0031/2023 - ACIDENTES POR QUEDAS NA POPULAÇÃO IDOSA: ANÁLISE DE TENDÊNCIA TEMPORAL DE 2000 A 2020 E O IMPACTO ECONÔMICO ESTIMADO NO SISTEMA DE SAÚDE BRASILEIRO EM 2025.
ACCIDENTS BY FALLS IN OLDER PEOPLE: TIME TREND ANALYSIS FROM 2000 TO 2020 AND ESTIMATED ECONOMIC IMPACT ON THE BRAZILIAN HEALTH SYSTEM IN 2025.
Autor:
• Areta Dames Cachapuz Novaes - Novaes, A.D.C - <aretadames@gmail.com>ORCID: https://orcid.org/0000-0001-7567-1042
Coautor(es):
• Otávio Augusto Fernandes Marques Bianco - Bianco, O.A.F.M - <otavioafmb@gmail.com>ORCID: https://orcid.org/0000-0002-7516-4451
• Debora Bernardo da Silva - Silva, D.B - <deborabernardo.silva@yahoo.com.br>
ORCID: https://orcid.org/0000-0003-4351-8929
• Livea Cristina da Silva - Silva, L.C - <liveasilva@estudante.ufscar.br>
ORCID: https://orcid.org/0000-0001-7012-1877
• Eduarda Adami Dotta - Dotta, E.A - <eduardadotta@estudante.ufscar.br>
ORCID: https://orcid.org/0000-0003-2681-3811
• Juliana Hotta Ansai - Ansai, J.H - <jhansai@ufscar.br>
ORCID: https://orcid.org/0000-0001-9873-3509
• Larissa Riani Costa Tavares - Tavares, L.R.C - <larissarct@ufscar.br>
ORCID: https://orcid.org/0000-0002-2474-435X
• Karina Gramani-Say - Gramani-Say, K. - <gramanisay@ufscar.br>
ORCID: https://orcid.org/0000-0002-2451-8109
Resumo:
O acompanhamento longitudinal de indicadores, como os relacionados às quedas acidentais, pode facilitar o planejamento de ações mais eficazes de assistência e prevenção. Objetivo: Analisar a tendência temporal das variáveis relacionadas aos acidentes de quedas na população idosa no Brasil e no estado de São Paulo entre 2000 e 2020 e estimar o impacto econômico para o SUS em 2025. Métodos: Este é um estudo observacional retrospectivo com abordagem quantitativa, com dados do Sistema de Informação em Saúde. Foram utilizados os softwares Joinpoint Regression Program versão 4.7.0 e SPSS versão 20.0 para a realização de regressões lineares, além da análise Average Annual Percent Change (AAPC), adotando com um intervalo de confiança de 95%. Resultados: No país, houve aumento das internações nos dois períodos analisados, assim como os gastos totais, em todos os segmentos analisados. Em concordância no estado de São Paulo, o valor total e as internações apresentaram aumento (AAPC, sendo 8,5% e 4,3% respectivamente). No ano de 2025, as internações por quedas no Brasil estarão próximas a 150 mil, gerando custos em torno de R$260 milhões. Conclusão: Houve o aumento das variáveis analisadas, mostrando a importância de programas de prevenção de quedas associados à políticas públicas nacionais.Palavras-chave:
Acidentes por Quedas; Gastos em Saúde; Saúde do Idoso.Abstract:
Longitudinal monitoring of indicators, such as those related to accidental falls, can facilitate the planning of more effective care and prevention actions. Objective: To analyze the temporal trend of variables related to accidents due to falls in the elderly population in Brazil and in the state of São Paulo between 2000 and 2020 and to estimate the economic impact for the SUS in 2025. Methods: This is a retrospective observational study with a quantitative approach, with datathe Health Information System. The Joinpoint Regression Program version 4.7.0 and SPSS version 20.0 software were used to perform linear regressions, in addition to the Average Annual Percent Change (AAPC) analysis, adopting a 95% confidence interval. Results: In the country, there was an increase in hospitalizations in the two analyzed periods, as well as total expenses, in all analyzed segments. In agreement with the state of São Paulo, the total value and hospitalizations increased (AAPC, being 8.5% and 4.3% respectively). In the year 2025, hospitalizations due to falls in Brazil will be close to 150,000, generating costs of around R$260 million. Conclusion: There was an increase in the analyzed variables, showing the importance of fall prevention programs associated with national public policies.Keywords:
Accidental Falls; Health Expenditures; Elderly Health.Conteúdo:
Acessar Revista no ScieloOutros idiomas:
ACCIDENTS BY FALLS IN OLDER PEOPLE: TIME TREND ANALYSIS FROM 2000 TO 2020 AND ESTIMATED ECONOMIC IMPACT ON THE BRAZILIAN HEALTH SYSTEM IN 2025.
Resumo (abstract):
Longitudinal monitoring of indicators, such as those related to accidental falls, can facilitate the planning of more effective care and prevention actions. Objective: To analyze the temporal trend of variables related to accidents due to falls in the elderly population in Brazil and in the state of São Paulo between 2000 and 2020 and to estimate the economic impact for the SUS in 2025. Methods: This is a retrospective observational study with a quantitative approach, with datathe Health Information System. The Joinpoint Regression Program version 4.7.0 and SPSS version 20.0 software were used to perform linear regressions, in addition to the Average Annual Percent Change (AAPC) analysis, adopting a 95% confidence interval. Results: In the country, there was an increase in hospitalizations in the two analyzed periods, as well as total expenses, in all analyzed segments. In agreement with the state of São Paulo, the total value and hospitalizations increased (AAPC, being 8.5% and 4.3% respectively). In the year 2025, hospitalizations due to falls in Brazil will be close to 150,000, generating costs of around R$260 million. Conclusion: There was an increase in the analyzed variables, showing the importance of fall prevention programs associated with national public policies.Palavras-chave (keywords):
Accidental Falls; Health Expenditures; Elderly Health.Ler versão inglês (english version)
Conteúdo (article):
ACIDENTES POR QUEDAS NA POPULAÇÃO IDOSA: ANÁLISE DE TENDÊNCIA TEMPORAL DE 2000 A 2020 E O IMPACTO ECONÔMICO ESTIMADO NO SISTEMA DE SAÚDE BRASILEIRO EM 2025.FALL ACCIDENTS IN OLDER PEOPLE: A TIME TREND ANALYSIS OF THE PERIOD 2000-2020 AND THE ESTIMATED ECONOMIC BURDEN ON THE BRAZILIAN HEALTH SYSTEM IN 2025.
Areta Dames Cachapuz Novaes¹ - aretadames@gmail.com - https://orcid.org/0000-0001-7567-1042;
Otávio Augusto Fernandes Marques Bianco¹ - otavioafmb@gmail.com - https://orcid.org/0000-0002-7516-4451;
Debora Bernardo da Silva² - deborabernardo.silva@yahoo.com.br - https://orcid.org/0000-0003-4351-8929;
Livea Cristina da Silva¹ - liveasilva@estudante.ufscar.br - https://orcid.org/0000-0001-7012-1877;
Eduarda Adami Dotta¹ - eduardadotta@estudante.ufscar.br - https://orcid.org/0000-0003-2681-3811;
Juliana Hotta Ansai¹ - jhansai@ufscar.br - https://orcid.org/0000-0001-9873-3509;
Larissa Riani Costa Tavares¹ - larissarct@ufscar.br - https://orcid.org/0000-0002-2474-435X;
Karina Gramani-Say¹ - gramanisay@ufscar.br - https://orcid.org/0000-0002-2451-8109.
1. Universidade Federal de São Carlos - SP - Brasil. 2. Universidade de São Paulo - SP - Brasil.
Resumo: O acompanhamento longitudinal de indicadores, como os relacionados às quedas acidentais, pode facilitar o planejamento de ações mais eficazes de assistência e prevenção. Objetivo: Analisar a tendência temporal das variáveis relacionadas aos acidentes de quedas na população idosa no Brasil e no estado de São Paulo entre 2000 e 2020 e estimar o impacto econômico para o SUS em 2025. Métodos: Este é um estudo observacional retrospectivo com abordagem quantitativa, com dados do Sistema de Informação em Saúde. Foram utilizados os softwares Joinpoint Regression Program versão 4.7.0 e SPSS versão 20.0 para a realização de regressões lineares, além da análise Average Annual Percent Change (AAPC), adotando com um intervalo de confiança de 95%. Resultados: No país, houve aumento das internações nos dois períodos analisados, assim como os gastos totais, em todos os segmentos analisados. Em concordância no estado de São Paulo, o valor total e as internações apresentaram aumento (AAPC, sendo 8,5% e 4,3% respectivamente). No ano de 2025, as internações por quedas no Brasil estarão próximas a 150 mil, gerando custos em torno de R$260 milhões. Conclusão: Houve o aumento das variáveis analisadas, mostrando a importância de programas de prevenção de quedas associados à políticas públicas nacionais.
Palavras-chave: Acidentes por Quedas; Gastos em Saúde; Saúde do Idoso.
Abstract: Longitudinal monitoring of indicators of accidental falls can facilitate the planning of effective care and prevention actions. Objective: To analyze temporal trends in variables related to falls among older persons in Brazil and in the state of São Paulo during the period 2000-2020 and estimate the projected economic burden on the health system in 2025. Methods: We conducted a quantitative retrospective observational study using data from the Health Information System. The Joinpoint Regression Program version 4.7.0 and SPSS version 20.0 were used to perform linear regression and calculate the Average Annual Percent Change (AAPC), adopting a 95% confidence interval. Results: There was an increase in mean and total admissions costs due to falls at national level in both intervals of the study period. There was an increase in total admissions costs and the total number of admissions due to falls in the state of São Paulo (AAPC of 8.5% and 4.3%, respectively). Projections for the year 2025 suggest that the total number of admissions due to falls in Brazil will be around 150,000, resulting in costs of approximately R$260 million. Conclusion: There was an increase in the variables analyzed by this study, revealing the importance of fall prevention programs associated with national public policies.
Keywords: Falls accidents. Health costs. Elderly health.
Introduction
Falls in older people are a major public health problem because they can result in a decline in functional capacity and impaired mobility. These problems can be exacerbated if the fall results in fractures, hospital admission, the need for surgical interventions, and pulmonary complications1. Declining functional capacity in older people can hamper independence and autonomy, demanding greater care from family members, formal caregivers, and the state, and often resulting in institutionalization or even death1 2 3.
The prevalence of falls is considered a key indicator for monitoring healthy aging in different countries4 5. In the United States there were 24,190 fatal falls and 3.2 million fall injuries in 2012. Direct medical costs totaled $616.5 million for fatal falls and $30.3 billion for non-fatal injuries, rising to $637.5 million and $31.3 billion, respectively, in 20155. These figures reveal the economic impact of falls and the consequences for the health system.
A descriptive study of temporal trends in deaths due to falls in the Federal District between 1996 and 2017 showed that there were 2,828 deaths, 54.2% of which were among females and 45.8% males. The findings also show that the number of deaths due to falls increased, being more frequent in hospital settings and individuals aged 80 years and over6.
The Brazilian Longitudinal Study of Aging (ELSI-Brasil) found that 25.1% of 4,533 older persons suffered a fall between 2015 and 2016, with 1.8% of falls resulting in a hip or femur fractures, 31.8% of which required surgery for prosthesis placement7. Based on the study findings, assuming an urban population of older persons of 25 million, the authors estimated that approximately 6.2 million older people in Brazil had fallen in the last year7. This generates a burden on the health system due to hospital admissions, hospital stays, and the need for long-term care for older fallers. Brazil’s public health system, the Sistema Único de Saúde (SUS) or Unified Health System, spent more than R$1 billion on admissions of older persons for femur fractures between 2002 and 20168, revealing the need for integrated fall prevention actions at local, state, and federal level.
Data by region show that the prevalence of falls is highest in the Southeast (Minas Gerais, Rio de Janeiro, and São Paulo). Fall prevalence in this region by age group is as follows: 60-69 years (26.1%), 70-79 years (32.4%), and 80 years and over (38.%), compared to a national overall rate of 27.6%9. Another study showed that the rate of admissions due to falls in São Paulo (51.83%) was higher than in other cities. The findings also showed an increase in both admissions and deaths due to a fall, reinforcing the need to investigate the particularities of the state10.
It is therefore important to investigate the epidemiology of fall accidents among the older population and its relationship with data indicating the economic burden of this problem to the health system (admissions due to falls, admissions for femur fractures, length of hospital stay, number of falls, etc.) in order to produce indicators to measure the effectiveness of fall prevention actions developed under the National Health Care Policy for Older Persons11.
The aim of this study was to analyze temporal trends in admissions and deaths due to falls among the older population in Brazil and the state of São Paulo, calculate the costs of admissions during the period 2000-2020, and estimate the projected economic burden for the SUS in 2025.
Methods
We conducted a retrospective quantitative observational study using data collected in November 2021 from the national health information system. The study did not require ethical approval as it was conducted using exclusively secondary data available in the public domain.
We used data from the SUS’s Department of Informatics (DATASUS), more specifically, the Hospital Information System (SIH/SUS). The data were collected for the periods 1998-2007 and 2008-2020 due to changes to the platform brought about by the implementation of the Table of Procedures, Medications, Orthotics and Prostheses, and Special Materials of the Unified Health System in accordance with Ministerial Order 321 issued in 200712. The two different trajectories were: Health information (TABNET) > Epidemiological and Morbidity > External causes by place of admission - 1998-2007 > Brazil by Region and State; Health information (TABNET) > Epidemiological and Morbidity > External causes by place of admission - from 2008 > Brazil by Region and State (Ministério da Saúde)13.
The study period was January 2000 to December 2020, during which several key health policies were created, including the National Policy for Older Persons, which emphasizes the importance of monitoring health indicators among this population. The Policy divides older persons into the following age groups: 60-69 years, 70-79 years, and 80 years and over.
Data on admissions in the code range for Slipping, tripping, stumbling and falls (International Classification of Diseases – ICD-10, W00-W19) were derived from general data on admissions of adults aged 60 years and over. The following information was extracted: Admissions (inpatient hospital authorizations, or IHAs, approved during the period); Total admissions costs during the period; mean length of hospital stay; deaths due to falls; and mean cost per admission (Table 1).
IHAs contain key data on the patient, procedures and tests performed, justification for hospitalization, initial diagnosis, ICD-10 code, requested procedures, among other factors. Total admissions costs were inflation-adjusted based on the National Consumer Price Index (IPCA). Admissions costs did not include budget resources or equipment costs.
Data analysis
Statistical analysis was performed using SPSS version 20.0, adopting a significance level of 0.05. A descriptive statistical analysis was performed to determine the prevalence of admissions and deaths from fall accidents during the study period. Mean admissions costs were calculated by dividing total admissions costs by the total number of admissions.
An annual temporal analysis was performed of the number of admissions and deaths over the period 2000-2020. Regression analysis was carried out using the Joinpoint Regression Program version 4.7.0 to calculate the annual percentage rate change, adopting a 95% confidence interval. Average Annual Percent Change (AAPC) was calculated based on the cumulative geometric mean of annual percentage change (APC) using equal weighting for the length of each segment during the fixed interval. Level of significance was measured using the Monte Carlo permutation test and based on the calculation of the annual percentage change of the ratio using the logarithm of the ratio14 15.
Linear regression was performed for each variable to observe growth in the number of falls over the years and estimated future rates. The economic burden of admissions for the SUS in 2025 was estimated based on the slope coefficient of the linear regression of length of stay and cost de admissions multiplied by the period of time (five years).
3. Results
Table 1 shows the epidemiological data on falls accidents collected from DATASUS (Ministério da Saúde)13. The results of the linear regression show a significant increase in the number of admissions due to falls and associated health costs over the period in Brazil and the state of São Paulo (Table 2). Scatter plots of the number of admissions and total and mean admissions costs reveal a linear distribution (Figure 1).
Based on the study findings, it is estimated that the total number of admissions due to falls in the country in 2025 will be around 150,000 and that total admissions costs will amount to R$260 million. It is also important to highlight that, while average hospital stay remained stable over the study period (between 6 and 7 days), mean admissions costs more than doubled. The data for the state of São Paulo followed the same pattern.
Temporal analysis (Brazil)
Table 3 shows temporal trends in the distribution of the epidemiological data, revealing a significant increase in admissions due to falls in the two periods analyzed by this study (2000-2008 and 2008-2020). The findings show an increase in total admissions costs across all segments. Mean admissions costs showed a significant increase in both periods (p-value ≤ 0.001). The AAPC over the period 2000-2020 was 4.4%. There was a significant increase in the number of deaths over the period 2000-2020 (AAPC 5.5%, p ≤ 0.001).
Temporal analysis (state of São Paulo)
There was a significant increase in admissions due to falls in the State of São Paulo over the period 2000-2020, with an AAPC of 4.3% (Table 4). There was a significant increase in AAPC for total and mean admissions costs over the period (8.5% and 4.3%, respectively). Finally, the number of deaths also showed a significant AAPC of 5.5% over the study period.
4. Discussion
The findings reveal a significant increase in the number of falls and deaths and costs during the period 2000-2020, together with a projected increase up to 2025 if effective prevention policies and interventions are not implemented. The number of admissions due to falls increased by 5.1% per year. This increase has also been observed in other countries, reinforcing that in the absence of preventive measures numbers are set to escalate alarmingly in the coming years.
Advances in technology and medicine have contributed to a fall in fertility rates and an increase in life expectancy, resulting in the phenomenon of population aging16. Today it is estimated that there are around 1 billion older persons worlwide and 28 million in Brazil17. While this is a global phenomenon, as a developing country Brazil does not have the capacity to meet the demands of a growing 60-and-over population, resulting in individual changes that lead to health problems, including fall accidents18. The data show a relationship between population aging and an increase in falls16.
It is important to note that cost increases and inflation contributed to the overall increase in total and mean admissions costs. When the mean admission cost in 2000 is inflation-adjusted using the consumer price index the amount is R$3,101.72. This amount is almost twice that in 2019, suggesting a reduction in investment in senior care and fall prevention. Nevertheless, there was an increase of 9.6% per year in the overall cost of admissions due to falls in Brazil19.
The temporal analysis also reveals a number of trends across different periods. It is important to highlight that costs of falls may be underestimated because not all falls result in hospitalization. In this respect, studies show that the prevalence of falls varies between 25% and 30% and that falls can involve unreported costs associated with out-of-hospital treatment20.
The admissions rate per 100,000 population in Brazil is similar to that in other developing countries such as China, Kuwait, and Thailand21 22 23. However, rates are almost half those in developed countries such as the Netherlands and Poland24 25. This may be explained by the difference in the proportion of the population aged over 60 between countries, as older age is a risk factor for falls and admissions due to falls26.
The number of deaths due to falls rose constantly throughout the study period, with an APC of 6.4%. This rate was 5.5% in the state of São Paulo, which is consistent with the findings of recent studies. The findings of a study conducted by Abreu et al.10 of the period 1996-2012 show that there were 941,923 admissions and 66,876 deaths due to falls among people aged 60 years and over in Brazil, with 32.3% of deaths and 21.2% of admissions occurring in state capitals. The results also point to a growing trend in rates of admissions and deaths due to falls in state capitals, with a 200% increase in mortality (from 1.25 to 3.75 per 10,000 population), and a sharp rise in admission rates, from 2.58 to 41.37 per 10,000 population10. These findings point to a need for changes to health services in the country, given that falls can have serious consequences, such as femur fractures. One measure adopted by health professionals is early mobilization to stimulate mobility after a surgical intervention. The adoption of this approach has been associated with a reduction in mortality within 6 to 12 months after sustaining the fracture, with lower mortality rates in individuals who walk within 10 days after surgery27.
Another important finding reported by Abreu et al.10 is that São Paulo had one of the highest rates of admissions (51.83%). This may be related to the fact that the number of falls and associated costs are highest in the South and Southeast. This may explain the small difference in the rate of increase across the variables. At national level, the number of deaths due to falls increased by 3.7%, compared to 3.6% in São Paulo. These results reinforce the need for further research in this area10 27.
One of the indicators used to assess the safety and quality of health care for older persons in Australia is the number of falls in long-term care facilities or hospitals divided by the number of total admissions28. Efforts are therefore made to monitor accidental falls among older persons to ensure high-quality care.
As mentioned above, trends in falls and costs of admissions in São Paulo were similar to national trends over the study period, showing the urgent need to implement low-cost fall prevention programs in primary care services, train health professionals to assess risk factors for falls, and promote fall education for older persons, family members, and caregivers. In this respect, Winser et al.29 found that physical activity-based interventions have the best benefit-to-cost ratio for fall prevention in older persons. This is due to the low cost of implementing these programs, as, interventions can be implemented independently at home using simple low-cost equipment after training and the familiarization of older persons29. Furthermore, in a systematic review of studies involving individuals aged 80 years and over, Davis et al.30 showed that home-based strength and balance interventions were the most cost effective form of fall prevention30.
In general, multifactorial programs combining physical exercise, medication adjustment, education, home adaptations, and other interventions are less cost effective due to the high cost and relatively low real impact on fall reduction31. However, individualized multifactorial programs are essential for fall prevention, especially for frail fallers. It is important to highlight that the SUS already has multiprofessional health care teams, meaning that additional spending on human resources would not be necessary to implement these types of programs. New research to monitor the long-term costs of these monitoring programs for elderly fallers is urgent to promote fall prevention in Brazil. Primary care services play an important role in fall prevention and in the management and implementation of these interventions for both frail and stronger fallers, reducing adverse fall outcomes such as admissions, fractures, and deaths.
When implementing fall prevention actions, it is important to consider key information on the socioeconomic status of older persons. Recent studies show that fallers are mostly retired women, due to the feminization of old age, with a low level of education (between 1 and 4 years of schooling). Other important factors include age, with chances of suffering a fall increasing with age, and comorbidities, with the likelihood of falling increasing with increasing number of conditions. This pattern can also be seen in relation to fragility, with each point on the frailty scale increasing the chances of falling26. In addition, older persons with low incomes tend to have poorer access to health services32.
The factors mentioned above require an alternative approach to health care for older persons, focusing on prevention and health promotion. Fall accidents have an extremely negative impact on older persons and the health system, including high care costs, various social problems, and overburdening of health services. These factors underscore the need to establish groups, gain a comprehensive understanding of falls, and take an interdisciplinary approach to prevention, considering that these accidents are influenced by multiple factors33.
Fall prevention interventions should be evidence-based to ensure the efficient use of public resources and promote a real impact on the health of older persons. It is therefore important to develop studies in Brazil of fall prevention programs and their impact on costs. Furthermore, there is a need to develop indicators that demonstrate the real situation and enable this type of analysis. Finally, prevention and monitoring programs should also analyze modifiable fall risk factors that go beyond balance and muscle strength. Some of these factors, such as fear of falling and vitamin D deficiency, can result in an increase in the utilization of health services, hospitalization, and the development of new problems, including depression, anxiety, and frailty syndrome.
To this end, greater attention needs to be given to DATASUS and data feeding, which requires the commitment of professionals across all spheres of health to ensure the generation of reliable data34 35.
In a study published in 1994, Veras et al. reported a low level of reliability of data on certain variables, including the primary diagnosis and auxiliary diagnostic and therapeutic services36. In a study conducted in 2000, contrary to expectations, Mendes et al. concluded that the SIH was a high quality disease surveillance platform with great potential for improvement, provided certain modifications were made and professionals used it on a constant basis37. Similarly, as study undertaken in 2016 confirmed that, while the completion rate for the fields "procedure performed", "primary diagnosis", and "secondary diagnosis" was inadequate, the completion of basic hospital registration information fields was comprehensive and consistent. In addition, the SIH has exceeded 100% admissions coverage38.
However, a study by Piccolo found only seven studies on the quality data such as infant mortality, live births, and vital statistics made available on the DATASUS platform, suggesting improvements in records over time and a limited number of studies that effectively evaluate the quality of available data39.
One of the limitations of this study is therefore the use of data from the SIH-SUS and the fact that we only examined relationships between variables and time. Furthermore, there are few records of accidents that do not result in hospitalization or more serious consequences, meaning it was not possible to investigate these events. Future research should seek to gain a more in-depth understanding of the relationship between falls and other variables of interest and potentially modifiable risk factors.
5. Conclusion
The number of admissions due to falls and total admissions costs increased over the period 2000-2020 at both national level and in the state of São Paulo. The results of the temporal trend analysis showed a significant increase across all areas assessed over the study period except length of hospital stay. Our findings reveal the need for increased investment in low-cost interventions in primary health care services and greater attention to fall prevention on the part of local and state health care managers. Without any change to patterns of growth, it is estimated that costs will amount to R$260 million in 2025. Finally, additional research is needed in Brazil to evaluate the cost effectiveness of prevention interventions and programs using accurate data collected across the various spheres of health care.
6. References
1. Luzia MF, Prates CG, Bombardelli CF, Adorna JB, Moura GMSS. Características das quedas com dano em pacientes hospitalizados. Revista Gaúcha de Enfermagem [online]. 2019, v. 40, n. spe, e 20180307. Disponível em:
2. Macedo GG, Gomes Teixeira TR, Ganem G, Daltro G de C, Faleiro TB, Araújo Veiga Rosário D, Franco BAFM. Fraturas do fêmur em idosos: um problema de saúde pública no Brasil. REAC [Internet]. 23out.2019;6:e1112. Available from:
3. Freitas BKS, Paiva OEL. Consequências das quedas em idosos: revisão da literatura. Revista Científica Univiçosa, v. 10, n. 1, p. 230 – 235, Dezembro 2018.
4. Peng K, Tian M, Andersen M, Zhang J, Liu Y, Wang Q, Lindley R, Ivers R. Incidence, risk factors and economic burden of fall related injuries in older Chinese people: a systematic review. Inj Prev, v. 25, p. 4 – 12, 2019. Disponível em:
5. Burns ER, Stevens JA, Lee R. The direct costs of fatal and non-fatal falls among older adults — United States. J Safety Res, v. 58, p. 99 – 103, September 2016. Disponível em:
6. Silva, FMA, Safons, MP. Mortalidade por quedas em idosos no Distrito Federal: características e tendência temporal no período 1996-2017. Epidemiologia e Serviços de Saúde, v. 31, 2022. Disponível em:
7. Pimentel WRT, Pagotto V, Stopa SR, Hoffmann MCCL, Andrade FB, Junior PRBS, Lima-Costa MF, Menezes RL. Falls among Brazilian older adults living in urban areas: ELSI-Brazil. Revista de Saúde Pública, Faculdade de Saúde Pública da Universidade de São Paulo, v. 52, n. 3, 00 2018. Disponível em:
8. Gopinath B, McMahon CM, Burlutsky G, Mitchell P. Hearing and vision impairment and the 5-year incidence of falls in older adults. Age Ageing, v. 45, n. 3, p. 409 – 414, May 2016. Disponível em:
9. Siqueira, FV, Facchini, LA, Silveira DSD, Piccini RX, Tomasi E, Thumé E, Silva SM, Dilélio A. Prevalence of falls in elderly in Brazil: a countrywide analysis. Cadernos de Saúde Pública, v. 27, p. 1819-1826, 2011.Disponível em:
10. Abreu, DROM, Novaes ES, Oliveira RRD, Mathias TADF, Marcon SS. Internação e mortalidade por quedas em idosos no Brasil: análise de tendência. Ciencia & saude coletiva, v. 23, p. 1131-1141, 2018. Disponível em:
11. Ministério da Saúde. Portaria n. 2.528, de 19 de outubro de 2006. Aprova a Política Nacional de Saúde da Pessoa Idosa. 2006.
12. Brasil MS. Portaria GM/MS n º 321 de 08 de fevereiro de 2007. Institui a Tabela de Procedimentos, Medicamentos, Órteses e Próteses e Materiais Especiais do SUS. Diário Oficial República Federativa do Brasil, Brasília DF, 09 de fevereiro de 2007. Disponível em:
13. Ministério da Saúde, Sistema de Informações Hospitalares – SIH/SUS, 2021. Disponível em:
14. Kim HJ, Fay MP, Feuer EJ, Midthune DN. Permutation tests for joinpoint regression with applications to cancer rates. Statistics in Medicine, v. 19, n. 3, p. 335–351, 15 fev. 2000. Disponível em:
15. Kim HJ, Fay MP, Yu B, Barrett MJ, Feuer EJ. Comparability of segmented line regression models. Biometrics, v. 60, n. 4, p. 1005–1014, dez. 2004. Disponível em:
16. Dias Júnior CS, Costa CS, Lacerda MA. O envelhecimento da população brasileira: uma análise de conteúdo das páginas da REBEP. Rev. bras. geriatr. gerontol., Rio de Janeiro , v. 9, n. 2, p. 7-24, Aug. 2006 . Disponível em:
17. Instituto Brasileiro de Geografia e Estatística IBGE. Projeção da população do Brasil e das Unidades da Federação, 2018. Disponível em:
18. Souza AQD, Pegorari MS, Nascimento JS, Oliveira PBD, Tavares DMDS. Incidência e fatores preditivos de quedas em idosos na comunidade: um estudo longitudinal. Ciência & Saúde Coletiva [online]. v. 24, n. 9 , pp. 3507-3516, 2019. Disponível em:
19. Church J, Goodall S, Norman R, Haas M. An economic evaluation of community and residential aged care falls prevention strategies in NSW. N S W Public Health Bull, v. 22, n. 3-4, p. 60 – 68, June 2011. Disponível em:
20. Salari N, Darvishi N, Ahmadipanah M, Shohaimi S, Mohammadi M. Global prevalence of falls in the older adults: a comprehensive systematic review and meta-analysis. J Orthop Surg Res. 2022 Jun 28;17(1):334. Disponível em:
21. Tang CTL, Sing CW, Kwok TCY, Li GHY, Cheung CL. Secular trends in fall-related hospitalizations in adolescents, youth and adults: a population-based study. Lancet Reg Health West Pac. 2021 Jun 9;12:100183. doi: 10.1016/j.lanwpc.2021.100183. PMID: 34527974; PMCID: PMC8356129. Disponível em:
22. Ibrahim IK, AlAsoomi F. Hospitalization of unintentional fall injuries in Kuwait: a national database study. BMC Public Health. 2021 Jul 10;21(1):1364. doi: 10.1186/s12889-021-11358-8. PMID: 34243734; PMCID: PMC8270774. Disponível em:
23. Limpawattana P, Sutra S, Thavompitak Y, Chindaprasirt J, Mairieng P. Geriatric hospitalizations due to fall-related injuries. J Med Assoc Thai. 2012 Jul;95 Suppl 7:S235-9. PMID: 23130461. Disponível em:
24. Hartholt KA, van der Velde N, Looman CW, van Lieshout EM, Panneman MJ, van Beeck EF, Patka P, van der Cammen TJ. Trends in fall-related hospital admissions in older persons in the Netherlands. Arch Intern Med. 2010 May 24;170(10):905-11. doi: 10.1001/archinternmed.2010.106. Disponível em:
25. Buczak-Stec E, Goryński P. Fall related hospital admissions among seniors in Poland in 2010. Przegl Epidemiol. 2013;67(1):57-62, 141-4. English, Polish. PMID: 23745377. Disponível em:
26. Fhon JRS, Rodrigues RAP. Queda e fatores demográficos e clínicos no idoso: estudo de seguimento. Enferm Glob, v. 61, p. 148-58, 2021. Disponível em:
27. Silva JCA, Ribeiro MDA, da Silva LN, Pinheiro HA, Bezerra LMA, Oliveira SB. Fraturas de fêmur em idosos nas diferentes regiões do Brasil de 2015 a 2020: análise dos custos, tempo de internação e total de óbitos. Revista Pesquisa em Fisioterapia, v. 11, n. 4, p. 798-806, 2021. Disponível em:
28. Australian Commission on Safety and Quality in Health Care. Preventing Falls and Harm From Falls in Older People: Best Practice Guidelines for Australian Residential Aged Care Facilities. [S.l.], 2009. Disponível em:
29. Winser SJ, Chan HTF, Ho L, Chung LS, Ching LT, Felix TKL, Kannan P. Dosage for cost-effective exercise-based falls prevention programs for older people: A systematic review of economic evaluations. Ann Phys Rehabil Med, v. 63, n. 1, p. 69 – 80, January 2020. Disponível em:
30. Davis JC, Robertson MC, Ashe MC, Liu-Ambrose T, Khan KM, Marra CA. Does a home-based strength and balance programme in people aged >80 years provide the best value for money to prevent falls? A systematic review of economic evaluations of falls prevention interventions. Br J Sports Med, v. 44, p. 80 – 89, 2010. Disponível em:
31. Olij BF, Ophuis RH, Polinder S, Van Beeck EF, Burdorf A, Panneman MJ, Sterke CS. Economic Evaluations of Falls Prevention Programs for Older Adults: A Systematic Review. Journal of the American Geriatrics Society, v. 66, n. 11, p. 2197 – 2204, November 2018. Disponível em:
32. Alves MR, Fett WCR. Quedas e características socioeconômicas em idosos residentes em Rondônia, Amazônia ocidental brasileira (2007-2022). Corpoconsciência, p. 154-172, 2022. Disponível em:
33. Cruz DTD, Ribeiro LC, Vieira MDT, Teixeira MTB, Bastos RR, Leite ICG.. Prevalência de quedas e fatores associados em idosos. Revista de saúde pública, v. 46, n. 1, p. 138-146, 2012. Disponível em:
34. da Silva ES, de Jesus TO, de Souza CL, da Silva MA. As Contribuições Do Datasus Para O Desenvolvimento Das Pesquisas Em Saúde No Brasil. In: 12º Congresso Internacional da Rede Unida. 2016. Disponível em:
35. Evers SM, Dorresteijn TA, Wijnen BF, van Haastregt JC, Kempen GI, Zijlstra GR. Economic evaluation of a home-based programme to reduce concerns about falls in frail, independently-living older people. Expert Review of Pharmacoeconomics & Outcomes Research, v. 20, n. 6, p. 641 – 651, September 2020. Disponível em:
36. Veras CMT, Martins MS. A confiabilidade dos dados nos formulários de autorização de internação hospitalar (AIH). Cadernos de Saúde Pública 1994; 10(3) : 339-355. Disponível em:
37. Mendes ADCG, Silva Junior JBD, Madeiros KR, Lyra TM , Sá DAD. Avaliação do Sistema de Informações Hospitalares-SIH/SUS como fonte complementar na vigilância e monitoramento de doenças de notificação compulsória. 2000. Disponível em:
38. Machado JP; Martins M; Leite IDC. Qualidade das bases de dados hospitalares no Brasil: alguns elementos. Revista Brasileira de Epidemiologia, v. 19, p. 567-581, 2016. Disponível em:
39. Piccolo DM. Qualidade de dados dos Sistemas de Informação do DATASUS:Análise crítica da literatura. Ciência da Informação em Revista, v. 5, n. 3, p. 13-19, Maceió, 2018. Disponível em: