Prevalence of falls and associated factors in community-dwelling older Brazilians: a systematic review and meta-analysis

Elias Filho, José; Borel, Wyngrid Porfirio; Diz, Juliano Bergamaschine Mata; Barbosa, Alexandre Wesley Carvalho; Britto, Raquel Rodrigues; Felício, Diogo Carvalho

doi:10.1590/0102-311x00115718

Abstracts

Falls determine huge epidemiological, clinical, and economic burden in the older population worldwide, presenting high odds of severe disability. The present study aimed to estimate the prevalence of falls and associated factors in older Brazilians using a systematic review with meta-analysis. Searches were performed in SciELO, PubMed, LILACS, Web of Science, Scopus and PsycINFO databases with no date or language restrictions. Studies on community-dwelling older persons aged ≥ 60 years from both sexes and with a sample size of ≥ 300 participants included. Exclusion criteria were studies conducted specifically for older adults diagnosed with chronic disabling diseases that predispose them to falls. Risk of bias of included studies was assessed using a critical appraisal tool focusing on prevalence designs. A random-effects meta-analysis was used to pool the prevalence of falls across studies. Exploratory analysis was conducted examining subgroup estimates, prevalence ratios and meta-regression. Thirty-seven studies involving 58,597 participants were included. Twelve-month prevalence of falls was 27% (95%CI: 24.3-30.0), with significantly higher estimates in female than male (PR = 1.57; 95%CI: 1.32-1.86), in age group ≥ 80 years than age group 60-69 years (PR = 1.46; 95%CI: 1.15-1.84), and in participants from the Central region than participants from the South region (PR = 1.36; 95%CI: 1.10-1.69) of Brazil. Risk of bias scores did not impact heterogeneity in the 12-month meta-analysis. These estimates strongly support evidence-based public interventions to prevent falls in older Brazilians, especially in women and the oldest-old population.

Keywords:
Accidental Falls; Aged; Prevalence

As quedas em idosos resultam em uma enorme carga epidemiológica, clínica e econômica nesta faixa etária no mundo inteiro, com alto risco de incapacitação grave. O estudo teve como objetivo estimar a prevalência de quedas e fatores associados entre idosos brasileiros, através de uma revisão sistemática com meta-análise. Foram realizadas buscas nas bases de dados SciELO, PubMed, LILACS, Web of Science, Scopus e PsycINFO, sem restrição de idioma ou ano de publicação. Foram incluídos estudos sobre idosos de ambos os sexos com 60 anos ou mais, residindo na comunidade, com amostras de ≥ 300 participantes em cada estudo. Os critérios de exclusão foram estudos realizados especificamente em idosos diagnosticados com doenças crônicas incapacitantes que predispõem a quedas. O risco de viés dos estudos incluídos foi avaliado com uma ferramenta de avaliação crítica focada em desenhos de prevalência. Foi utilizada uma meta-análise de efeitos aleatórios para combinar as prevalências de quedas entre estudos. A análise exploratória foi realizada pela investigação das estimativas de subgrupos, razões de prevalência e meta-regressão. Foram incluídos 37 estudos, com um total de 58.597 participantes. A prevalência de quedas nos últimos 12 meses foi de 27% (IC95%: 24,3-30,0), com estimativas significativamente mais altas em mulheres (RP = 1,57; IC95%: 1,32-1,86), na faixa etária ≥ 80 anos comparado com 60-69 anos (RP = 1,46; IC95%: 1,15-1,84) e em idosos da Região Centro-oeste, comparado com os da Região Sul (RP = 1,36; IC95%: 1,10-1,69). O tamanho do risco de viés não impactou a heterogeneidade na meta-análise de 12 meses. Essas estimativas apoiam fortemente as intervenções públicas baseadas em evidências para prevenir quedas em idosos, especialmente nas mulheres e nos idosos mais velhos.

Palavras-chave:
Acidentes por Quedas; Idoso; Prevalência

En todo el mundo, las caídas representan una carga grande epidemiológica, clínica, y económicamente en la población mayor, presentando altas tasas de discapacidad severa. El objetivo de este estudio fue estimar la prevalencia de las caídas y los factores asociados en ancianos brasileños, usando una revisión sistemática con metaanálisis. Las búsquedas se realizaron en bases de datos como: SciELO, PubMed, LILACS, Web of Science, Scopus y PsycINFO sin restricciones de fecha o lengua. Se incluyeron estudios sobre ancianos residentes en comunidades con una edad ≥ 60 años de ambos sexos y con un tamaño de la muestra de ≥ 300 participantes. Los criterios de exclusión fueron estudios dirigidos específicamente a adultos mayores, diagnosticados con enfermedades crónicas incapacitantes que les predisponen a caídas. El riesgo de sesgo en los estudios incluidos fue evaluado usando una herramienta de evaluación crítica, centrándose en los diseños de prevalencia. Se utilizó un metaanálisis de efectos aleatorios para agrupar la prevalencia de caídas a través de estos estudios. Se realizó un análisis exploratorio, examinando estimaciones de subgrupos, tasas de prevalencia y meta-regresión. Se incluyeron treinta y siete estudios, implicando a 58.597 participantes. En doce meses la prevalencia de caídas fue 27% (IC95%: 24,3-30,0), con estimaciones significativamente más altas en mujeres que en hombres (PR = 1,57; IC95%: 1,32-1,86), en el grupo de edad ≥ 80 años, en comparación con el grupo de edad de 60-69 años (PR = 1,46; IC95%: 1,15-1,84), y en participantes procedentes de la región centro-oeste, respecto a los participantes de la región sur (PR = 1,36; IC95%: 1,10-1,69) de Brasil. El riesgo de sesgo en los resultados no impactó la heterogeneidad en el metaanálisis de 12 meses. Estas estimaciones apoyan fuertemente las intervenciones públicas basadas en evidencias para prevenir caídas en ancianos brasileños, especialmente en mujeres y en la población más anciana.

Palabras-clave:
Accidentes por Caídas; Anciano; Prevalencia

Introduction

Falls have multifactor causes in old age and may occur due to decreased muscle mass and strength, reduced mobility, flexibility, visual acuity, psychological aspects such as depression and fear of falling, cognitive decline, gait changes, postural disorders and body imbalance ¹1. Silva Gama ZA, Gomez Conesa A, Sobral Ferreira M. Epidemiology of falls in the elderly in Spain: a systematic review, 2007. Rev Esp Salud Pública 2008; 82:43-55.^,²2. Hartholt KA, van Beeck EF, Polinder S, van der Velde N, van Lieshout EM, Panneman MJ, et al. Societal consequences of falls in the older population: injuries, healthcare costs, and long-term reduced quality of life. J Trauma 2011; 71:748-53.. In addition, the literature highlights extrinsic factors such as inadequate lighting, type of flooring, roadblocks and uneven terrain ³3. Caberlon IC, Bós ÂJG. Diferenças sazonais de quedas e fraturas em idosos gaúchos. Ciênc Saúde Colet 2015; 20:3743-52.^,⁴4. Ferretti F, Lunardi D, Bruschi L. Causes and consequences of fall among elderly people at home. Fisioter Mov 2013; 26:753-62..

According to the most recent public data collected over a five-year period, the number of falls in older Brazilians treated at the Brazilian Unified National Health System (SUS) facilities and subsequently hospitalized was 399,681, costing the Ministry of Health a total of BRL 464,874,275.91 (≈ USD 138,002,773.85) ⁵5. Barros IFO, Pereira MB, Weiller TH, Anversa ETR. Internações hospitalares por quedas em idosos brasileiros e os custos correspondentes no âmbito do Sistema Único de Saúde. Rev Kairós 2015; 18:63-80.. A study conducted in Bahia State in 2014, characterized hospitalizations and the cost of falls in older persons and reported a total of 4,851 hospitalizations, an average stay of seven days, and total costs of BRL 5,842,576.52 (≈ USD 1,734,498.68) ⁶6. Andrade IR, Souza EA, Luz LA, Pinto Junior E. Características e gastos com hospitalizações por quedas em idosos na Bahia. J Health Sci Inst 2017; 35:28-31..

The need to adopt educational and preventive measures aimed at health promotion is recognized in Brazil. Multi-sector public policies geared to the care of the older population have been recommended for several decades ⁷7. Brasil. Lei nº 8.842, de 4 de janeiro de 1994. Dispõe sobre a Política Nacional do Idoso, cria o Conselho Nacional do Idoso e dá outras providências. Diário Oficial da União 1994; 5 jan.^,⁸8. Ministério da Saúde. Portaria GM nº 1.395, de 9 de dezembro de 1999, que aprova a Política Nacional de Saúde do Idoso e dá outras providências. Diário Oficial da União 1999; 13 dec.^,⁹9. Brasil. Lei nº 10.741, de 1º de outubro de 2003. Dispõe sobre o Estatuto do Idoso e dá outras providências. Diário Oficial da União 2003; 3 oct.^,¹⁰10. Brasil. Constituição da República Federativa do Brasil. Brasília: Senado Federal; 1988.. However, policy initiatives should be based on known problems that affect a target population. Studies on fall prevalence in older Brazilians have shown inconsistent results perhaps because it is an extensive country or due to socioeconomic differences between regions. The prevalence was 53.6% in the city of Natal (Rio Grande do Norte State) ¹¹11. Santos RKM, Maciel ACC, Britto HMJ, Lima JCC, Souza TO. Prevalência e fatores associados ao risco de quedas em idosos adscritos a uma Unidade Básica de Saúde do município de Natal, RN, Brasil. Ciênc Saúde Colet 2015; 20:3753-62., 32.1% in the city of Juiz de Fora (Minas Gerais State) ¹²12. Cruz DT, Ribeiro LC, Vieira MT, Teixeira MTB, Bastos RR, Leite ICG. Prevalence of falls and associated factors in elderly individuals. Rev Saúde Pública 2012; 46:138-46., 16.1% in the city of São Paulo ¹³13. Zazzetta MS, Gomes GA, Orlandi FS, Gratao AC, Vasilceac FA, Gramani-Say K, et al. Identifying frailty levels and associated factors in a population living in the context of poverty and social vulnerability. J Frailty Aging 2017; 6:29-32., and 34.8% in South and Northeast regions ¹⁴14. Siqueira FV, Facchini LA, Piccini RX, Tomasi E, Thumé E, Silveira DS, et al. Prevalência de quedas em idosos e fatores associados. Rev Saúde Pública 2007; 41:749-56..

A robust study with a representative sample assessed the prevalence of falls in the urban areas of 100 municipalities in 23 Brazilian States, including 6,616 older participants aged ≥ 60 years ¹⁵15. Siqueira FV, Facchini LA, Silveira DS, Piccini RX, Tomasi E, Thume E, et al. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cad Saúde Pública 2011; 27:1819-26.. The municipalities were selected based on data from the official 2000 census. The prevalence of falls was estimated at 27.6% ¹⁵15. Siqueira FV, Facchini LA, Silveira DS, Piccini RX, Tomasi E, Thume E, et al. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cad Saúde Pública 2011; 27:1819-26.. Scientific evidence on falls is essential to guide clinical practice, research and health policies.

From the authors’ knowledge, there is no systematic review on the prevalence of falls in older adults living in Brazil. As such, the aim of the present study was to conduct a large-scale systematic review and meta-analysis by estimating the prevalence of falls and examining associated factors in community-dwelling Brazilian people aged 60 years and older.

Materials and methods

Study design and guidelines

This is a systematic review and meta-analysis. The review protocol was registered at the International Prospective Register of Systematic Reviews (PROSPERO) under number CRD42018092326. All the methodology followed recommendations contained in the Joanna Briggs Institute Reviewers’ Manual (The Systematic Review of Prevalence and Incidence Data) ¹⁶16. Munn Z, Moola S, Lisy K, Riitano D. The Joanna Briggs Institute Reviewers' Manual 2014. The systematic review of prevalence and incidence data. Adelaide: The Joanna Briggs Institute; 2014.^,¹⁷17. Munn Z, Moola S, Riitano D, Lisy K. The development of a critical appraisal tool for use in systematic reviews addressing questions of prevalence. Int J Health Policy Manag 2014; 3:123-8., MOOSE Group (Meta-analysis of Observational Studies in Epidemiology) ¹⁸18. Stroup DF, Berlin JA, Morton SC, Olkin I, Williamson GD, Rennie D, et al. Meta-analysis of observational studies in epidemiology: a proposal for reporting. Meta-analysis Of Observational Studies in Epidemiology (MOOSE) group. JAMA 2000; 283:2008-12., and Cochrane Collaboration ¹⁹19. Higgins JP, Green S, editors. Cochrane handbook for systematic reviews of interventions, Version 5.1.0 [update March 2011]. http://handbook.cochrane.org/ (accessed on 12/Jan/2019).
http://handbook.cochrane.org/... . The review was reported according to the PRISMA Checklist (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) ²⁰20. Moher D, Liberati A, Tetzlaff J, Altman DG. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. J Clin Epidemiol 2009; 62:1006-12..

Search strategy

Searches were conducted until February 2019 in SciELO, PubMed, LILACS, Web of Science, Scopus and PsycINFO databases with no date or language restrictions. Manual searches were also performed in specialized journals and in the reference list of eligible studies. The following descriptors and combinations were used: falls OR falling OR falls, accidental OR accidental AND falls OR fall, accidental OR slip and fall OR fall and slip AND aged OR aging OR older OR elderly OR ancient OR former OR advanced in years OR gray-haired AND Brazil OR Brasil OR Brazilian OR Latin America OR South America OR America (see supplementary data in Appendix 1 - http://cadernos.ensp.fiocruz.br/site/public_site/arquivo/supl-1-e00115718_8332.pdf).

Eligibility criteria

Inclusion criteria were articles on community-dwelling older Brazilians from both sexes, aged 60 years and older whose primary or secondary outcome was point-, period-, or lifetime-prevalence of falls. The following formula was used to estimate sample size:

Z2*P(1-P)D2

where Z is the value of Z-statistic for the confidence level (95%), P is the expected prevalence, estimated at 26%, and D is the acceptable error (0.5%) ²¹21. Arya R, Antonisamy B, Kumar S. Sample size estimation in prevalence studies. Indian J Pediatr 2012; 79:1482-8.. The expected prevalence was based on an earlier study with older Brazilians ¹⁵15. Siqueira FV, Facchini LA, Silveira DS, Piccini RX, Tomasi E, Thume E, et al. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cad Saúde Pública 2011; 27:1819-26.. Based on this estimate, studies with ≥ 300 participants were included.

Exclusion criteria were studies conducted specifically with older patients diagnosed with chronic disabling conditions such as Parkinson’s disease, stroke, dementia, cancer, diabetes, chronic obstructive pulmonary disease, kidney failure requiring hemodialysis, osteoporosis, rheumatoid arthritis, and osteoarthritis. Previous studies have shown that the morbidities and their coexistence predispose to a greater risk of falling in old age ¹1. Silva Gama ZA, Gomez Conesa A, Sobral Ferreira M. Epidemiology of falls in the elderly in Spain: a systematic review, 2007. Rev Esp Salud Pública 2008; 82:43-55.^,¹²12. Cruz DT, Ribeiro LC, Vieira MT, Teixeira MTB, Bastos RR, Leite ICG. Prevalence of falls and associated factors in elderly individuals. Rev Saúde Pública 2012; 46:138-46.^,¹³13. Zazzetta MS, Gomes GA, Orlandi FS, Gratao AC, Vasilceac FA, Gramani-Say K, et al. Identifying frailty levels and associated factors in a population living in the context of poverty and social vulnerability. J Frailty Aging 2017; 6:29-32..

Data selection and extraction

Two independent reviewers (J.E.F. and W.P.B.) screened titles and abstracts of all retrieved citations for checking eligibility. Full-text articles were accessed for review if they met the inclusion criteria. When more than one study reported prevalence of falls using the same sample, only the study with the largest sample was included. The authors of original studies were contacted via e-mail to ask any clarifying questions and/or to obtain unreported data. Information on the study ID, geographical region, sample characteristics, and prevalence estimates by total and by sex were extracted to a standardized form. Disagreements were resolved through consensus.

Risk of bias assessment

Risk of bias of each included study was assessed independently by two reviewers (J.E.F. and W.P.B.) using a tool developed and validated by Munn et al. ¹⁷17. Munn Z, Moola S, Riitano D, Lisy K. The development of a critical appraisal tool for use in systematic reviews addressing questions of prevalence. Int J Health Policy Manag 2014; 3:123-8. for addressing prevalence studies (Critical Appraisal Checklist for Studies Reporting Prevalence Data). This is a 10-item checklist including questions on sample details (e.g. recruitment and size), data collection (e.g. measurements and instruments), and statistical procedures (e.g. methods and analysis) with Yes, Unclear, No, and Not applicable as response options. Yes and No were interpreted as “low” and “high” risk of bias, respectively (see supplementary data in Appendix 2 - http://cadernos.ensp.fiocruz.br/site/public_site/arquivo/supl-2-e00115718_2106.pdf).

For the item five (coverage of the identified sample) of the checklist, a response rate of at least 70% was considered adequate ²²22. Loney PL, Chambers LW, Bennett KJ, Roberts JG, Stratford PW. Critical appraisal of the health research literature: prevalence or incidence of a health problem. Chronic Dis Can 1998; 19:170-6., while for the item nine (subgroup identification and analysis), prevalence estimate by at least sex and age group (e.g. 60-69, 70-79, ≥ 80 years) was considered essential to fulfill such item as low-risk, when appropriate ²³23. Chinnakali P, Yadav K, Singh AK. Importance of reporting age-adjusted prevalence in epidemiological studies. N Am J Med Sci 2012; 4:107-8.. A third reviewer (D.C.F. or J.B.M.D.) resolved all disagreements. Previous studies have found excellent between-reviewer agreement and reliability to assess risk of bias using the Munn et al. checklist: Cohen’s kappa ranging from 0.65 to 0.78, and intraclass correlation coefficient ranging from 0.83 to 0.94 ²⁴24. Kasten AP, Rosa BN, Schmit EFD, Noll M, Candotti CT. Prevalence of postural deviations in the spine in schoolchildren: a systematic review with meta-analysis. J Hum Growth Dev 2017; 27:99-108.^,²⁵25. Gorter TM, Hoendermis ES, van Veldhuisen DJ, Voors AA, Lam CS, Geelhoed B, et al. Right ventricular dysfunction in heart failure with preserved ejection fraction: a systematic review and meta-analysis. Eur J Heart Fail 2016; 18:1472-87.^,²⁶26. Leopoldino AA, Diz JB, Martins VT, Henschke N, Pereira LS, Dias RC, et al. Prevalence of low back pain in older Brazilians: a systematic review with meta-analysis. Rev Bras Reumatol Engl Ed 2016; 56:258-69..

Statistical analysis

Frequency statistics were initially applied to extracted data. Prevalence estimates were obtained using the number of falls (events) and total sample size of each included study. The estimates were expressed in percentages along with the 95% confidence intervals (95%CI). A random-effects meta-analysis was used to pool the prevalence of falls across studies ¹⁶16. Munn Z, Moola S, Lisy K, Riitano D. The Joanna Briggs Institute Reviewers' Manual 2014. The systematic review of prevalence and incidence data. Adelaide: The Joanna Briggs Institute; 2014.^,¹⁹19. Higgins JP, Green S, editors. Cochrane handbook for systematic reviews of interventions, Version 5.1.0 [update March 2011]. http://handbook.cochrane.org/ (accessed on 12/Jan/2019).
http://handbook.cochrane.org/... . Between-studies heterogeneity was assessed with the I² statistics ¹⁶16. Munn Z, Moola S, Lisy K, Riitano D. The Joanna Briggs Institute Reviewers' Manual 2014. The systematic review of prevalence and incidence data. Adelaide: The Joanna Briggs Institute; 2014.^,¹⁹19. Higgins JP, Green S, editors. Cochrane handbook for systematic reviews of interventions, Version 5.1.0 [update March 2011]. http://handbook.cochrane.org/ (accessed on 12/Jan/2019).
http://handbook.cochrane.org/... . A funnel plot was used to check for publication if more than 10 studies were included in the pooling analysis ²⁷27. Simmonds M. Quantifying the risk of error when interpreting funnel plots. Syst Rev 2015; 4:24..

An exploratory investigation was conducted by using subgroup and meta-regression analyses. Subgroup analysis pooled prevalence estimates by sex, age, and geographical regions. The association between each subgroup stratum and the prevalence estimates were checked using prevalence ratio (PR) based on Poisson regression with robust estimation of variance ²⁸28. Coutinho LM, Scazufca M, Menezes PR. Methods for estimating prevalence ratios in cross-sectional studies. Rev Saúde Pública 2008; 42:992-8.. Meta-regression examined the impact of risk of bias scores on heterogeneity of estimates. Risk of bias was treated as a study-level covariate. This analysis was conducted using a random-effects regression model ²⁹29. Jackson D, White IR, Thompson SG. Extending DerSimonian and Laird's methodology to perform multivariate random effects meta-analyses. Stat Med 2010; 29:1282-97., along with the restricted maximum likelihood (REML) method to estimate between-study variance ³⁰30. Viechtbauer W. Bias and efficiency of meta-analytic variance estimators in the random-effects model. J Educ Behav Stat 2005; 30:261-93., and the Knapp-Hartung approach to test the significance of the model ³¹31. Knapp G, Hartung J. Improved tests for a random effects meta-regression with a single covariate. Stat Med 2003; 22:2693-710.. Regression coefficient was provided with 95%CI.

Statistical significance was inferred at a two-sided p-value < 0.05. Descriptive and inferential analyses were performed with the SPSS, version 19.0 (https://www.ibm.com/). Meta-analyses were performed using the Comprehensive Meta-Analysis software version 3.3.070 (https://www.meta-analysis.com/).

Evidence synthesis

The overall quality of evidence on the prevalence findings was judged according to the four levels of the GRADE system (Grading of Recommendations Assessment, Development and Evaluation): high-, moderate-, low-, and very-low quality evidence ³²32. Balshem H, Helfand M, Schunemann HJ, Oxman AD, Kunz R, Brozek J, et al. GRADE guidelines: 3. Rating the quality of evidence. J Clin Epidemiol 2011; 64:401-6.. The high-quality level suggests that further research is very unlikely to change the prevalence estimate, while the very low-quality level indicates that the prevalence estimate is very uncertain. Two reviewers (J.E.F. and J.B.M.D.) independently judged the quality of evidence using GRADE. Disagreements were resolved through consensus-based discussions.

The quality of evidence started from the high-quality level and downgraded by one point if one of the following criteria were present: (a) serious risk of bias: pooled estimates from studies presenting “high-risk” scores in bias assessment, mainly in items 1-3 (sample information) and 5-7 (validity/reliability of estimates) of the critical appraisal checklist; (b) serious inconsistency: moderate to high heterogeneity of estimates within or among studies (I² ≥ 40%); (c) serious indirectness: fall events identified by means other than participants self-reporting ³³33. Mackenzie L, Byles J, D'Este C. Validation of self-reported fall events in intervention studies. Clin Rehabil 2006; 20:331-9. (e.g. medical records, proxy information, etc.); and (d) likely publication bias: important asymmetry detected qualitative and quantitatively, or when its analysis was not possible due to small number of included studies (i.e. k ≤ 10) ²⁷27. Simmonds M. Quantifying the risk of error when interpreting funnel plots. Syst Rev 2015; 4:24.. Imprecision was not downgraded in the present review because statistical power was ensured for prevalence estimates by including studies with ≥ 300 participants as detailed in the subheading Eligibility Criteria.

Results

Descriptive analysis

Out of the 6,408 studies, 2,210 were excluded because of duplicates. After checking titles and abstracts, 87 articles were read in their entirety. Of these, 37 articles ranging from 2002 to 2019 were included in the review (Figure 1). The 37 included studies represented 25 States and the five geographic regions of Brazil, including a total of 58,597 participants (58.7% were women), with mean age ranging from 68.0 ± 8.4 to 87.3 ± 3.7. Thirty-six studies were cross-sectional and only one study 34 presented a retrospective longitudinal design.

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Figure 1
PRISMA flow of studies through the review.

Thirty-one studies ¹²12. Cruz DT, Ribeiro LC, Vieira MT, Teixeira MTB, Bastos RR, Leite ICG. Prevalence of falls and associated factors in elderly individuals. Rev Saúde Pública 2012; 46:138-46.^,¹³13. Zazzetta MS, Gomes GA, Orlandi FS, Gratao AC, Vasilceac FA, Gramani-Say K, et al. Identifying frailty levels and associated factors in a population living in the context of poverty and social vulnerability. J Frailty Aging 2017; 6:29-32.^,¹⁴14. Siqueira FV, Facchini LA, Piccini RX, Tomasi E, Thumé E, Silveira DS, et al. Prevalência de quedas em idosos e fatores associados. Rev Saúde Pública 2007; 41:749-56.^,¹⁵15. Siqueira FV, Facchini LA, Silveira DS, Piccini RX, Tomasi E, Thume E, et al. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cad Saúde Pública 2011; 27:1819-26.^,³⁴34. Moreira MD, Costa AR, Caldas CP. The association between nursing diagnoses and the occurrence of falls observed among eldery individuals assisted in an outpatient facility. Rev Latinoam Enferm 2007; 15:311-7.^,³⁵35. Antes DL, d'Orsi E, Benedetti TRB. Circumstances and consequences of falls among the older adults in Florianopolis. EpiFloripa Aging 2009. Rev Bras Epidemiol 2013; 16:469-81.^,³⁶36. Aveiro MC, Driusso P, Barham EJ, Pavarini SCI, Oishi J. Mobilidade e risco de quedas de população idosa da comunidade de São Carlos. Ciênc Saúde Colet 2012; 17:2481-8.^,³⁷37. Berlezi EM, Farias AM, Dallazen F, Oliveira KR, Pillatt AP, Fortes CK. Analysis of the functional capacity of elderly residents of communities with a rapid population aging rate. Rev Bras Geriatr Gerontol 2016; 19:643-52.^,³⁸38. Brito TA, Coqueiro RS, Fernandes MH, Jesus CS. Determinants of falls in community-dwelling elderly: hierarchical analysis. Public Health Nurs 2014; 31:290-7.^,³⁹39. Carneiro JA, Ramos GCF, Barbosa ATF, Vieira EDS, Silva JSR, Caldeira AP. Falls among the non-institutionalized elderly in northern Minas Gerais, Brazil: prevalence and associated factors. Rev Bras Geriatr Gerontol 2016; 19:613-25.^,⁴⁰40. Coimbra AM, Ricci NA, Coimbra IB, Costallat LT. Falls in the elderly of the Family Health Program. Arch Gerontol Geriatr 2010; 51:317-22.^,⁴¹41. Confortin SC, Giehl MWC, Antes DL, Schneider IJC, d'Orsi E. Positive self-rated health in the elderly: a population-based study in the South of Brazil. Cad Saúde Pública 2015; 31:1049-60.^,⁴²42. Dantas EL, Brito GEG, Lobato IAF. Prevalência de quedas em idosos adscritos à estratégia de saúde da família do município de João Pessoa, Paraíba. Rev APS 2012; 15:67-75.^,⁴³43. Gullich I, Duro SMS, Cesar JA. Depression among the elderly: a population-based study in Southern Brazil. Rev Bras Epidemiol 2016; 19:691-701.^,⁴⁴44. Lebrão ML, Laurenti R. Saúde, bem-estar e envelhecimento: o estudo SABE no Município de São Paulo. Rev Bras Epidemiol 2005; 8:127-41.^,⁴⁵45. Lima AP, Lini EV, Tomicki C, Dellani M, Portella M, Doring M. Fatores associados à atividade física em idosos de Estação, Rio Grande do Sul: estudo de base populacional. Rev Bras Ativ Fis Saúde 2016; 20:618-25.^,⁴⁶46. Lima MCP, Simão MO, Oliveira JB, Cavariani MB, Tucci AM, Kerr-Correa F. Alcohol use and falls among the elderly in Metropolitan São Paulo, Brazil. Cad Saúde Pública 2009; 25:2603-11.^,⁴⁷47. Monego EA, Barbosa AR. Factors associated with daily sitting time in a rural community-dwelling of older adults from southern Brazil. Rev Bras Ativ Fís Saúde 2014; 19:371-81.^,⁴⁸48. Motta LB, Aguiar AC, Coutinho ESF, Huf G. Prevalência e fatores associados a quedas em idosos em um município do Rio de Janeiro. Rev Bras Geriatr Gerontol 2010; 13:83-91.^,⁴⁹49. Nascimento JS, Tavares DMS. Prevalence and factors associated with falls in the elderly. Texto Contexto Enferm 2016; 25:e0360015.^,⁵⁰50. Nunes BP, Saes MO, Siqueira FV, Tomasi E, Silva SM, Silveira DS, et al. Falls and self-assessment of eyesight among elderly people: a population-based study in a south Brazilian municipality. Arch Gerontol Geriatr 2014; 59:131-5.^,⁵¹51. Nunes DP, Nakatani AYK, Silveira EA, Bachion MM, Souza MR. Capacidade funcional, condições socioeconômicas e de saúde de idosos atendidos por equipes de Saúde da Família de Goiânia (GO, Brasil). Ciênc Saúde Colet 2010; 15:2887-98.^,⁵²52. Pereira GN, Morsch P, Lopes DGC, Trevisan MD, Ribeiro A, Navarro JHN, et al. Fatores socioambientais associados à ocorrência de quedas em idosos. Ciênc Saúde Colet 2013; 18:3507-14.^,⁵³53. Pereira SG, Santos CB, Doring M, Portella MR. Prevalence of household falls in long-lived adults and association with extrinsic factors. Rev Latinoam Enferm 2017; 25:e2900.^,⁵⁴54. Perracini MR, Ramos LR. Fatores associados a quedas em uma coorte de idosos residentes na comunidade. Rev Saúde Pública 2002; 36:709-16.^,⁵⁵55. Pimentel WRT, Pagotto V, Stopa SR, Hoffmann MCCL, Andrade FB, Souza Junior PRB, et al. Falls among Brazilian older adults living in urban areas: ELSI-Brazil. Rev Saúde Pública 2018; 52 Suppl 2:12s.^,⁵⁶56. Rodrigues IG, Fraga GP, Barros MB. Falls among the elderly: risk factors in a population-based study. Rev Bras Epidemiol 2014; 17:705-18.^,⁵⁷57. Sampaio RAC, Sampaio PYS, Castano LAA, Barbieri JF, Coelho HJJ, Arai H, et al. Cutoff values for appendicular skeletal muscle mass and strength in relation to fear of falling among Brazilian older adults: cross-sectional study. São Paulo Med J 2017; 135:434-43.^,⁵⁸58. Sandoval RA, Menezes R, Pagotto V, Nakatani AYK, Bachion M. Quedas de idosos não institucionalizados e fatores associados: estudo de base populacional em uma metrópole da região Centro-Oeste no Brasil. Rev Cient Esc Estadual Saúde Pública de Goiás Cândido Santiago 2015; 1:91-107.^,⁵⁹59. Silva SLA, Neri AL, Ferrioli E, Lourenço RA, Dias RC. Fenótipo de fragilidade: influência de cada item na determinação da fragilidade em idosos comunitários - Rede Fibra. Ciênc Saúde Colet 2016; 21:3483-92.^,⁶⁰60. Vieira LS, Gomes AP, Bierhals IO, Farías-Antúnez S, Ribeiro CG, Miranda VIA, et al. Falls among older adults in the South of Brazil: prevalence and determinants. Rev Saúde Pública 2018; 52:22. reported 12-month prevalence of falls, with estimates ranging between 6.5 and 46.9%, and three studies ⁶¹61. Campos ACV, Ferreira EF, Vargas AMD. Determinantes do envelhecimento ativo segundo a qualidade de vida e gênero. Ciênc Saúde Colet 2015; 20:2221-37.^,⁶²62. Ribeiro EE, Maia-Ribeiro EA, Brito E, Viegas K, Silva T, Mota KM, et al. Aspects of the health of Brazilian elderly living in a riverine municipality of Amazon rainforest. Revista Amazonense de Geriatria e Gerontologia 2013; 5:4-17.^,⁶³63. Stamm B, Leite M, Hildebrandt LM, Kirchner RM, Menezes LP. Cair faz parte da vida: fatores de risco para quedas em idosos. Rev Pesqui Cuid Fundam 2016; 8:5080-6. reported six-month prevalence, of falls, with estimates ranging between 21.5 and 53%. The three remaining studies reported one-month prevalence ⁶⁴64. Cesar JA, Oliveira-Filho JA, Bess G, Cegielka R, Machado J, Gonçalves TS, et al. Perfil dos idosos residentes em dois municípios pobres das regiões Norte e Nordeste do Brasil: resultados de estudo transversal de base populacional. Cad Saúde Pública 2008; 24:1835-45., three-month prevalence ⁶⁵65. Benedetti TRB, Binotto MA, Petroski EL, Gonçalves LHT. Atividade física e prevalência de quedas em idosos residentes no sul do Brasil. Rev Bras Geriatr Gerontol 2008; 11:145-54., and lifetime-prevalence ⁶⁶66. Chehuen Neto JA, Brum IV, Braga NAC, Gomes GF, Tavares PL, Silva RTC, et al. Percepção sobre queda como fator determinante desse evento entre idosos residentes na comunidade. Geriatr Gerontol Aging 2017; 11:25-31. of falls (Table 1). In this latter, the question on falls occurrence referred to the period after 60 years old ⁶⁶66. Chehuen Neto JA, Brum IV, Braga NAC, Gomes GF, Tavares PL, Silva RTC, et al. Percepção sobre queda como fator determinante desse evento entre idosos residentes na comunidade. Geriatr Gerontol Aging 2017; 11:25-31.. Descriptively, one-month prevalence was 11.4% (95%CI: 9.6-13.5) ⁶⁴64. Cesar JA, Oliveira-Filho JA, Bess G, Cegielka R, Machado J, Gonçalves TS, et al. Perfil dos idosos residentes em dois municípios pobres das regiões Norte e Nordeste do Brasil: resultados de estudo transversal de base populacional. Cad Saúde Pública 2008; 24:1835-45., three-month prevalence was 11.4% (95%CI: 9.4-13.6) ⁶⁵65. Benedetti TRB, Binotto MA, Petroski EL, Gonçalves LHT. Atividade física e prevalência de quedas em idosos residentes no sul do Brasil. Rev Bras Geriatr Gerontol 2008; 11:145-54., and lifetime-prevalence was 55.2% (95%CI: 50.7-59.7) ⁶⁶66. Chehuen Neto JA, Brum IV, Braga NAC, Gomes GF, Tavares PL, Silva RTC, et al. Percepção sobre queda como fator determinante desse evento entre idosos residentes na comunidade. Geriatr Gerontol Aging 2017; 11:25-31..

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Table 1
Basic characteristics of the 37 included studies.

Risk of bias analysis

Assessment of methodological issues and bias risk in individual included studies provided low, unclear and high risk of bias ratings (Figure 2). Summarily, from 73 to 100% of studies were scored as low-risk on sample details, i.e. checklist items 1 (k = 37), 2 (k = 27), and 3 (k = 37); 76 and 95% were scored as low-risk on participants and sample coverage information, i.e. checklist items 4 (k = 28) and 5 (k = 35), respectively; 86 and 92% were scored as low-risk on measurement criteria and statistical analysis descriptions, i.e. checklist items 6 (k = 32) and 8 (k = 34), respectively; 62% scored as low-risk and 30% scored as unclear on measurement reliability, i.e. checklist item 7 (low-risk, k = 23 and unclear, k = 11).

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Figure 2
Risk of bias summary of the included studies (k = 37).

Two checklist questions had higher number of high-risk scores: 54% of studies were scored as high-risk on subgroup reporting, i.e. checklist items 9 and 10 (k = 20). The main problems in these items were lack of data, absence of prevalence estimates by sex and age group and inconsistency between criteria for measurement of falls (e.g. considerable variation in age-range estimates across studies). Finally, the overall score for all included studies considering a mean of low-risk scores was 7.8 out of 10, ranging between 5 and 10 points (see supplementary data in Appendix 2 - http://cadernos.ensp.fiocruz.br/site/public_site/arquivo/supl-2-e00115718_2106.pdf).

Pooled analysis

Meta-analysis was performed pooling data from the 30 studies reporting at least one event of fall in the preceding 12 months and from the three studies reporting at least one event of fall in the preceding six months. The estimates revealed that at 12-month period, prevalence of falls was 27% (95%CI: 24.3-30.0) (Figure 3). No important asymmetry that could indicate publication bias was observed by inspecting funnel plot for the 12-month estimates (see supplementary data in Appendix 3 - http://cadernos.ensp.fiocruz.br/site/public_site/arquivo/supl-3-e00115718_8221.pdf). According to the GRADE system, these pooled studies provide high-quality evidence that the 12-month prevalence of falls in older Brazilians is 27%.

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Figure 3
Meta-analysis including studies reporting 12-month prevalence of falls (k = 31).

At six-month period, prevalence of falls was 34.3% (95%CI: 21.9-49.3) (see supplementary data in Appendix 4 - http://cadernos.ensp.fiocruz.br/site/public_site/arquivo/supl-4-e00115718_2678.pdf). According to the GRADE system, these pooled studies provide low-quality evidence that the six-month prevalence of falls in older Brazilians is 34.3%. The evidence was downgraded from high- to low-quality because of inconsistency between studies (I² = 40%) and impossibility to evaluate publication bias.

Exploratory analysis

Subgroup analysis evidenced that fall events at 12-month period were significantly more common in female than male (30.8% vs 19.8%, PR = 1.57), in those with ≥ 80 years than those with 60-69 years (35.7% vs 23.8%, PR = 1.46), and in participants from the Central region than participants from the South region (33.7% vs 24%, PR = 1.36) of Brazil (Table 2; and supplementary data in Appendix 5 - http://cadernos.ensp.fiocruz.br/site/public_site/arquivo/supl-5-e00115718_1544.pdf, Appendix 6 - http://cadernos.ensp.fiocruz.br/site/public_site/arquivo/supl-6-e00115718_5129.pdf, and Appendix 7 - http://cadernos.ensp.fiocruz.br/site/public_site/arquivo/supl-7-e00115718_6695.pdf). Meta-regression analysis found no association between risk of bias scores and heterogeneity regarding 12-month prevalence estimates (β = 0.055, 95%CI: -0.084-0.193, p = 0.42, R² = 0.00).

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Table 2
Results from meta-analyses of subgroups including studies reporting 12-month prevalence of falls (k = 30).

Discussion

The present study aimed at investigating the prevalence of falls and associated factors in community-dwelling older people living in Brazil. Pooled estimates evidenced a 12-month prevalence of 27%, with events occurring more frequently in women, in those with advanced age, and in participants from the Central region of Brazil. No association was found between risk of bias ratings and the 12-month prevalence estimates.

From the authors’ knowledge, this is the first meta-analysis estimating prevalence of falls in older Brazilians. The review findings revealed values very close to those observed in other countries with socioeconomic levels similar to Brazil. Twelve-month prevalence was 26.8% in Mexico ⁶⁷67. Sanchez-Garcia S, Garcia-Pena C, Salva A, Sanchez-Arenas R, Granados-Garcia V, Cuadros-Moreno J, et al. Frailty in community-dwelling older adults: association with adverse outcomes. Clin Interv Aging 2017; 12:1003-11., 28.5% in Turkey ⁶⁸68. Halil M, Ulger Z, Cankurtaran M, Shorbagi A, Yavuz BB, Dede D, et al. Falls and the elderly: is there any difference in the developing world? A cross-sectional study from Turkey. Arch Gerontol Geriatr 2006; 43:351-9., and 26.4% in South Africa ⁶⁹69. Zimba Kalula S, Ferreira M, Swingler G, Badri M, Aihie Sayer A. Prevalence of falls in an urban community-dwelling older population of Cape Town, South Africa. J Nutr Health Aging 2015; 19:1024-31.. The results also agreed with those of international studies. The prevalence was 28.4% in England ⁷⁰70. Gale CR, Cooper C, Aihie Sayer A. Prevalence and risk factors for falls in older men and women: the English Longitudinal Study of Ageing. Age Ageing 2016; 45:789-94., 24.9% in France ⁷¹71. Muir SW, Beauchet O, Montero-Odasso M, Annweiler C, Fantino B, Speechley M. Association of executive function impairment, history of falls and physical performance in older adults: a cross-sectional population-based study in eastern France. J Nutr Health Aging 2013; 17:661-5., 24.4% in Australia ⁷²72. Martin KL, Blizzard L, Srikanth VK, Wood A, Thomson R, Sanders LM, et al. Cognitive function modifies the effect of physiological function on the risk of multiple falls: a population-based study. J Gerontol A Biol Sci Med Sci 2013; 68:1091-7. and 29.1% in Spain ⁷³73. Mesas AE, Lopez-Garcia E, Rodriguez-Artalejo F. Self-reported sleep duration and falls in older adults. J Sleep Res 2011; 20(1 Pt 1):21-7.. Comparing these results with other studies, the findings also demonstrated that falling is one of the most important health outcomes that affect older Brazilians during their life, exceeding other adverse conditions such as sarcopenia (17%) ⁷⁴74. Diz JB, Leopoldino AA, Moreira BS, Henschke N, Dias RC, Pereira LS, et al. Prevalence of sarcopenia in older Brazilians: a systematic review and meta-analysis. Geriatr Gerontol Int 2017; 17:5-16., frailty (17.9%) ⁷⁵75. Da Mata FA, Pereira PP, Andrade KR, Figueiredo AC, Silva MT, Pereira MG. Prevalence of frailty in Latin America and the Caribbean: a systematic review and meta-analysis. PLoS One 2016; 11:e0160019. and osteoporosis (14.8%) ⁷⁶76. Rodrigues IG, Barros MBA. Osteoporosis self-reported in the elderly: a population-based survey in the city of Campinas, São Paulo, Brazil. Rev Bras Epidemiol 2016; 19:294-306..

Subgroup analysis suggested that being a woman may be a risk factor for falling, corroborating literature reports ⁷⁷77. Etman A, Wijlhuizen GJ, van Heuvelen MJ, Chorus A, Hopman-Rock M. Falls incidence underestimates the risk of fall-related injuries in older age groups: a comparison with the FARE (Falls risk by Exposure). Age Ageing 2012; 41:190-5.^,⁷⁸78. Nicklett EJ, Lohman MC, Smith ML. Neighborhood environment and falls among community-dwelling older adults. Int J Environ Res Public Health 2017; 14:175.. The results revealed that women are 60% more likely to fall than men. Increased longevity is associated with a higher prevalence of chronic conditions that are strongly associated with increased risk of functional disability and mortality, especially in women ⁷⁹79. Marengoni A, Angleman S, Melis R, Mangialasche F, Karp A, Garmen A, et al. Aging with multimorbidity: a systematic review of the literature. Ageing Res Rev 2011; 10:430-9..

Greater longevity may culminate in more severe repercussions for motor and sensory functions such as gait pattern, postural control and quadriceps, plantar flexor and dorsiflexor muscle strength, which are responsible for the ankle strategy commonly used by older adults to maintain dynamic and semi-static postural balance ⁸⁰80. Sanchez-Ramirez DC, van der Leeden M, Knol DL, van der Esch M, Roorda LD, Verschueren S, et al. Association of postural control with muscle strength, proprioception, self-reported knee instability and activity limitations in patients with knee osteoarthritis. J Rehabil Med 2013; 45:192-7.. Moreover, falls exhibit multifactorial etiology, including a range of changes in physiological factors (e.g. increased fat mass, bone loss and uncontrolled blood glucose) ⁵⁷57. Sampaio RAC, Sampaio PYS, Castano LAA, Barbieri JF, Coelho HJJ, Arai H, et al. Cutoff values for appendicular skeletal muscle mass and strength in relation to fear of falling among Brazilian older adults: cross-sectional study. São Paulo Med J 2017; 135:434-43.^,⁸¹81. Handrigan GA, Maltais N, Gagne M, Lamontagne P, Hamel D, Teasdale N, et al. Sex-specific association between obesity and self-reported falls and injuries among community-dwelling Canadians aged 65 years and older. Osteoporos Int 2017; 28:483-94.^,⁸²82. Yang Y, Hu X, Zhang Q, Zou R. Diabetes mellitus and risk of falls in older adults: a systematic review and meta-analysis. Age Ageing 2016; 45:761-7.. For example, estrogen hormones, which exert a protective effect against Alzheimer’s disease, decline progressively during the climacteric period, thereby increasing the risk of falling ⁸³83. Marin R, Diaz M. Estrogen interactions with lipid rafts related to neuroprotection. Impact of brain ageing and menopause. Front Neurosci 2018; 12:128..

The analysis for age group demonstrated that advanced age is associated with falls prevalence, as already shown in previous studies ⁸¹81. Handrigan GA, Maltais N, Gagne M, Lamontagne P, Hamel D, Teasdale N, et al. Sex-specific association between obesity and self-reported falls and injuries among community-dwelling Canadians aged 65 years and older. Osteoporos Int 2017; 28:483-94.^,⁸⁴84. Yu PL, Qin ZH, Shi J, Zhang J, Xin MZ, Wu ZL, et al. Prevalence and related factors of falls among the elderly in an urban community of Beijing. Biomed Environ Sci 2009; 22:179-87.. In individuals aged 80 years or older, the odds of falling was greater than in those aged between 60 and 69 years ¹²12. Cruz DT, Ribeiro LC, Vieira MT, Teixeira MTB, Bastos RR, Leite ICG. Prevalence of falls and associated factors in elderly individuals. Rev Saúde Pública 2012; 46:138-46.^,⁸⁴84. Yu PL, Qin ZH, Shi J, Zhang J, Xin MZ, Wu ZL, et al. Prevalence and related factors of falls among the elderly in an urban community of Beijing. Biomed Environ Sci 2009; 22:179-87.. Physiological changes such as slow pupillary reactions, neuronal loss and vestibular dysfunction, which lead to slowness in neural responses, decrease in bone mineral density and reduction of type II muscle fibers are also highlighted ¹1. Silva Gama ZA, Gomez Conesa A, Sobral Ferreira M. Epidemiology of falls in the elderly in Spain: a systematic review, 2007. Rev Esp Salud Pública 2008; 82:43-55..

A national health survey conducted in Brazil in 2013 showed that chronic diseases such as diabetes mellitus increase with advanced age ⁸⁵85. Iser BPM, Stopa SR, Chueiri PS, Szwarcwald CL, Malta DC, Monteiro HOC, et al. Prevalência de diabetes autorreferido no Brasil: resultados da Pesquisa Nacional de Saúde 2013. Epidemiol Serv Saúde 2015; 24:305-14., which can lead to complications such as neuropathy and retinopathy ⁸⁶86. Hewston P, Deshpande N. Falls and balance impairments in older adults with type 2 diabetes: thinking beyond diabetic peripheral neuropathy. Can J Diabetes 2016; 40:6-9.. A recent meta-analysis revealed that diabetes mellitus is a strong predictor for falls (RR = 1.64, 95%CI: 1.27-2.11) ⁸²82. Yang Y, Hu X, Zhang Q, Zou R. Diabetes mellitus and risk of falls in older adults: a systematic review and meta-analysis. Age Ageing 2016; 45:761-7.. Other chronic diseases, such as osteoporosis and osteoarthritis, also make the older person more vulnerable to falls ⁷⁶76. Rodrigues IG, Barros MBA. Osteoporosis self-reported in the elderly: a population-based survey in the city of Campinas, São Paulo, Brazil. Rev Bras Epidemiol 2016; 19:294-306.^,⁸⁰80. Sanchez-Ramirez DC, van der Leeden M, Knol DL, van der Esch M, Roorda LD, Verschueren S, et al. Association of postural control with muscle strength, proprioception, self-reported knee instability and activity limitations in patients with knee osteoarthritis. J Rehabil Med 2013; 45:192-7.. Aging is also associated to sarcopenia, a geriatric syndrome characterized by loss of muscle mass and function that becomes more intense over time and is independently associated with higher rates of falls (HR = 3.23, 95%CI: 1.25-8.29) ⁸⁷87. Landi F, Liperoti R, Russo A, Giovannini S, Tosato M, Capoluongo E, et al. Sarcopenia as a risk factor for falls in elderly individuals: results from the ilSIRENTE study. Clin Nutr 2012; 31:652-8..

Twelve-month was the most widely used period in literature when investigating falls prevalence. Studies have shown that the occurrence of an event with adverse repercussions is vivid in the memory of participants ¹⁵15. Siqueira FV, Facchini LA, Silveira DS, Piccini RX, Tomasi E, Thume E, et al. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cad Saúde Pública 2011; 27:1819-26.^,³³33. Mackenzie L, Byles J, D'Este C. Validation of self-reported fall events in intervention studies. Clin Rehabil 2006; 20:331-9.^,⁶⁸68. Halil M, Ulger Z, Cankurtaran M, Shorbagi A, Yavuz BB, Dede D, et al. Falls and the elderly: is there any difference in the developing world? A cross-sectional study from Turkey. Arch Gerontol Geriatr 2006; 43:351-9.. On the other hand, the prevalence of falls may be underestimated due to falls without repercussions ⁸⁸88. Siqueira FV, Facchini LA, Hallal PC. The burden of fractures in Brazil: a population-based study. Bone 2005; 37:261-6.. Therefore, standardizing prevalence measurements and additional care during data collection are strongly recommended in research and clinical practice to obtain more conservative estimates.

With respect to geographic region, it was expected that less developed locations would exhibit higher prevalence estimates ⁸⁹89. Oliveira AS, Trevizan PF, Bestetti MLT, Melo RC. Fatores ambientais e risco de quedas em idosos: revisão sistemática. Rev Bras Geriatr Gerontol 2014; 17:637-45.. However, the findings diverged. The North region had lower prevalence (18.6%) than the national estimate on 12-month period. One of the possible explanations for this result is that only one study represented the North region and sociodemographic and clinical factors of the study sample (e.g. age, sex, and health status) may have influenced the estimate. Another two included studies estimated the prevalence of falls in the North region at a one-month (11.4%) ⁶⁴64. Cesar JA, Oliveira-Filho JA, Bess G, Cegielka R, Machado J, Gonçalves TS, et al. Perfil dos idosos residentes em dois municípios pobres das regiões Norte e Nordeste do Brasil: resultados de estudo transversal de base populacional. Cad Saúde Pública 2008; 24:1835-45. and at a six-month period (21.5%) ⁶²62. Ribeiro EE, Maia-Ribeiro EA, Brito E, Viegas K, Silva T, Mota KM, et al. Aspects of the health of Brazilian elderly living in a riverine municipality of Amazon rainforest. Revista Amazonense de Geriatria e Gerontologia 2013; 5:4-17.. Future surveys in this region covering more number of states and using standardized measurements may provide more accurate results on falls prevalence.

Potential limitations of the review need to be discussed. First, most of the included studies were from more socially and economically developed areas, such as South and Southeast regions of Brazil, which accounted for around 80% of the estimates pooled in the meta-analysis. Future investigations in less developed regions are needed to obtain more information about the epidemiology of falls in older individuals residing in vulnerable locations. Second, low-quality evidence reinforces that the six-month pooled estimate might not reflect an accurate result, especially, due to small number of studies included in the meta-analysis (k = 3), important heterogeneity among studies (I² = 40%), and impossibility for assessing publication bias. Third, a range of clinical factors such as functional status, use of medications and presence of comorbidities may also have impacted the prevalence estimates ⁹⁰90. Tinetti ME, Kumar C. The patient who falls: "it's always a trade-off". JAMA 2010; 303:258-66.. Unfortunately, methodological inconsistencies among the included studies did not allow a secondary analysis encompassing these information. For example, one study addressed functional performance through the Lawton and Brody Scale¹²12. Cruz DT, Ribeiro LC, Vieira MT, Teixeira MTB, Bastos RR, Leite ICG. Prevalence of falls and associated factors in elderly individuals. Rev Saúde Pública 2012; 46:138-46., others using the questionnaire Old Americans Resources and Services⁴¹41. Confortin SC, Giehl MWC, Antes DL, Schneider IJC, d'Orsi E. Positive self-rated health in the elderly: a population-based study in the South of Brazil. Cad Saúde Pública 2015; 31:1049-60. or Time UP and Go Test³⁶36. Aveiro MC, Driusso P, Barham EJ, Pavarini SCI, Oishi J. Mobilidade e risco de quedas de população idosa da comunidade de São Carlos. Ciênc Saúde Colet 2012; 17:2481-8., and others did not evaluate functional outcomes ¹⁵15. Siqueira FV, Facchini LA, Silveira DS, Piccini RX, Tomasi E, Thume E, et al. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cad Saúde Pública 2011; 27:1819-26.^,⁴⁰40. Coimbra AM, Ricci NA, Coimbra IB, Costallat LT. Falls in the elderly of the Family Health Program. Arch Gerontol Geriatr 2010; 51:317-22.^,⁴²42. Dantas EL, Brito GEG, Lobato IAF. Prevalência de quedas em idosos adscritos à estratégia de saúde da família do município de João Pessoa, Paraíba. Rev APS 2012; 15:67-75.^,⁴³43. Gullich I, Duro SMS, Cesar JA. Depression among the elderly: a population-based study in Southern Brazil. Rev Bras Epidemiol 2016; 19:691-701..

Finally, strengths should also be mentioned. First, the descriptive findings of the review raise important questions about methodological and sociodemographic aspects involved in the epidemiology of falls in older Brazilians, which can direct new research with insights to address literature gaps (e.g. lack of standardized prevalence measurements and scarcity of epidemiological data by geographic region). Second, the 12-month prevalence of falls was obtained by pooling data from well-designed cross-sectional studies including representative samples from several communities in Brazil. This provides adequate statistical power and generability for 12-month estimate and thus it fulfills the main objective of the present review. Third, exploratory analysis enhances the review’s scope by accounting for well-known factors related to falls occurrence in the older population (e.g. sex and age).

Conclusion

High-quality evidence indicates that one in four community-dwelling older people from Brazil experiences at least one episode of fall in the preceding 12 months. In addition, despite of ecological limitations, additional findings support the attention that must be given to women and those aged 80 years and older as the Brazilian population ages. Clinicians, researchers, managers, policymakers and patients should collaborate for developing preventive, educational and promotional health programs to reduce the prevalence of falls as well as the associated adverse outcomes.

Acknowledgments

This study was financed in part by the Brazilian Graduate Studies Coordinating Board (Capes; Finance Code 001).

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Brasil. Lei nº 10.741, de 1º de outubro de 2003. Dispõe sobre o Estatuto do Idoso e dá outras providências. Diário Oficial da União 2003; 3 oct.
¹⁰
Brasil. Constituição da República Federativa do Brasil. Brasília: Senado Federal; 1988.
¹¹
Santos RKM, Maciel ACC, Britto HMJ, Lima JCC, Souza TO. Prevalência e fatores associados ao risco de quedas em idosos adscritos a uma Unidade Básica de Saúde do município de Natal, RN, Brasil. Ciênc Saúde Colet 2015; 20:3753-62.
¹²
Cruz DT, Ribeiro LC, Vieira MT, Teixeira MTB, Bastos RR, Leite ICG. Prevalence of falls and associated factors in elderly individuals. Rev Saúde Pública 2012; 46:138-46.
¹³
Zazzetta MS, Gomes GA, Orlandi FS, Gratao AC, Vasilceac FA, Gramani-Say K, et al. Identifying frailty levels and associated factors in a population living in the context of poverty and social vulnerability. J Frailty Aging 2017; 6:29-32.
¹⁴
Siqueira FV, Facchini LA, Piccini RX, Tomasi E, Thumé E, Silveira DS, et al. Prevalência de quedas em idosos e fatores associados. Rev Saúde Pública 2007; 41:749-56.
¹⁵
Siqueira FV, Facchini LA, Silveira DS, Piccini RX, Tomasi E, Thume E, et al. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cad Saúde Pública 2011; 27:1819-26.
¹⁶
Munn Z, Moola S, Lisy K, Riitano D. The Joanna Briggs Institute Reviewers' Manual 2014. The systematic review of prevalence and incidence data. Adelaide: The Joanna Briggs Institute; 2014.
¹⁷
Munn Z, Moola S, Riitano D, Lisy K. The development of a critical appraisal tool for use in systematic reviews addressing questions of prevalence. Int J Health Policy Manag 2014; 3:123-8.
¹⁸
Stroup DF, Berlin JA, Morton SC, Olkin I, Williamson GD, Rennie D, et al. Meta-analysis of observational studies in epidemiology: a proposal for reporting. Meta-analysis Of Observational Studies in Epidemiology (MOOSE) group. JAMA 2000; 283:2008-12.
¹⁹
Higgins JP, Green S, editors. Cochrane handbook for systematic reviews of interventions, Version 5.1.0 [update March 2011]. http://handbook.cochrane.org/ (accessed on 12/Jan/2019).
» http://handbook.cochrane.org/
²⁰
Moher D, Liberati A, Tetzlaff J, Altman DG. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. J Clin Epidemiol 2009; 62:1006-12.
²¹
Arya R, Antonisamy B, Kumar S. Sample size estimation in prevalence studies. Indian J Pediatr 2012; 79:1482-8.
²²
Loney PL, Chambers LW, Bennett KJ, Roberts JG, Stratford PW. Critical appraisal of the health research literature: prevalence or incidence of a health problem. Chronic Dis Can 1998; 19:170-6.
²³
Chinnakali P, Yadav K, Singh AK. Importance of reporting age-adjusted prevalence in epidemiological studies. N Am J Med Sci 2012; 4:107-8.
²⁴
Kasten AP, Rosa BN, Schmit EFD, Noll M, Candotti CT. Prevalence of postural deviations in the spine in schoolchildren: a systematic review with meta-analysis. J Hum Growth Dev 2017; 27:99-108.
²⁵
Gorter TM, Hoendermis ES, van Veldhuisen DJ, Voors AA, Lam CS, Geelhoed B, et al. Right ventricular dysfunction in heart failure with preserved ejection fraction: a systematic review and meta-analysis. Eur J Heart Fail 2016; 18:1472-87.
²⁶
Leopoldino AA, Diz JB, Martins VT, Henschke N, Pereira LS, Dias RC, et al. Prevalence of low back pain in older Brazilians: a systematic review with meta-analysis. Rev Bras Reumatol Engl Ed 2016; 56:258-69.
²⁷
Simmonds M. Quantifying the risk of error when interpreting funnel plots. Syst Rev 2015; 4:24.
²⁸
Coutinho LM, Scazufca M, Menezes PR. Methods for estimating prevalence ratios in cross-sectional studies. Rev Saúde Pública 2008; 42:992-8.
²⁹
Jackson D, White IR, Thompson SG. Extending DerSimonian and Laird's methodology to perform multivariate random effects meta-analyses. Stat Med 2010; 29:1282-97.
³⁰
Viechtbauer W. Bias and efficiency of meta-analytic variance estimators in the random-effects model. J Educ Behav Stat 2005; 30:261-93.
³¹
Knapp G, Hartung J. Improved tests for a random effects meta-regression with a single covariate. Stat Med 2003; 22:2693-710.
³²
Balshem H, Helfand M, Schunemann HJ, Oxman AD, Kunz R, Brozek J, et al. GRADE guidelines: 3. Rating the quality of evidence. J Clin Epidemiol 2011; 64:401-6.
³³
Mackenzie L, Byles J, D'Este C. Validation of self-reported fall events in intervention studies. Clin Rehabil 2006; 20:331-9.
³⁴
Moreira MD, Costa AR, Caldas CP. The association between nursing diagnoses and the occurrence of falls observed among eldery individuals assisted in an outpatient facility. Rev Latinoam Enferm 2007; 15:311-7.
³⁵
Antes DL, d'Orsi E, Benedetti TRB. Circumstances and consequences of falls among the older adults in Florianopolis. EpiFloripa Aging 2009. Rev Bras Epidemiol 2013; 16:469-81.
³⁶
Aveiro MC, Driusso P, Barham EJ, Pavarini SCI, Oishi J. Mobilidade e risco de quedas de população idosa da comunidade de São Carlos. Ciênc Saúde Colet 2012; 17:2481-8.
³⁷
Berlezi EM, Farias AM, Dallazen F, Oliveira KR, Pillatt AP, Fortes CK. Analysis of the functional capacity of elderly residents of communities with a rapid population aging rate. Rev Bras Geriatr Gerontol 2016; 19:643-52.
³⁸
Brito TA, Coqueiro RS, Fernandes MH, Jesus CS. Determinants of falls in community-dwelling elderly: hierarchical analysis. Public Health Nurs 2014; 31:290-7.
³⁹
Carneiro JA, Ramos GCF, Barbosa ATF, Vieira EDS, Silva JSR, Caldeira AP. Falls among the non-institutionalized elderly in northern Minas Gerais, Brazil: prevalence and associated factors. Rev Bras Geriatr Gerontol 2016; 19:613-25.
⁴⁰
Coimbra AM, Ricci NA, Coimbra IB, Costallat LT. Falls in the elderly of the Family Health Program. Arch Gerontol Geriatr 2010; 51:317-22.
⁴¹
Confortin SC, Giehl MWC, Antes DL, Schneider IJC, d'Orsi E. Positive self-rated health in the elderly: a population-based study in the South of Brazil. Cad Saúde Pública 2015; 31:1049-60.
⁴²
Dantas EL, Brito GEG, Lobato IAF. Prevalência de quedas em idosos adscritos à estratégia de saúde da família do município de João Pessoa, Paraíba. Rev APS 2012; 15:67-75.
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Gullich I, Duro SMS, Cesar JA. Depression among the elderly: a population-based study in Southern Brazil. Rev Bras Epidemiol 2016; 19:691-701.
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Publication Dates

Publication in this collection
29 Aug 2019
Date of issue
2019

History

Received
14 June 2018
Reviewed
12 Mar 2019
Accepted
29 Apr 2019

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

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Brasil. Constituição da República Federativa do Brasil. Brasília: Senado Federal; 1988.

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Santos RKM, Maciel ACC, Britto HMJ, Lima JCC, Souza TO. Prevalência e fatores associados ao risco de quedas em idosos adscritos a uma Unidade Básica de Saúde do município de Natal, RN, Brasil. Ciênc Saúde Colet 2015; 20:3753-62.

[12] ¹²
Cruz DT, Ribeiro LC, Vieira MT, Teixeira MTB, Bastos RR, Leite ICG. Prevalence of falls and associated factors in elderly individuals. Rev Saúde Pública 2012; 46:138-46.

[13] ¹³
Zazzetta MS, Gomes GA, Orlandi FS, Gratao AC, Vasilceac FA, Gramani-Say K, et al. Identifying frailty levels and associated factors in a population living in the context of poverty and social vulnerability. J Frailty Aging 2017; 6:29-32.

[14] ¹⁴
Siqueira FV, Facchini LA, Piccini RX, Tomasi E, Thumé E, Silveira DS, et al. Prevalência de quedas em idosos e fatores associados. Rev Saúde Pública 2007; 41:749-56.

[15] ¹⁵
Siqueira FV, Facchini LA, Silveira DS, Piccini RX, Tomasi E, Thume E, et al. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cad Saúde Pública 2011; 27:1819-26.

[16] ¹⁶
Munn Z, Moola S, Lisy K, Riitano D. The Joanna Briggs Institute Reviewers' Manual 2014. The systematic review of prevalence and incidence data. Adelaide: The Joanna Briggs Institute; 2014.

[17] ¹⁷
Munn Z, Moola S, Riitano D, Lisy K. The development of a critical appraisal tool for use in systematic reviews addressing questions of prevalence. Int J Health Policy Manag 2014; 3:123-8.

[18] ¹⁸
Stroup DF, Berlin JA, Morton SC, Olkin I, Williamson GD, Rennie D, et al. Meta-analysis of observational studies in epidemiology: a proposal for reporting. Meta-analysis Of Observational Studies in Epidemiology (MOOSE) group. JAMA 2000; 283:2008-12.

[19] ¹⁹
Higgins JP, Green S, editors. Cochrane handbook for systematic reviews of interventions, Version 5.1.0 [update March 2011]. http://handbook.cochrane.org/ (accessed on 12/Jan/2019).
» http://handbook.cochrane.org/

[20] ²⁰
Moher D, Liberati A, Tetzlaff J, Altman DG. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. J Clin Epidemiol 2009; 62:1006-12.

[21] ²¹
Arya R, Antonisamy B, Kumar S. Sample size estimation in prevalence studies. Indian J Pediatr 2012; 79:1482-8.

[22] ²²
Loney PL, Chambers LW, Bennett KJ, Roberts JG, Stratford PW. Critical appraisal of the health research literature: prevalence or incidence of a health problem. Chronic Dis Can 1998; 19:170-6.

[23] ²³
Chinnakali P, Yadav K, Singh AK. Importance of reporting age-adjusted prevalence in epidemiological studies. N Am J Med Sci 2012; 4:107-8.

[24] ²⁴
Kasten AP, Rosa BN, Schmit EFD, Noll M, Candotti CT. Prevalence of postural deviations in the spine in schoolchildren: a systematic review with meta-analysis. J Hum Growth Dev 2017; 27:99-108.

[25] ²⁵
Gorter TM, Hoendermis ES, van Veldhuisen DJ, Voors AA, Lam CS, Geelhoed B, et al. Right ventricular dysfunction in heart failure with preserved ejection fraction: a systematic review and meta-analysis. Eur J Heart Fail 2016; 18:1472-87.

[26] ²⁶
Leopoldino AA, Diz JB, Martins VT, Henschke N, Pereira LS, Dias RC, et al. Prevalence of low back pain in older Brazilians: a systematic review with meta-analysis. Rev Bras Reumatol Engl Ed 2016; 56:258-69.

[27] ²⁷
Simmonds M. Quantifying the risk of error when interpreting funnel plots. Syst Rev 2015; 4:24.

[28] ²⁸
Coutinho LM, Scazufca M, Menezes PR. Methods for estimating prevalence ratios in cross-sectional studies. Rev Saúde Pública 2008; 42:992-8.

[29] ²⁹
Jackson D, White IR, Thompson SG. Extending DerSimonian and Laird's methodology to perform multivariate random effects meta-analyses. Stat Med 2010; 29:1282-97.

[30] ³⁰
Viechtbauer W. Bias and efficiency of meta-analytic variance estimators in the random-effects model. J Educ Behav Stat 2005; 30:261-93.

[31] ³¹
Knapp G, Hartung J. Improved tests for a random effects meta-regression with a single covariate. Stat Med 2003; 22:2693-710.

[32] ³²
Balshem H, Helfand M, Schunemann HJ, Oxman AD, Kunz R, Brozek J, et al. GRADE guidelines: 3. Rating the quality of evidence. J Clin Epidemiol 2011; 64:401-6.

[33] ³³
Mackenzie L, Byles J, D'Este C. Validation of self-reported fall events in intervention studies. Clin Rehabil 2006; 20:331-9.

[34] ³⁴
Moreira MD, Costa AR, Caldas CP. The association between nursing diagnoses and the occurrence of falls observed among eldery individuals assisted in an outpatient facility. Rev Latinoam Enferm 2007; 15:311-7.

[35] ³⁵
Antes DL, d'Orsi E, Benedetti TRB. Circumstances and consequences of falls among the older adults in Florianopolis. EpiFloripa Aging 2009. Rev Bras Epidemiol 2013; 16:469-81.

[36] ³⁶
Aveiro MC, Driusso P, Barham EJ, Pavarini SCI, Oishi J. Mobilidade e risco de quedas de população idosa da comunidade de São Carlos. Ciênc Saúde Colet 2012; 17:2481-8.

[37] ³⁷
Berlezi EM, Farias AM, Dallazen F, Oliveira KR, Pillatt AP, Fortes CK. Analysis of the functional capacity of elderly residents of communities with a rapid population aging rate. Rev Bras Geriatr Gerontol 2016; 19:643-52.

[38] ³⁸
Brito TA, Coqueiro RS, Fernandes MH, Jesus CS. Determinants of falls in community-dwelling elderly: hierarchical analysis. Public Health Nurs 2014; 31:290-7.

[39] ³⁹
Carneiro JA, Ramos GCF, Barbosa ATF, Vieira EDS, Silva JSR, Caldeira AP. Falls among the non-institutionalized elderly in northern Minas Gerais, Brazil: prevalence and associated factors. Rev Bras Geriatr Gerontol 2016; 19:613-25.

[40] ⁴⁰
Coimbra AM, Ricci NA, Coimbra IB, Costallat LT. Falls in the elderly of the Family Health Program. Arch Gerontol Geriatr 2010; 51:317-22.

[41] ⁴¹
Confortin SC, Giehl MWC, Antes DL, Schneider IJC, d'Orsi E. Positive self-rated health in the elderly: a population-based study in the South of Brazil. Cad Saúde Pública 2015; 31:1049-60.

[42] ⁴²
Dantas EL, Brito GEG, Lobato IAF. Prevalência de quedas em idosos adscritos à estratégia de saúde da família do município de João Pessoa, Paraíba. Rev APS 2012; 15:67-75.

[43] ⁴³
Gullich I, Duro SMS, Cesar JA. Depression among the elderly: a population-based study in Southern Brazil. Rev Bras Epidemiol 2016; 19:691-701.

[44] ⁴⁴
Lebrão ML, Laurenti R. Saúde, bem-estar e envelhecimento: o estudo SABE no Município de São Paulo. Rev Bras Epidemiol 2005; 8:127-41.

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Lima AP, Lini EV, Tomicki C, Dellani M, Portella M, Doring M. Fatores associados à atividade física em idosos de Estação, Rio Grande do Sul: estudo de base populacional. Rev Bras Ativ Fis Saúde 2016; 20:618-25.

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Pereira SG, Santos CB, Doring M, Portella MR. Prevalence of household falls in long-lived adults and association with extrinsic factors. Rev Latinoam Enferm 2017; 25:e2900.

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Perracini MR, Ramos LR. Fatores associados a quedas em uma coorte de idosos residentes na comunidade. Rev Saúde Pública 2002; 36:709-16.

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[56] ⁵⁶
Rodrigues IG, Fraga GP, Barros MB. Falls among the elderly: risk factors in a population-based study. Rev Bras Epidemiol 2014; 17:705-18.

[57] ⁵⁷
Sampaio RAC, Sampaio PYS, Castano LAA, Barbieri JF, Coelho HJJ, Arai H, et al. Cutoff values for appendicular skeletal muscle mass and strength in relation to fear of falling among Brazilian older adults: cross-sectional study. São Paulo Med J 2017; 135:434-43.

[58] ⁵⁸
Sandoval RA, Menezes R, Pagotto V, Nakatani AYK, Bachion M. Quedas de idosos não institucionalizados e fatores associados: estudo de base populacional em uma metrópole da região Centro-Oeste no Brasil. Rev Cient Esc Estadual Saúde Pública de Goiás Cândido Santiago 2015; 1:91-107.

[59] ⁵⁹
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[60] ⁶⁰
Vieira LS, Gomes AP, Bierhals IO, Farías-Antúnez S, Ribeiro CG, Miranda VIA, et al. Falls among older adults in the South of Brazil: prevalence and determinants. Rev Saúde Pública 2018; 52:22.

[61] ⁶¹
Campos ACV, Ferreira EF, Vargas AMD. Determinantes do envelhecimento ativo segundo a qualidade de vida e gênero. Ciênc Saúde Colet 2015; 20:2221-37.

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[63] ⁶³
Stamm B, Leite M, Hildebrandt LM, Kirchner RM, Menezes LP. Cair faz parte da vida: fatores de risco para quedas em idosos. Rev Pesqui Cuid Fundam 2016; 8:5080-6.

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Benedetti TRB, Binotto MA, Petroski EL, Gonçalves LHT. Atividade física e prevalência de quedas em idosos residentes no sul do Brasil. Rev Bras Geriatr Gerontol 2008; 11:145-54.

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Chehuen Neto JA, Brum IV, Braga NAC, Gomes GF, Tavares PL, Silva RTC, et al. Percepção sobre queda como fator determinante desse evento entre idosos residentes na comunidade. Geriatr Gerontol Aging 2017; 11:25-31.

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Sanchez-Garcia S, Garcia-Pena C, Salva A, Sanchez-Arenas R, Granados-Garcia V, Cuadros-Moreno J, et al. Frailty in community-dwelling older adults: association with adverse outcomes. Clin Interv Aging 2017; 12:1003-11.

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Halil M, Ulger Z, Cankurtaran M, Shorbagi A, Yavuz BB, Dede D, et al. Falls and the elderly: is there any difference in the developing world? A cross-sectional study from Turkey. Arch Gerontol Geriatr 2006; 43:351-9.

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Zimba Kalula S, Ferreira M, Swingler G, Badri M, Aihie Sayer A. Prevalence of falls in an urban community-dwelling older population of Cape Town, South Africa. J Nutr Health Aging 2015; 19:1024-31.

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Gale CR, Cooper C, Aihie Sayer A. Prevalence and risk factors for falls in older men and women: the English Longitudinal Study of Ageing. Age Ageing 2016; 45:789-94.

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Muir SW, Beauchet O, Montero-Odasso M, Annweiler C, Fantino B, Speechley M. Association of executive function impairment, history of falls and physical performance in older adults: a cross-sectional population-based study in eastern France. J Nutr Health Aging 2013; 17:661-5.

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Study	Region	Sample n (F/M); age ± SD	Prevalence (%)
Study	Region	Sample n (F/M); age ± SD	Total	F	M
One-month prevalence of falls
Cesar et al. ⁶⁴64. Cesar JA, Oliveira-Filho JA, Bess G, Cegielka R, Machado J, Gonçalves TS, et al. Perfil dos idosos residentes em dois municípios pobres das regiões Norte e Nordeste do Brasil: resultados de estudo transversal de base populacional. Cad Saúde Pública 2008; 24:1835-45.	PA, PI	1,013 (376/637); 70.0 ± 7.8 years	11.4	NA	NA
Three-month prevalence of falls
Benedetti et al. ⁶⁵65. Benedetti TRB, Binotto MA, Petroski EL, Gonçalves LHT. Atividade física e prevalência de quedas em idosos residentes no sul do Brasil. Rev Bras Geriatr Gerontol 2008; 11:145-54.	SC	875 (438/437); 71.6 ± 7.9 years	11.4	9.6	13.2
Six-month prevalence of falls
Campos et al. ⁶¹61. Campos ACV, Ferreira EF, Vargas AMD. Determinantes do envelhecimento ativo segundo a qualidade de vida e gênero. Ciênc Saúde Colet 2015; 20:2221-37.	MG	2,052 (1,226/826); 70.9 ± 8.1 years	32.0	37.6	23.7
		60-69 years	29.3
		70-79 years	33.0
		≥ 80 years	38.5
Ribeiro et al. ⁶²62. Ribeiro EE, Maia-Ribeiro EA, Brito E, Viegas K, Silva T, Mota KM, et al. Aspects of the health of Brazilian elderly living in a riverine municipality of Amazon rainforest. Revista Amazonense de Geriatria e Gerontologia 2013; 5:4-17.	AM	3,314 (1,676/1,635); 72.4 ± 7.8 years	21.5	26.3	22.7
		60-69 years	21.4
		70-79 years	26.2
		≥ 80 years	29.0
Stamm et al. ⁶³63. Stamm B, Leite M, Hildebrandt LM, Kirchner RM, Menezes LP. Cair faz parte da vida: fatores de risco para quedas em idosos. Rev Pesqui Cuid Fundam 2016; 8:5080-6.	RS	368 (239/129); 71.9 ± 7.7 years	53.0	37.8	15.2
12-month prevalence of falls
Antes et al. ³⁵35. Antes DL, d'Orsi E, Benedetti TRB. Circumstances and consequences of falls among the older adults in Florianopolis. EpiFloripa Aging 2009. Rev Bras Epidemiol 2013; 16:469-81.	SC	1,637 (1,045/592); 70.7 ± 8.0 years	19.0	21.5	14.3
		60-69 years	13.5
		70-79 years	17.6
		≥ 80 years	11.4
Aveiro et al. ³⁶36. Aveiro MC, Driusso P, Barham EJ, Pavarini SCI, Oishi J. Mobilidade e risco de quedas de população idosa da comunidade de São Carlos. Ciênc Saúde Colet 2012; 17:2481-8.	SP	739 (434/305); 69.0 ± 7.2 years	27.6	32.3	21.0
Berlezi et al. ³⁷37. Berlezi EM, Farias AM, Dallazen F, Oliveira KR, Pillatt AP, Fortes CK. Analysis of the functional capacity of elderly residents of communities with a rapid population aging rate. Rev Bras Geriatr Gerontol 2016; 19:643-52.	RS	528 (273/255); 72.3 ± 9.4 years	19.9	25.3	14.1
Brito et al. ³⁸38. Brito TA, Coqueiro RS, Fernandes MH, Jesus CS. Determinants of falls in community-dwelling elderly: hierarchical analysis. Public Health Nurs 2014; 31:290-7.	BA	314 (173/141); 74.2 ± 9.7 years	25.8	32.3	17.7
		60-69 years	25.2
		70-79 years	25.0
		≥ 80 years	27.3
Carneiro et al. ³⁹39. Carneiro JA, Ramos GCF, Barbosa ATF, Vieira EDS, Silva JSR, Caldeira AP. Falls among the non-institutionalized elderly in northern Minas Gerais, Brazil: prevalence and associated factors. Rev Bras Geriatr Gerontol 2016; 19:613-25.	MG	683 (443/240); 70.9 ± 8.0 years	28.4	32.5	20.8
		60-69 years	27.3
		70-79 years	25.7
		≥ 80 years	37.7
Coimbra et al. ⁴⁰40. Coimbra AM, Ricci NA, Coimbra IB, Costallat LT. Falls in the elderly of the Family Health Program. Arch Gerontol Geriatr 2010; 51:317-22.	SP	2,209 (1,332/877); 70.6 ± 7.8 years	27.1	NA	NA
Confortin et al. ⁴¹41. Confortin SC, Giehl MWC, Antes DL, Schneider IJC, d'Orsi E. Positive self-rated health in the elderly: a population-based study in the South of Brazil. Cad Saúde Pública 2015; 31:1049-60.	SC	1,656 (1,058/598); 70.3 ± 7.7 years	18.6	NA	NA
Cruz et al. ¹²12. Cruz DT, Ribeiro LC, Vieira MT, Teixeira MTB, Bastos RR, Leite ICG. Prevalence of falls and associated factors in elderly individuals. Rev Saúde Pública 2012; 46:138-46.	MG	420 (148/272); 69.7 ± 6.9 years	32.1	37.1	23.0
		60-69 years	27.6
		70-79 years	34.5
		≥ 80 years	44.4
Dantas et al. ⁴²42. Dantas EL, Brito GEG, Lobato IAF. Prevalência de quedas em idosos adscritos à estratégia de saúde da família do município de João Pessoa, Paraíba. Rev APS 2012; 15:67-75.	PB	401 (271/130); 70.0 ± 9.0 years	42.4	49.4	27.7
		60-69 years	49.4
		≥ 70 years	38.7
Gullich et al. ⁴³43. Gullich I, Duro SMS, Cesar JA. Depression among the elderly: a population-based study in Southern Brazil. Rev Bras Epidemiol 2016; 19:691-701.	SC	552 (301/251); NA	28.3	30.9	25.1
		60-69 years	24.5
		70-79 years	31.9
		≥ 80 years	38.6
Lebrão & Laurenti ⁴⁴44. Lebrão ML, Laurenti R. Saúde, bem-estar e envelhecimento: o estudo SABE no Município de São Paulo. Rev Bras Epidemiol 2005; 8:127-41.	SP	2,143 (1,255/888); 68.0 ± 8.4 years	28.6	33.0	22.3
Lima et al. ⁴⁵45. Lima AP, Lini EV, Tomicki C, Dellani M, Portella M, Doring M. Fatores associados à atividade física em idosos de Estação, Rio Grande do Sul: estudo de base populacional. Rev Bras Ativ Fis Saúde 2016; 20:618-25.	SP	432 (263/169); 69.5 ± 7.6 years	24.5	27.7	19.5
		60-69 years	20.9
		≥ 70 years	30.5
Lima et al. ⁴⁶46. Lima MCP, Simão MO, Oliveira JB, Cavariani MB, Tucci AM, Kerr-Correa F. Alcohol use and falls among the elderly in Metropolitan São Paulo, Brazil. Cad Saúde Pública 2009; 25:2603-11.	RS	418 (239/181); 69 ± 7.6 years	25.1	NA	NA
Monego & Barbosa ⁴⁷47. Monego EA, Barbosa AR. Factors associated with daily sitting time in a rural community-dwelling of older adults from southern Brazil. Rev Bras Ativ Fís Saúde 2014; 19:371-81.	SC	477 (270/207); 74.2 ± 8.4 years	24.3	31.2	15.7
		60-69 years	21.0
		70-79 years	22.3
		≥ 80 years	41.8
Moreira et al. ³⁴34. Moreira MD, Costa AR, Caldas CP. The association between nursing diagnoses and the occurrence of falls observed among eldery individuals assisted in an outpatient facility. Rev Latinoam Enferm 2007; 15:311-7. *	RJ	490 (374/116); 79.0 ± NA years	27.9	31.0	18.1
Motta et al. ⁴⁸48. Motta LB, Aguiar AC, Coutinho ESF, Huf G. Prevalência e fatores associados a quedas em idosos em um município do Rio de Janeiro. Rev Bras Geriatr Gerontol 2010; 13:83-91.	RJ	1,064 (606/458); 71.4 ± 8.0 years	30.3	36.1	22.7
		60-69 years	28.3
		70-79 years	31.5
		≥ 80 years	34.0
Nascimento & Tavares ⁴⁹49. Nascimento JS, Tavares DMS. Prevalence and factors associated with falls in the elderly. Texto Contexto Enferm 2016; 25:e0360015.	MG	729 (487/242); NA	28.3	33.1	18.6
		60-80 years	26.4
		≥ 80 years	35.7
Nunes et al. ⁵⁰50. Nunes BP, Saes MO, Siqueira FV, Tomasi E, Silva SM, Silveira DS, et al. Falls and self-assessment of eyesight among elderly people: a population-based study in a south Brazilian municipality. Arch Gerontol Geriatr 2014; 59:131-5.	RS	1,591 (1,000/591); 70.6 ± 8.1 years	28.0	33.3	19.1
		60-69 years	24.0
		70-74 years	28.9
		≥ 75 years	33.8
Nunes et al. ⁵¹51. Nunes DP, Nakatani AYK, Silveira EA, Bachion MM, Souza MR. Capacidade funcional, condições socioeconômicas e de saúde de idosos atendidos por equipes de Saúde da Família de Goiânia (GO, Brasil). Ciênc Saúde Colet 2010; 15:2887-98.	GO	388 (227/161); 69.7 ± 7.5 years	38.7	42.7	32.9
		60-69 years	34.1
		70-79 years	40.3
		≥ 80 years	56.5
Pereira et al. ⁵²52. Pereira GN, Morsch P, Lopes DGC, Trevisan MD, Ribeiro A, Navarro JHN, et al. Fatores socioambientais associados à ocorrência de quedas em idosos. Ciênc Saúde Colet 2013; 18:3507-14.	RS	6,751 (3,494/3,257); 70.0 ± 7.3 years	10.7	13.4	10.4
		60-69 years	6.4
		70-79 years	13.4
		≥ 80 years	20.9
Pereira et al. ⁵³53. Pereira SG, Santos CB, Doring M, Portella MR. Prevalence of household falls in long-lived adults and association with extrinsic factors. Rev Latinoam Enferm 2017; 25:e2900.	PR	350 (212/138); 87.3 ± 3.7 years	46.9	NA	NA
		80-89 years	49.4
		≥ 90 years	17.9
Perracini & Ramos ⁵⁴54. Perracini MR, Ramos LR. Fatores associados a quedas em uma coorte de idosos residentes na comunidade. Rev Saúde Pública 2002; 36:709-16.	SP	1,415 (917/498); 70.0 ± NA years	30.9	NA	NA
Pimentel et al. ⁵⁵55. Pimentel WRT, Pagotto V, Stopa SR, Hoffmann MCCL, Andrade FB, Souza Junior PRB, et al. Falls among Brazilian older adults living in urban areas: ELSI-Brazil. Rev Saúde Pública 2018; 52 Suppl 2:12s.	AL, AM, BA, CE, ES, DF, GO, MA, MG, MS, MT, PA, PB, PE, PI, PR, RJ, RN, RS, SC, SE, SP	4,174 (2,362/1,812); 70.2 ± NA years	25.1	30.2	18.4
		60-64 years	23.6
		65-74 years	22.1
		≥ 75 years	31.4
Rodrigues et al. ⁵⁶56. Rodrigues IG, Fraga GP, Barros MB. Falls among the elderly: risk factors in a population-based study. Rev Bras Epidemiol 2014; 17:705-18.	SP	1,520 (904/616); 69.9 ± 7.8 years	6.5	8.7	3.4
Sampaio et al. ⁵⁷57. Sampaio RAC, Sampaio PYS, Castano LAA, Barbieri JF, Coelho HJJ, Arai H, et al. Cutoff values for appendicular skeletal muscle mass and strength in relation to fear of falling among Brazilian older adults: cross-sectional study. São Paulo Med J 2017; 135:434-43.	RJ, MG, PR, SC, SP	578 (456/122); 70.0 ± 6.6 years	22.5	24.8	13.9
		60-69 years	20.3
		70-79 years	24.4
		≥ 80 years	33.3
Sandoval et al. ⁵⁸58. Sandoval RA, Menezes R, Pagotto V, Nakatani AYK, Bachion M. Quedas de idosos não institucionalizados e fatores associados: estudo de base populacional em uma metrópole da região Centro-Oeste no Brasil. Rev Cient Esc Estadual Saúde Pública de Goiás Cândido Santiago 2015; 1:91-107.	GO	938 (570/348); 71.5 ± 8.4 years	34.0	37.9	29.6
		60-69 years	29.2
		70-79 years	37.1
		≥ 80 years	45.3
Silva et al. ⁵⁹59. Silva SLA, Neri AL, Ferrioli E, Lourenço RA, Dias RC. Fenótipo de fragilidade: influência de cada item na determinação da fragilidade em idosos comunitários - Rede Fibra. Ciênc Saúde Colet 2016; 21:3483-92.	CE, MG, PA, PE, PI, RN, RS, SP	5,532 (3,629/1,903); 73.1 ± 6.2 years	29.2	NA	NA
Siqueira et al. ¹⁵15. Siqueira FV, Facchini LA, Silveira DS, Piccini RX, Tomasi E, Thume E, et al. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cad Saúde Pública 2011; 27:1819-26.	AC, AL, BA, CE, ES, GO, MA, MG, MS, PA, PB, PE, PI, PR, RJ, RN, RO, RS, SC, SE, SP, TO	6,616 (3,903/2,713); 70.9 ± 7.9 years	27.6	32.1	21.2
		60-69 years	24.4
		70-79 years	27.9
		≥ 80 years	37.1
Siqueira et al. ¹⁴14. Siqueira FV, Facchini LA, Piccini RX, Tomasi E, Thumé E, Silveira DS, et al. Prevalência de quedas em idosos e fatores associados. Rev Saúde Pública 2007; 41:749-56.	AL, PB, PE, PI, RN, RS, SC	4,003 (2,450/1,553); 73.9 ± 7.0 years	34.8	40.1	26.5
		65-70 years	31.8
		71-75 years	33.2
		76-80 years	36.8
		≥ 80 years	42.0
Vieira et al. ⁶⁰60. Vieira LS, Gomes AP, Bierhals IO, Farías-Antúnez S, Ribeiro CG, Miranda VIA, et al. Falls among older adults in the South of Brazil: prevalence and determinants. Rev Saúde Pública 2018; 52:22.	RS	1,451 (914/537); 70.7 ± 8.2 years	28.1	NA	NA
Zazzetta et al. ¹³13. Zazzetta MS, Gomes GA, Orlandi FS, Gratao AC, Vasilceac FA, Gramani-Say K, et al. Identifying frailty levels and associated factors in a population living in the context of poverty and social vulnerability. J Frailty Aging 2017; 6:29-32.	SP	304 (173/131); 70.1 ± 7.6 years	16.1	19.0	13.0
Lifetime-prevalence of falls
Chehuen Neto et al. ⁶⁶66. Chehuen Neto JA, Brum IV, Braga NAC, Gomes GF, Tavares PL, Silva RTC, et al. Percepção sobre queda como fator determinante desse evento entre idosos residentes na comunidade. Geriatr Gerontol Aging 2017; 11:25-31.	MG	472 (276/285); 70.6 ± NA years	55.1	55.1	55.1

Subgroup	Estimate * % (95%CI)	I²	PR (95%CI)	p-value
Sex
Male (k = 23)	19.8 (17.1-22.8)	0%	1.00
Female (k = 23)	30.8 (27.2-34.6)	0%	1.57 (1.32-1.86)	< 0.001
Age (years)
60-69 (k =15)	23.8 (18.9-29.5)	2%	1.00
70-79 (k = 12)	26.6 (20.6-33.5)	0%	1.09 (0.86-1.38)	0.494
≥ 80 (k = 15)	35.7 (31.1-42.8)	0%	1.46 (1.15-1.84)	0.002
Region
North ** (k = 1)	18.6 (16.3-21.1) ***	-	-
South (k = 11)	24.0 (20.1-28.3)	22%	1.00
Southeast (k = 13)	28.0 (24.0-32.3)	27%	1.06 (0.83-1.35)	0.628
Northeast (k = 4)	31.4 (23.9-40.0)	0%	1.27 (0.96-1.68)	0.101
Central (k = 4)	33.7 (25.9-42.5)	0%	1.36 (1.10-1.69)	0.006

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Saúde Pública

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Abstracts

Introduction

Materials and methods

Study design and guidelines

Search strategy

Eligibility criteria

Data selection and extraction

Risk of bias assessment

Statistical analysis

Evidence synthesis

Results

Descriptive analysis

Risk of bias analysis

Pooled analysis

Exploratory analysis

Discussion

Conclusion

Acknowledgments

References

Publication Dates

History