics-explained/index.php/Population_structure_and_ageing
http://ec.europa.eu/eurostat/statistics-... ) In Brazil, demographic transition has happened faster than in developed countries. The Brazilian Institute of Geography and Statistics (IBGE - Instituto Brasileiro de Geografia e Estatística) estimates that the number of older adults will exceed the number of children and adolescents in 2040.(³3. Instituto Brasileiro de Geografia e Estatística (IBGE). Projeções e estimativas da população do Brasil e das unidades da federação. Rio de Janeiro: IBGE; 2008 [citado 2018 Jun 6]. Disponível em: https://www.ibge.gov.br/apps/populacao/projecao/
https://www.ibge.gov.br/apps/populacao/p... )

Substantial improvements in the medical and technological fields have contributed to increasing life expectancy, changing the epidemiological profile.(⁴4. Instituto Brasileiro de Geografia e Estatística (IBGE). Indicadores sociodemográficos e de saúde no Brasil. Rio de Janeiro: IBGE; 2009 [citado 2018 Jun 6]. Disponível: https://www.ibge.gov.br/estatisticas/sociais/saude/9336-indicadores-sociodemograficos-e-de-saude-no-brasil.html?=&t=o-que-e
https://www.ibge.gov.br/estatisticas/soc... ,⁵5. Nasri F. The aging population in Brazil. einstein (São Paulo). 2008; 6(Suppl 1): S4-6.) The increased frequency of chronic diseases leads to longer hospital stays, increased risk of readmissions, institutionalization, and physical dysfunction after hospital discharge, which also increase mortality.(⁶6. Lum HD, Studenski SA, Degenholtz HB, Hardy SE. Early hospital readmission is a predictor of one-year mortality in community-dwelling older Medicare beneficiaries. J Gen Intern Med. 2012;27(11):1467-74.) Thus, the big challenge is to identify vulnerable patients to propose interventions that can reduce undesirable outcomes. Evidence from other countries suggests that hospital screening for geriatric issues helped with discharge planning, decreased mortality and readmissions.(⁷7. Hshieh TT, Yang T, Gartaganis SL, Yue J, Inouye SK. Hospital Elder Life Program: systematic review and meta-analysis of effectiveness. Am J Geriatr Psychiatry. 2018;26(10):1015-33.) Functional status is one of the most important condition that must be preserved,(⁸8. Covinsky KE, Palmer RM, Counsell SR, Pine ZM, Walter LC, Chren MM. Functional status before hospitalization in acutely ill older adults: validity and clinical importance of retrospective reports. J Am Geriatr Soc. 2000;48(2):164-9.) but it is common sense that the multiple domains of geriatric assessment(⁹9. Pilotto A, Veronese N, Daragjati J, Cruz-Jentoft AJ, Polidori MC, Mattace-Raso F, Paccalin M, Topinkova E, Siri G, Greco A, Mangoni AA, Maggi S, Ferrucci L; MPI_AGE Investigators. Using the multidimensional prognostic index to predict clinical outcomes of hospitalized older persons: a prospective, multicenter, international study. J Gerontol A Biol Sci Med Sci. 2019;74(10):1643-9.) should be considered. Some of the promising tools are the Multidimensional Prognostic Index (MPI)(¹⁰10. Pilotto A, Gallina P, Fontana A, Sancarlo D, Bazzano S, Copetti M, et al. Development and validation of a multidimensional prognostic index for mortality based on a standardized multidimensional assessment schedule (MPI-SVaMA) in community-dwelling older subjects. J Am Med Dir Assoc. 2013;14(4):287-92.) and the Charlson Comorbidity Index (CCI)(¹¹11. Bahrmann A, Benner L, Christ M, Bertsch T, Sieber CC, Katus H, et al. The Charlson Comorbidity and Barthel Index predict length of hospital stay, mortality, cardiovascular mortality and rehospitalization in unselected older patients admitted to the emergency department. Aging Clin Exp Res. 2019;31(9):1233-42.) that are associated with mortality, institutionalization, and readmission. In Brazil, such risk screening is not yet part of the assessment of public or private hospitals.(¹²12. Aliberti MJ, Apolinario D, Suemoto CK, Melo JA, Fortes-Filho SQ, Saraiva MD, et al. Targeted geriatric assessment for fast-paced healthcare settings: development, validity, and reliability. J Am Geriatr Soc. 2018;66(4):748-54.,¹³13. Dutra MM, Moriguchi EH, Lampert MA, Poli-de-Figueiredo CE. Predictive validity of a questionnaire to identify older adults at risk for hospitalization. Rev Saude Publica. 2011;45(1):106-12.)

OBJECTIVE

To construct a predictive model that identifies at least one of the following events: death during hospitalization, early readmission up to 30 days after discharge, or long hospital stay (10 days or more); and to validate the model in an older adults’ population.

METHODS

This was a retrospective cohort study involving 508 patients admitted at a private tertiary hospital (630 beds) in São Paulo city, Brazil. The inclusion criteria were patients aged ≥60 years, hospitalized in clinical and surgery wards. The exclusion criteria were patients admitted in psychiatric and intensive care wards. Patients were followed until discharge.

We used a data base of a previous cohort study, collected from March 2014 to June 2015, and published in 2019.(¹⁴14. Ferreira MS, de Melo Franco FG, Rodrigues PS, da Silva de Poli Correa VM, Akopian ST, Cucato GG, et al. Impaired chair-to-bed transfer ability leads to longer hospital stays among elderly patients. BMC Geriatr. 2019;19(1):89.) The time interval between admission and data collection of up to 72 hours was defined to avoid loss of information in cases of patients with rapid therapeutic response and discharge or death before 7 days. A single trained professional assessed the patients using the Barthel Index score(¹⁵15. Minosso JS, Amendola F, Alvarenga MR, Oliveira MA. Validation of the Barthel Index in elderly patients attended in outpatient clinics, in Brazil. Acta Paul Enferm. 2010;23(2):218-23.,¹⁶16. Mahoney FI, Barthel DW. Functional evaluation: the Barthel Index. Md State Med J. 1965;14:61-5.) as a measure of functional capacity 30 days before admission and at the time of admission. The Barthel Index belongs to the area of assessment of activities of daily living (ADLs) and measures functional independence in personal care, mobility, ambulation, and continence. Ten tasks are evaluated: eating, bathing, dressing, personal hygiene, bowel, and bladder control, using the toilet, chair-to-bed transferring, walking, and stairs. The instrument scores each item according to the patient’s performance ability to perform tasks independently, with moderate assistance or total dependence. A score is assigned to each category, depending on the time and assistance required for each patient. The classification ranges from 0 to 100, at intervals of five points, with higher scores indicating more independence.(¹⁶16. Mahoney FI, Barthel DW. Functional evaluation: the Barthel Index. Md State Med J. 1965;14:61-5.)

A cognitive assessment was performed by the Short Portable Status Questionnaire (SPMSQ), also at admission.(¹⁷17. Pfeiffer E. A short portable mental status questionnaire for the assessment of organic brain deficit in elderly patients. J Am Geriatr Soc. 1975;23(10):433-41.,¹⁸18. Blay SL, Ramos LR, Mari JJ. Validity of a Brazilian version of the Older Americans Resources and Services (OARS) mental health screening questionnaire. J Am Geriatr Soc. 1988;36(8):687-92.) It consists of a 10-item questionnaire that measures the presence of cognitive impairment, considering general knowledge and personal information. Patients are asked questions such as the date, their telephone number, address, age, birthplace, maiden name, the current president’s name, and to do subtractions (subtracting 3 from 20 sequentially, up to six times). Four categories are established: normal cognitive functioning, moderate impairment, severe impairment, and unable to respond.(¹⁷17. Pfeiffer E. A short portable mental status questionnaire for the assessment of organic brain deficit in elderly patients. J Am Geriatr Soc. 1975;23(10):433-41.)

Clinical and demographic information was also included. Concomitantly, information concerning the remaining variables was extracted from medical records.

The two samples (keeping a 2:1 ratio), construction and validation, were described separately and compared by Fisher’s exact χ²2. Eurostat Statistic Explained. Population structure and ageing. Luxembourg: Eurostat; 2017 [cited 2017 June 22]. Available from: http://ec.europa.eu/eurostat/statistics-explained/index.php/Population_structure_and_ageing
http://ec.europa.eu/eurostat/statistics-... and Mann-Whitney tests. Within the construction sample (n=340), simple models were initially adjusted and then, using the stepwise method, the multiple model was obtained, to maintain only significant variables to the model (p<0.005). To measure the goodness of fit of the statistical models, the study used a model comparison and variable selection following two directions: including and excluding variables one by one according to the Akaike information criterion (AIC), where lower AIC values represent greater quality and simplicity.(¹⁹19. Burnham KP, Anderson DR, editors. Model selection and multimodel inference. New York: Springer; 2002. p. 49-97.) The quality of the final model was evaluated by analyzing the standard errors of the estimated coefficients, fit quality graphs, and the Nagelkerke’s R²2. Eurostat Statistic Explained. Population structure and ageing. Luxembourg: Eurostat; 2017 [cited 2017 June 22]. Available from: http://ec.europa.eu/eurostat/statistics-explained/index.php/Population_structure_and_ageing
http://ec.europa.eu/eurostat/statistics-... determination coefficient(²⁰20. Steyerberg EW, Vickers AJ, Cook NR, Gerds T, Gonen M, Obuchowski N, et al. Assessing the performance of prediction models: a framework for traditional and novel measures. Epidemiology. 2010;21(1):128-38.) to measure how much the independent variables included can explain the phenomenon studied (the larger the measure, the more complete and explanatory the model), and variance inflation factor to ensure collinearity between the independent variables considered in the proposed prognostic model.(²¹21. Neter J, Kutner MH, Nachtsheim CJ, Wasserman W. Applied linear statistical models. 4th ed. Chicago Illinois: McGraw-Hill; 1996. p. 406-9.) Hosmer and Lemeshow test was conducted, and the Brier score was obtained related to the global predictive capacity performance of the model.(²⁰20. Steyerberg EW, Vickers AJ, Cook NR, Gerds T, Gonen M, Obuchowski N, et al. Assessing the performance of prediction models: a framework for traditional and novel measures. Epidemiology. 2010;21(1):128-38.) The smaller the difference between estimated and observed, the more informative the model is considered. Measures between 0 and 0.25 are considered ideal.(²⁰20. Steyerberg EW, Vickers AJ, Cook NR, Gerds T, Gonen M, Obuchowski N, et al. Assessing the performance of prediction models: a framework for traditional and novel measures. Epidemiology. 2010;21(1):128-38.)

This study considered long hospital stays (10 days or more), early readmission (up to 30 days after discharge), and in-hospital death as dependent variables for the model.(¹⁴14. Ferreira MS, de Melo Franco FG, Rodrigues PS, da Silva de Poli Correa VM, Akopian ST, Cucato GG, et al. Impaired chair-to-bed transfer ability leads to longer hospital stays among elderly patients. BMC Geriatr. 2019;19(1):89.,²²22. Altman DG, Vergouwe Y, Royston P, Moons KG. Prognosis and prognostic research: validating a prognostic model. BMJ. 2009;338:b605.

23. Silva TJ, Jerussalmy CS, Farfel JM, Curiati JA, Jacob-Filho W. Predictors of in-hospital mortality. Clinics (São Paulo). 2009;64(7):613-8.

24. Raval AD, Zhou S, Wei W, Bhattacharjee S, Miao R, Sambamoorthi U. 30-day readmission among elderly medicare beneficiaries with type 2 diabetes. Popul Health Manag. 2015;18(4):256-64.

25. Low LL, Liu N, Lee KH, Ong ME, Wang S, Jing X, et al. FAM-FACE-SG: a score for risk stratification of frequent hospital admitters. BMC Med Inform Decis Mak. 2017;17(1):35.

26. Maurer PP, Ballmer PE. Hospital readmissions -- are they predictable and avoidable? Swiss Med Wkly. 2004;134(41-42):606-11.-²⁷27. Crowson CS, Atkinson EJ, Therneau TM. Assessing calibration of prognostic risk scores. Stat Methods Med Res. 2016;25(4):1692-706. Erratum in: Stat Methods Med Res. 2017;6(4):1992-93.)

The prognostic capacity of this model and its internal validation were assessed by measuring accuracy, sensitivity, specificity, positive and negative predictive values. Areas under the receiver operating characteristic (ROC) curve with 95% confidence intervals (95%CI) were also obtained to assess the model discriminatory power, as well as internal validation of the prognostic model with separate sample (n=168).(²²22. Altman DG, Vergouwe Y, Royston P, Moons KG. Prognosis and prognostic research: validating a prognostic model. BMJ. 2009;338:b605.,²⁷27. Crowson CS, Atkinson EJ, Therneau TM. Assessing calibration of prognostic risk scores. Stat Methods Med Res. 2016;25(4):1692-706. Erratum in: Stat Methods Med Res. 2017;6(4):1992-93.)

Ethics approval and consent to participate

The Ethics Committee of the Hospital Israelita Albert Einstein (HIAE) approved this study opinion # 3.625.696, CAAE: 61145816.5.0000.0071. All participants signed an informed consent form prior to participation. The patients with no conditions to sign their consent were represented by their legal guardians.

RESULTS

The study comprises data from 508 patients randomly divided into two samples: 340 for the construction model and 168 for the internal validation. Shapiro-Wilk tests confirmed that the samples are similar, and their distributions are not symmetrical.

Table 1 presents the outcome of interest and clinical, functional, and cognitive characteristics of the construction and validation population.

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Table 1
Description of interest outcome and clinical/demographic profile

The population of this study consists mostly of older adults with a 4-day median stay that remain under 10 days and have a low mortality rate. Its readmission rate is relevant, up to 32 days after discharge. It is formed by a slightly larger number of male patients than female. They came from their houses and few of them live alone. Most were considered independent and with mild dependence by the Barthel scale. Interestingly, in the median, a large contingent has at least moderate dependence. They presented normal cognitive conditions, and a few have a diagnosis as one of the reasons for hospitalization. However, the incidence of dementia is significant. At least half of the patients had up to three diagnoses, whereas the most prevalent was diabetes mellitus (DM). Swallowing/chewing difficulty and polypharmacy are also important associated factors found in this study. According to this profile, if we transpose the risk factors in the aging process timeline, they are strongly limiting and important for the studied outcomes.

Predictive model

In the univariate models (Table 2) the following factors associated with high risk were noted number of diagnoses, DM, dementia, number of medications, delirium, difficulty chewing or swallowing, lowering of consciousness, ulcer, cognitive score, and the current and last month’s Barthel Index. The functional status at hospital current moment was considered because when compared to the measure of functional capacity 30 days before admission, no statistically significant difference was observed.

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Table 2
Clinical admission and demographic factors associated with high risk

Table 3 shows the results of multiple-variable regression modeling. Statistically significant high-risk predictors of 30-day readmission, lengths of stay (LOS) and in-hospital death indicated as determinants are: the Barthel Index at admission, number of medications in use, presence of DM, and difficulty for chewing or swallowing. Patients who underwent extensive surgery or had dementia diagnoses were not considered as a significantly associated factor in the multiple-variable model, but they were still maintained because of their contribution to the outcome discrimination.

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Table 3
High-risk multiple predictive logistic model

The risk score was obtained according to the following equation: 1 / (1 + e ^{risk score}). The risk score is represented by the logit function obtained by the logistic model using the estimated coefficients presented in table 3.

Risk score=-3.2305 + (0.6608 x current Barthel Index indicating mild or moderate dependence) + (1.4876 x current BI indicating severe dependence) + (1.4748 x current IB indicating total dependence) + (0.0896 x number of medications being used) + (1.9226 x chewing or swallowing difficulty) + (0.6868 x DM) + (1.2131 x extensive surgery) + (0.8903 x dementia), where all indicator variables were coded as 0 for no and 1 for yes, and the number of medications should be replaced by the observed number.

Brier score was 0.14 and indicates that the model can be considered informative and the Hosmer-Lemeshow test indicated goodness of fit quality which show an ideal line and symmetric distribution (Figure 1A).

Figure 1
Model fit quality analysis charts. (A) Hosmer and Lemes how calibration graphic; (B) ROC curve

It was observed an area under the ROC curve of 0.77 (95%CI: 0.71-0.83) of the model discrimination with the sample used to construct the predictive model. It fits under the discrimination category acceptable but almost excellent.(²⁸28. Royston P, Moons KG, Altman DG, Vergouwe Y. Prognosis and prognostic research: developing a prognostic model. BMJ. 2009;338:b604.) The inclination discrimination coefficient was 0.16, close to zero, and Nagelkerke’s R² was 22.71%, indicating that an amount of variation was unexplained and attesting to the multifactorial influences on the outcomes. Figure 1B showed the cut-off point patient of 20.60% chance to be considered high risk.

The predictor model reached high risk of 73.50% accuracy; 65.9% death; 66.50% 30-day readmission, and 71.20% ≥10-day length of stay. The negative predictive value indicated 91.7% of high risk, 100% death, 93.5% 30-day readmission, and 96.3% ≥10-day length of stay.

Internal validation

Regarding the discrimination obtained with the validation sample, the area under the ROC curve was 0.687 (95%CI: 0.598-0.776), remaining within the considered acceptable discrimination category. The cut-off point would be slightly below that found in the previous model, at 18.5% risk, but still above the cut-off point that supports sensitivity.

DISCUSSION

Long-term hospitalization, readmission and hospital death are common in the older population, but the clinical intersections of those events are not well known. Understanding the common causes of those conditions may have a significant relevance by the possibility to avoid futures adverse outcomes and consequently higher health costs.

We are not aware of any model that can simultaneously predict these multiple outcomes, considerable gains in effectiveness and efficiency for targeting interventions to patients most likely to benefit. This model allows for early risk stratification and proactive action during hospitalization and discharge planning, providing plan of care which will be delivered by the entire care team, including doctors, nurses, social workers, physiotherapists, dietician, and other professionals.

In the predictive model construction, we obtained an area under the ROC curve of 0.772, meaning acceptable but almost excellent discrimination category. High-risk accuracy measures had a sensitivity of 73.9%; specificity 73.4%; predictive positive value (PPV) 41.5; negative predictive value (NPV) 91.7 and accuracy of 73.5. The high NPV of 91.7, confirm the great probability of the patient who does not configure a risk when the outcome result is negative.

In this study, data collection from medical records was easily performed. And standardized scale scores were applied directly from the patient and family during hospitalization. It has a potential facilitated integration with clinical practice as an aid in decision making support.(²⁹29. Walston J, Bandeen-Roche K, Buta B, Bergman H, Gill TM, Morley JE, et al. Moving frailty toward clinical practice: NIA intramural frailty science symposium summary. J Am Geriatr Soc. 2019;67(8):1559-64.)

The association between clinical disease and functional decline had already been described and those circumstance may be present in older patients at hospital settings.(²⁹29. Walston J, Bandeen-Roche K, Buta B, Bergman H, Gill TM, Morley JE, et al. Moving frailty toward clinical practice: NIA intramural frailty science symposium summary. J Am Geriatr Soc. 2019;67(8):1559-64.) This clinical and functional status may act synergically leading to poor health outcomes commonly seeing in hospitalized older adults. The cause consequence relationship between clinical and functional condition may not be so easy to be discriminated, however those situations will lead to a progressive health deterioration if not detected and intervened. In this perspective, a risk stratification tool will help to distinguish those patients which will deserve a customized plan of care aiming to avoid such consequences. Those risk factors associated with adverse prognosis at and after hospital stay will enable the implementation of immediate care interventions during hospitalization, allocation in the geriatric unit and a consistent discharge planning. These findings will allow obtaining the risk factor in a “real time” manner, to initiate some interventions by the interdisciplinary team, during their hospitalization.

The search for an instrument with good accuracy for the screening of older patients still remains, despite the various tools proposed in the literature. Evidence is clear that these risk instruments may reflect a condition of biological inability to react to acute diseases and should be analyzed as a relevant prognostic indicator. After identifying the risk, actions can be implemented, and treatments reviewed.(⁶6. Lum HD, Studenski SA, Degenholtz HB, Hardy SE. Early hospital readmission is a predictor of one-year mortality in community-dwelling older Medicare beneficiaries. J Gen Intern Med. 2012;27(11):1467-74.,³⁰30. Rozzini R, Sabatini T, Cassinadri A, Boffelli S, Ferri M, Barbisoni P, et al. Relationship between functional loss before hospital admission and mortality in elderly persons with medical illness. J Gerontol A Biol Sci Med Sci. 2005;60(9):1180-3.) In Brazil, not much information is found on how geriatric risk screening followed by comprehensive geriatric assessment (CGA) affects health outcomes of clinical patients hospitalized. In this context, some Brazilian studies cover the risk prediction hospital mortality with adjustment of comorbidity and readmission that contribute to the analysis of hospital care quality for this population.(¹²12. Aliberti MJ, Apolinario D, Suemoto CK, Melo JA, Fortes-Filho SQ, Saraiva MD, et al. Targeted geriatric assessment for fast-paced healthcare settings: development, validity, and reliability. J Am Geriatr Soc. 2018;66(4):748-54.,³¹31. Araujo EA, Lima Filho BF, Silva AC, Melo MC, Gazzola JM, Cavalcanti FA. A utilização do Índice de Barthel em idosos brasileiros: uma revisão de literatura. Rev Kairós Gerontol. 2020;23(2):217-31.,³²32. Maia FO, Duarte YA, Lebrão ML, Santos JL. Risk factors for mortality among elderly people. Rev Saude Publica. 2006;40(6):1049-56.)

Due to the complexity of health conditions in this age group, factors such as functional, cognitive, and chewing/swallowing deficiencies, as well as the number of medications impact outcomes. The number of medications showed a direct and independent relationship with the outcomes, considering that there may be a collinearity between the number of medications and diseases. We believe that multimorbidity has influenced the outcomes in this study through the linearity of multimorbidity and number of medications.

Thus, clinical condition (number of medications, chewing/swallowing difficulty, diabetes) associated in a patient with functional and cognition impairment, who underwent extensive surgery, are strongly related to adverse outcomes such as higher length of stay, hospital death, and readmission within 30 days after discharge.

In this context, a CGA may be important to identify subclinical information and establish an appropriate plan of care during and after hospitalization. In addition, in a patient allocation perspective, those older patients at higher risk may benefit from geriatric wards since this vulnerable population may also suffer from other events such as delirium. For those patients, a careful monitoring, surveillance, and action from a multidisciplinary team may have an impact on those vulnerable older adults.

Among tools options, the Barthel Index is as a scale that presents more consistent results and appears to be one of the most useful markers for mortality, readmission, long hospital stays, discharge location, and can predict significant clinical results when evaluating different profiles of older patients.(¹⁴14. Ferreira MS, de Melo Franco FG, Rodrigues PS, da Silva de Poli Correa VM, Akopian ST, Cucato GG, et al. Impaired chair-to-bed transfer ability leads to longer hospital stays among elderly patients. BMC Geriatr. 2019;19(1):89.,³³33. So C, Lage DE, Slocum CS, Zafonte RD, Schneider JC. Utility of functional metrics assessed during acute care on hospital outcomes: a systematic review. P M R. 2019;11(5):522-32.,³⁴34. Studenski S. Utility of brief cognitive and physical assessments in clinical care. J Gerontol A Biol Sci Med Sci. 2017;72(1):59-60.) The present study confirmed it as a useful tool for measuring disability in health and social care settings along the care and treatment.

In Brazil, several studies identified risk factors. However, due to fast aging process, few of those associated these risk factors, such as functional disability or cognition, with the outcomes studied. Barthel is used as a tool to better assess the functionality of older people to quantify functional dependence and understand how hospitalization contributes to functional decline. There are still few scores composed within a multifactorial understanding with a global and practical assistance view.(¹⁴14. Ferreira MS, de Melo Franco FG, Rodrigues PS, da Silva de Poli Correa VM, Akopian ST, Cucato GG, et al. Impaired chair-to-bed transfer ability leads to longer hospital stays among elderly patients. BMC Geriatr. 2019;19(1):89.,³¹31. Araujo EA, Lima Filho BF, Silva AC, Melo MC, Gazzola JM, Cavalcanti FA. A utilização do Índice de Barthel em idosos brasileiros: uma revisão de literatura. Rev Kairós Gerontol. 2020;23(2):217-31.,³⁵35. Mendonça MS, Souza-Muñoz R, Vieira AT, Silva AE, Sales VC, Moreira IF. Incapacidade para atividades da vida diária em pacientes idosos à admissão hospitalar e sua relação com evolução desfavorável. Rev Med Saúde Brasília. 2016;5(1):23-41.)

Many care models focus on the disease and are primarily aimed at reducing it. On the other hand, the possibility to mitigate the clinical adverse outcome after risk stratification is not yet known. Thus, a specific intervention study may be relevant to understand the clinical impact of early risk identification.

This study has some limitations. Since it was conducted in a single private institution, it may raise questions about the general applicability of this predictive model. Private hospitals mainly cover the highest income segment of the population, and it differs from the care provided by Brazilian Public Health System (SUS - Sistema Único de Saúde), which has a much higher demand, compromising the access to quality and continuous care.(³⁶36. Veras R, Parahyba MI. O anacronismo dos modelos assistenciais para os idosos na área da saúde: desafios para o setor privado. Cad Saude Publica. 2007;23(10):2479-89.)

CONCLUSION

Identifying high-risk patients in real time may act as an early warning system that can lead to timely care interventions and safer transitions.

The present study built and validated a high-risk predictive model with acceptable fit and discrimination for these outcomes: in-hospital death, early readmission up to 30 days after discharge, or long hospital stay (10 days or more).

REFERENCES

¹
World Health Organization (WHO). Number of people over 60 years set to double by 2050: major societal changes required. Geneva: WHO; 2015 [cited 2015 Sep 30]. Available from: https://www.who.int/news/item/30-09-2015-who-number-of-people-over-60-years-set-to-double-by-2050-major-societal-changes-required
» https://www.who.int/news/item/30-09-2015-who-number-of-people-over-60-years-set-to-double-by-2050-major-societal-changes-required
²
Eurostat Statistic Explained. Population structure and ageing. Luxembourg: Eurostat; 2017 [cited 2017 June 22]. Available from: http://ec.europa.eu/eurostat/statistics-explained/index.php/Population_structure_and_ageing
» http://ec.europa.eu/eurostat/statistics-explained/index.php/Population_structure_and_ageing
³
Instituto Brasileiro de Geografia e Estatística (IBGE). Projeções e estimativas da população do Brasil e das unidades da federação. Rio de Janeiro: IBGE; 2008 [citado 2018 Jun 6]. Disponível em: https://www.ibge.gov.br/apps/populacao/projecao/
» https://www.ibge.gov.br/apps/populacao/projecao/
⁴
Instituto Brasileiro de Geografia e Estatística (IBGE). Indicadores sociodemográficos e de saúde no Brasil. Rio de Janeiro: IBGE; 2009 [citado 2018 Jun 6]. Disponível: https://www.ibge.gov.br/estatisticas/sociais/saude/9336-indicadores-sociodemograficos-e-de-saude-no-brasil.html?=&t=o-que-e
» https://www.ibge.gov.br/estatisticas/sociais/saude/9336-indicadores-sociodemograficos-e-de-saude-no-brasil.html?=&t=o-que-e
⁵
Nasri F. The aging population in Brazil. einstein (São Paulo). 2008; 6(Suppl 1): S4-6.
⁶
Lum HD, Studenski SA, Degenholtz HB, Hardy SE. Early hospital readmission is a predictor of one-year mortality in community-dwelling older Medicare beneficiaries. J Gen Intern Med. 2012;27(11):1467-74.
⁷
Hshieh TT, Yang T, Gartaganis SL, Yue J, Inouye SK. Hospital Elder Life Program: systematic review and meta-analysis of effectiveness. Am J Geriatr Psychiatry. 2018;26(10):1015-33.
⁸
Covinsky KE, Palmer RM, Counsell SR, Pine ZM, Walter LC, Chren MM. Functional status before hospitalization in acutely ill older adults: validity and clinical importance of retrospective reports. J Am Geriatr Soc. 2000;48(2):164-9.
⁹
Pilotto A, Veronese N, Daragjati J, Cruz-Jentoft AJ, Polidori MC, Mattace-Raso F, Paccalin M, Topinkova E, Siri G, Greco A, Mangoni AA, Maggi S, Ferrucci L; MPI_AGE Investigators. Using the multidimensional prognostic index to predict clinical outcomes of hospitalized older persons: a prospective, multicenter, international study. J Gerontol A Biol Sci Med Sci. 2019;74(10):1643-9.
¹⁰
Pilotto A, Gallina P, Fontana A, Sancarlo D, Bazzano S, Copetti M, et al. Development and validation of a multidimensional prognostic index for mortality based on a standardized multidimensional assessment schedule (MPI-SVaMA) in community-dwelling older subjects. J Am Med Dir Assoc. 2013;14(4):287-92.
¹¹
Bahrmann A, Benner L, Christ M, Bertsch T, Sieber CC, Katus H, et al. The Charlson Comorbidity and Barthel Index predict length of hospital stay, mortality, cardiovascular mortality and rehospitalization in unselected older patients admitted to the emergency department. Aging Clin Exp Res. 2019;31(9):1233-42.
¹²
Aliberti MJ, Apolinario D, Suemoto CK, Melo JA, Fortes-Filho SQ, Saraiva MD, et al. Targeted geriatric assessment for fast-paced healthcare settings: development, validity, and reliability. J Am Geriatr Soc. 2018;66(4):748-54.
¹³
Dutra MM, Moriguchi EH, Lampert MA, Poli-de-Figueiredo CE. Predictive validity of a questionnaire to identify older adults at risk for hospitalization. Rev Saude Publica. 2011;45(1):106-12.
¹⁴
Ferreira MS, de Melo Franco FG, Rodrigues PS, da Silva de Poli Correa VM, Akopian ST, Cucato GG, et al. Impaired chair-to-bed transfer ability leads to longer hospital stays among elderly patients. BMC Geriatr. 2019;19(1):89.
¹⁵
Minosso JS, Amendola F, Alvarenga MR, Oliveira MA. Validation of the Barthel Index in elderly patients attended in outpatient clinics, in Brazil. Acta Paul Enferm. 2010;23(2):218-23.
¹⁶
Mahoney FI, Barthel DW. Functional evaluation: the Barthel Index. Md State Med J. 1965;14:61-5.
¹⁷
Pfeiffer E. A short portable mental status questionnaire for the assessment of organic brain deficit in elderly patients. J Am Geriatr Soc. 1975;23(10):433-41.
¹⁸
Blay SL, Ramos LR, Mari JJ. Validity of a Brazilian version of the Older Americans Resources and Services (OARS) mental health screening questionnaire. J Am Geriatr Soc. 1988;36(8):687-92.
¹⁹
Burnham KP, Anderson DR, editors. Model selection and multimodel inference. New York: Springer; 2002. p. 49-97.
²⁰
Steyerberg EW, Vickers AJ, Cook NR, Gerds T, Gonen M, Obuchowski N, et al. Assessing the performance of prediction models: a framework for traditional and novel measures. Epidemiology. 2010;21(1):128-38.
²¹
Neter J, Kutner MH, Nachtsheim CJ, Wasserman W. Applied linear statistical models. 4th ed. Chicago Illinois: McGraw-Hill; 1996. p. 406-9.
²²
Altman DG, Vergouwe Y, Royston P, Moons KG. Prognosis and prognostic research: validating a prognostic model. BMJ. 2009;338:b605.
²³
Silva TJ, Jerussalmy CS, Farfel JM, Curiati JA, Jacob-Filho W. Predictors of in-hospital mortality. Clinics (São Paulo). 2009;64(7):613-8.
²⁴
Raval AD, Zhou S, Wei W, Bhattacharjee S, Miao R, Sambamoorthi U. 30-day readmission among elderly medicare beneficiaries with type 2 diabetes. Popul Health Manag. 2015;18(4):256-64.
²⁵
Low LL, Liu N, Lee KH, Ong ME, Wang S, Jing X, et al. FAM-FACE-SG: a score for risk stratification of frequent hospital admitters. BMC Med Inform Decis Mak. 2017;17(1):35.
²⁶
Maurer PP, Ballmer PE. Hospital readmissions -- are they predictable and avoidable? Swiss Med Wkly. 2004;134(41-42):606-11.
²⁷
Crowson CS, Atkinson EJ, Therneau TM. Assessing calibration of prognostic risk scores. Stat Methods Med Res. 2016;25(4):1692-706. Erratum in: Stat Methods Med Res. 2017;6(4):1992-93.
²⁸
Royston P, Moons KG, Altman DG, Vergouwe Y. Prognosis and prognostic research: developing a prognostic model. BMJ. 2009;338:b604.
²⁹
Walston J, Bandeen-Roche K, Buta B, Bergman H, Gill TM, Morley JE, et al. Moving frailty toward clinical practice: NIA intramural frailty science symposium summary. J Am Geriatr Soc. 2019;67(8):1559-64.
³⁰
Rozzini R, Sabatini T, Cassinadri A, Boffelli S, Ferri M, Barbisoni P, et al. Relationship between functional loss before hospital admission and mortality in elderly persons with medical illness. J Gerontol A Biol Sci Med Sci. 2005;60(9):1180-3.
³¹
Araujo EA, Lima Filho BF, Silva AC, Melo MC, Gazzola JM, Cavalcanti FA. A utilização do Índice de Barthel em idosos brasileiros: uma revisão de literatura. Rev Kairós Gerontol. 2020;23(2):217-31.
³²
Maia FO, Duarte YA, Lebrão ML, Santos JL. Risk factors for mortality among elderly people. Rev Saude Publica. 2006;40(6):1049-56.
³³
So C, Lage DE, Slocum CS, Zafonte RD, Schneider JC. Utility of functional metrics assessed during acute care on hospital outcomes: a systematic review. P M R. 2019;11(5):522-32.
³⁴
Studenski S. Utility of brief cognitive and physical assessments in clinical care. J Gerontol A Biol Sci Med Sci. 2017;72(1):59-60.
³⁵
Mendonça MS, Souza-Muñoz R, Vieira AT, Silva AE, Sales VC, Moreira IF. Incapacidade para atividades da vida diária em pacientes idosos à admissão hospitalar e sua relação com evolução desfavorável. Rev Med Saúde Brasília. 2016;5(1):23-41.
³⁶
Veras R, Parahyba MI. O anacronismo dos modelos assistenciais para os idosos na área da saúde: desafios para o setor privado. Cad Saude Publica. 2007;23(10):2479-89.

Publication Dates

Publication in this collection
17 June 2022
Date of issue
2022

History

Received
30 Aug 2021
Accepted
6 Jan 2022

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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[5] ⁵
Nasri F. The aging population in Brazil. einstein (São Paulo). 2008; 6(Suppl 1): S4-6.

[6] ⁶
Lum HD, Studenski SA, Degenholtz HB, Hardy SE. Early hospital readmission is a predictor of one-year mortality in community-dwelling older Medicare beneficiaries. J Gen Intern Med. 2012;27(11):1467-74.

[7] ⁷
Hshieh TT, Yang T, Gartaganis SL, Yue J, Inouye SK. Hospital Elder Life Program: systematic review and meta-analysis of effectiveness. Am J Geriatr Psychiatry. 2018;26(10):1015-33.

[8] ⁸
Covinsky KE, Palmer RM, Counsell SR, Pine ZM, Walter LC, Chren MM. Functional status before hospitalization in acutely ill older adults: validity and clinical importance of retrospective reports. J Am Geriatr Soc. 2000;48(2):164-9.

[9] ⁹
Pilotto A, Veronese N, Daragjati J, Cruz-Jentoft AJ, Polidori MC, Mattace-Raso F, Paccalin M, Topinkova E, Siri G, Greco A, Mangoni AA, Maggi S, Ferrucci L; MPI_AGE Investigators. Using the multidimensional prognostic index to predict clinical outcomes of hospitalized older persons: a prospective, multicenter, international study. J Gerontol A Biol Sci Med Sci. 2019;74(10):1643-9.

[10] ¹⁰
Pilotto A, Gallina P, Fontana A, Sancarlo D, Bazzano S, Copetti M, et al. Development and validation of a multidimensional prognostic index for mortality based on a standardized multidimensional assessment schedule (MPI-SVaMA) in community-dwelling older subjects. J Am Med Dir Assoc. 2013;14(4):287-92.

[11] ¹¹
Bahrmann A, Benner L, Christ M, Bertsch T, Sieber CC, Katus H, et al. The Charlson Comorbidity and Barthel Index predict length of hospital stay, mortality, cardiovascular mortality and rehospitalization in unselected older patients admitted to the emergency department. Aging Clin Exp Res. 2019;31(9):1233-42.

[12] ¹²
Aliberti MJ, Apolinario D, Suemoto CK, Melo JA, Fortes-Filho SQ, Saraiva MD, et al. Targeted geriatric assessment for fast-paced healthcare settings: development, validity, and reliability. J Am Geriatr Soc. 2018;66(4):748-54.

[13] ¹³
Dutra MM, Moriguchi EH, Lampert MA, Poli-de-Figueiredo CE. Predictive validity of a questionnaire to identify older adults at risk for hospitalization. Rev Saude Publica. 2011;45(1):106-12.

[14] ¹⁴
Ferreira MS, de Melo Franco FG, Rodrigues PS, da Silva de Poli Correa VM, Akopian ST, Cucato GG, et al. Impaired chair-to-bed transfer ability leads to longer hospital stays among elderly patients. BMC Geriatr. 2019;19(1):89.

[15] ¹⁵
Minosso JS, Amendola F, Alvarenga MR, Oliveira MA. Validation of the Barthel Index in elderly patients attended in outpatient clinics, in Brazil. Acta Paul Enferm. 2010;23(2):218-23.

[16] ¹⁶
Mahoney FI, Barthel DW. Functional evaluation: the Barthel Index. Md State Med J. 1965;14:61-5.

[17] ¹⁷
Pfeiffer E. A short portable mental status questionnaire for the assessment of organic brain deficit in elderly patients. J Am Geriatr Soc. 1975;23(10):433-41.

[18] ¹⁸
Blay SL, Ramos LR, Mari JJ. Validity of a Brazilian version of the Older Americans Resources and Services (OARS) mental health screening questionnaire. J Am Geriatr Soc. 1988;36(8):687-92.

[19] ¹⁹
Burnham KP, Anderson DR, editors. Model selection and multimodel inference. New York: Springer; 2002. p. 49-97.

[20] ²⁰
Steyerberg EW, Vickers AJ, Cook NR, Gerds T, Gonen M, Obuchowski N, et al. Assessing the performance of prediction models: a framework for traditional and novel measures. Epidemiology. 2010;21(1):128-38.

[21] ²¹
Neter J, Kutner MH, Nachtsheim CJ, Wasserman W. Applied linear statistical models. 4th ed. Chicago Illinois: McGraw-Hill; 1996. p. 406-9.

[22] ²²
Altman DG, Vergouwe Y, Royston P, Moons KG. Prognosis and prognostic research: validating a prognostic model. BMJ. 2009;338:b605.

[23] ²³
Silva TJ, Jerussalmy CS, Farfel JM, Curiati JA, Jacob-Filho W. Predictors of in-hospital mortality. Clinics (São Paulo). 2009;64(7):613-8.

[24] ²⁴
Raval AD, Zhou S, Wei W, Bhattacharjee S, Miao R, Sambamoorthi U. 30-day readmission among elderly medicare beneficiaries with type 2 diabetes. Popul Health Manag. 2015;18(4):256-64.

[25] ²⁵
Low LL, Liu N, Lee KH, Ong ME, Wang S, Jing X, et al. FAM-FACE-SG: a score for risk stratification of frequent hospital admitters. BMC Med Inform Decis Mak. 2017;17(1):35.

[26] ²⁶
Maurer PP, Ballmer PE. Hospital readmissions -- are they predictable and avoidable? Swiss Med Wkly. 2004;134(41-42):606-11.

[27] ²⁷
Crowson CS, Atkinson EJ, Therneau TM. Assessing calibration of prognostic risk scores. Stat Methods Med Res. 2016;25(4):1692-706. Erratum in: Stat Methods Med Res. 2017;6(4):1992-93.

[28] ²⁸
Royston P, Moons KG, Altman DG, Vergouwe Y. Prognosis and prognostic research: developing a prognostic model. BMJ. 2009;338:b604.

[29] ²⁹
Walston J, Bandeen-Roche K, Buta B, Bergman H, Gill TM, Morley JE, et al. Moving frailty toward clinical practice: NIA intramural frailty science symposium summary. J Am Geriatr Soc. 2019;67(8):1559-64.

[30] ³⁰
Rozzini R, Sabatini T, Cassinadri A, Boffelli S, Ferri M, Barbisoni P, et al. Relationship between functional loss before hospital admission and mortality in elderly persons with medical illness. J Gerontol A Biol Sci Med Sci. 2005;60(9):1180-3.

[31] ³¹
Araujo EA, Lima Filho BF, Silva AC, Melo MC, Gazzola JM, Cavalcanti FA. A utilização do Índice de Barthel em idosos brasileiros: uma revisão de literatura. Rev Kairós Gerontol. 2020;23(2):217-31.

[32] ³²
Maia FO, Duarte YA, Lebrão ML, Santos JL. Risk factors for mortality among elderly people. Rev Saude Publica. 2006;40(6):1049-56.

[33] ³³
So C, Lage DE, Slocum CS, Zafonte RD, Schneider JC. Utility of functional metrics assessed during acute care on hospital outcomes: a systematic review. P M R. 2019;11(5):522-32.

[34] ³⁴
Studenski S. Utility of brief cognitive and physical assessments in clinical care. J Gerontol A Biol Sci Med Sci. 2017;72(1):59-60.

[35] ³⁵
Mendonça MS, Souza-Muñoz R, Vieira AT, Silva AE, Sales VC, Moreira IF. Incapacidade para atividades da vida diária em pacientes idosos à admissão hospitalar e sua relação com evolução desfavorável. Rev Med Saúde Brasília. 2016;5(1):23-41.

[36] ³⁶
Veras R, Parahyba MI. O anacronismo dos modelos assistenciais para os idosos na área da saúde: desafios para o setor privado. Cad Saude Publica. 2007;23(10):2479-89.

Factors	Construction (n=340)	Validation (n=168)
Hospital outcome
Discharge	97.9 (333)	98.8 (166)
Death	2.1 (7)	1.2 (2)
Permanence (days)
Median [1-3 quartiles]	4.00 [3.00-7.00]	3.00 [2.00-6.00]
Permanence over 10 days	12.1 (41)	14.9 (25)
Time until readmission, days (n=143)
Median [1-3 quartiles]	32.00 [10.00-59.00]	28.50 [6.00-50.25]
Readmission in 30 days	10.9 (37)	13.1 (22)
Sex
Women	44.4 (151)	44.6 (75)
Men	55.6 (189)	55.4 (93)
Number of diagnostics
Median [1-3 quartiles]	3.00 [2.00-4.00]	3.00 [2.00-4.00]
Stroke	5.9 (20)	8.3 (14)
Chronic pulmonary obstructive disease	2.6 (9)	4.2 (7)
Neoplasia	22.4 (76)	26.2 (44)
Dialytic chronic renal failure	2.4 (8)	4.2 (7)
Congestive heart failure	7.4 (25)	13.1 (22)
DM	27.4 (93)	30.4 (51)
Dementia	6.8 (23)	6.0 (10)
Hepatopathy	3.8 (13)	3.6 (6)
Acquired immunodeficiency disease syndrome	0.0 (0)	0.0 (0)
Coronary insufficiency	12.1 (41)	8.9 (15)
Total cognitive score
Median [1-3 quartiles]	0.00 [0.00-1.00]	0.00 [0.00-1.00]
Normal cognitive functioning	77.9 (265)	78.0 (131)
Moderate impairment	5.3 (18)	6.5 (11)
Severe impairment	3.2 (11)	2.4 (4)
Unable to respond	13.5 (46)	13.1 (22)
Last month’s Barthel Index
Median [1-3 quartiles]	95.00 [80.00-100.00]	97.50 [85.00-100.00]
Independence	45.6 (155)	50.0 (84)
Very mild dependence	17.4 (59)	14.3 (24)
Moderate dependence	19.1 (65)	22.6 (38)
Severe dependency	10.6 (36)	6.0 (10)
Total dependence	7.4 (25)	7.1 (12)
Actual month’s Barthel Index
Median [1-3 quartiles]	85.00 [60.00-100.00]	85.00 [60.00-100.00]
Independence	26.5 (90)	26.2 (44)
Very mild dependence	7.9 (27)	7.7 (13)
Moderate dependence	37.9 (129)	40.5 (68)
Severe dependency	17.9 (61)	16.7 (28)
Total dependence	9.7 (33)	8.9 (15)
Admission factors or patient status
Hemoglobin
Median [1-3 quartiles]	12.70 [11.57-13.80]	12.80 [11.50-13.90]
Medications number
Median [1-3 quartiles]	5.00 [3.00-8.00]	6.00 [4.00-8.00]
Hospitalization in 6 months
Median [1-3 quartiles]	0.00 [0.00-1.00]	0.00 [0.00-1.00]
Origin
Long permanence institution	0.9 (3)	0.0 (0)
Residence	99.1 (337)	100.0 (168)
Live alone	18.8 (64)	16.1 (27)
Delirium	10.0 (34)	10.7 (18)
Incontinence	37.4 (127)	35.7 (60)
Falls	20.9 (71)	20.8 (35)
Nutritional risk	65.6 (223)	67.3 (113)
Weight loss	1.2 (4)	0.0 (0)
Nutritional education	0.9 (3)	1.2 (2)
Difficulty in chewing/Swallowing	3.2 (11)	2.4 (4)
Lowering awareness	2.4 (8)	3.0 (5)
Fasting more than 72 hours	1.8 (6)	1.8 (3)
Diarrhea	1.2 (4)	1.8 (3)
Newly diagnosed/decompensated DM	3.5 (12)	3.0 (5)
Nausea/Vomiting	0.3 (1)	0.6 (1)
Risk or presence of hypoglycemia	21.2 (72)	28.0 (47)
Extensive surgery*	4.1 (14)	0.6 (1)
Polytrauma/Sepsis/Ventilation	0.3 (1)	1.2 (2)
Ulcer	7.4 (25)	11.9 (20)
Food allergy or specific diet	49.1 (167)	47.6 (80)
Enteral/Parenteral nutrition	2.1 (7)	3.6 (6)

Factors	High risk		p value
Factors	No (n=271)	Yes (n=79)	p value
Gender
Women	42.8 (116)	50.7 (35)
Men	57.2 (155)	49.3 (34)	0.238
Diagnosis number
Median [1-3 quartiles]	3.00 [2.00-4.00]	3.00 [2.00-4.00]	0.006
Stroke	4.1 (11)	13.0 (9)	0.007
Chronic pulmonary obstructive disease	2.6 (7)	2.9 (2)	0.884
Neoplasia	22.9 (62)	20.3 (14)	0.645
Dialytic chronic renal failure	3.0 (8)	0.0 (0)	-
Congestive heart failure	5.9 (16)	13.0 (9)	0.048
DM	24.4 (66)	39.1 (27)	0.015
Dementia	4.1 (11)	17.4 (12)	<0.001
Hepatopathy	4.1 (11)	2.9 (2)	0.655
AIDS	0.0 (0)	0.0 (0)	-
Coronary insufficiency	11.8 (32)	13.0 (9)	0.779
Hemoglobin
Median [1-3 quartiles]	12.70 [11.65-13.80]	12.30 [11.10-13.50]	0.276
Medications number
Median [1-3 quartiles]	5.00 [3.00-8.00]	7.00 [5.00-9.00]	<0.001
Hospitalization in 6 months
Median [1-3 quartiles]	0.00 [0.00-1.00]	0.00 [0.00-1.00]	0.187
Origin
Long permanence institution	0.7 (2)	1.4 (1)
Residence	99.3 (269)	98.6 (68)	0.58
Live alone	18.1 (49)	21.7 (15)	0.488
Delirium	7.7 (21)	18.8 (13)	0.008
Incontinence	33.2 (90)	53.6 (37)	0.002
Falls	20.3 (55)	23.2 (16)	0.598
Nutritional risk	62.0 (168)	79.7 (55)	0.007
Weight loss	1.5 (4)	0.0 (0)	-
Nutritional education	0.4 (1)	2.9 (2)	0.09
Difficulty in chewing/Swallowing	1.5 (4)	10.1 (7)	0.002
Lowering awareness	0.7 (2)	8.7 (6)	0.002
Fasting + 72 hours	2.2 (6)	0.0 (0)	-
Diarrhea	1.1 (3)	1.4 (1)	0.814
Newly diagnosed/decompensated DM	3.0 (8)	5.8 (4)	0.262
Nausea/Vomiting	0.0 (0)	1.4 (1)	-
Risk or presence of hypoglycemia	19.2 (52)	29.0 (20)	0.078
Extensive surgery*	3.3 (9)	7.2 (5)	0.153
Polytrauma/Sepsis/Ventilation	0.0 (0)	1.4 (1)	-
Ulcer	5.2 (14)	15.9 (11)	0.004
Food allergy or specific diet	46.9 (127)	58.0 (40)	0.101
Enteral/Parenteral nutrition	1.8 (5)	2.9 (2)	0.585
Total cognitive score
Median [1-3 quartiles]	0.00 [0.00-1.00]	0.00 [0.00-1.00]	0.822
Normal cognitive functioning	83.4 (226)	56.5 (39)
Moderate impairment	5.2 (14)	5.8 (4)	0.395
Severe impairment	3.0 (8)	4.3 (3)	0.267
Unable to respond	8.5 (23)	33.3 (23)	<0.001
Association between high risk and the current and last month’s Barthel Index
Current - last month Barthel Index
Median [1-3 quartiles]	0.00 [-20.00-0.00]	0.00 [-10.00-0.00]	0.476
Worse Barthel Index
No	50.6 (137)	58.0 (40)
Yes	49.4 (134)	42.0 (29)	0.272

Variables	Estimated coefficient	Odds ratios (95%CI)	p value
Intercept	-3.2305		<0.001
Current Barthel Index
Independence (reference)		1.00
Mild or moderate dependence	0.6608	1.94 (0.81-4.64)	0.138
Severe dependence	1.4876	4.43 (1.70-11.54)	0.002
Total dependence	1.4748	4.37 (1.40-13.60)	0.011
Number of medicines (U)	0.0896	1.09 (1.01-1.18)	0.022
Chewing/Swallowing difficulty (Present)	1.9226	6.84 (1.73-27.03)	0.006
DM (Present)	0.6868	1.99 (1.05-3.77)	0.035
Extensive surgery (Present)	1.2131	3.36 (0.96-11.85)	0.059
Dementia (Present)	0.8903	2.44 (0.91-6.53)	0.077