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Factors associated with mortality among elderly people hospitalized due to femoral fractures Study conducted at the Hospital Nossa Senhora da Conceição, Tubarão, SC, Brazil.

ABSTRACT

OBJECTIVE:

To analyze factors associated with mortality among elderly people hospitalized in a single-center regional hospital due to femoral fractures.

METHODS:

This was a retrospective cohort study. Patients aged 60 years or over who were hospitalized with a diagnosis of femoral fracture (ICD S72) between 2008 and 2013 were selected through the electronic medical records.

RESULTS:

The study evaluated 195 individuals of mean age 78.5 ± 9.6 years; females predominated (68.2%). The main mechanism for falls was low-energy (87.2%). Surgery was performed on 93.3% of the patients; the mean length of hospital stay was 13.6 ± 7.5 days and the mean waiting time for the surgery was 7.7 ± 4.2 days. The prevalence of mortality was 14.4%, and this occurred mostly among older individuals (p = 0.029); patients with leukocytosis (p < 0.001); those who needed intensive care (p < 0.001); and those who did not undergo surgery (p < 0.001). The mean survival was significantly longer among patients who underwent surgery and shorter among those who needed intensive care.

CONCLUSION:

Women predominated among the hospitalizations, and the degree of leukocytosis associated with advanced age presented a relationship with mortality, independent of the type of lesion or surgical procedure. More studies still need to be conducted in order to assess other factors associated with mortality.

Keywords:
Femoral fractures; Elderly; Hospital mortality; Survival analysis

RESUMO

OBJETIVO:

Analisar os fatores associados à mortalidade em idosos hospitalizados por fratura de fêmur em um hospital unicêntrico regional.

MÉTODOS:

Estudo de coorte retrospectiva. Foram selecionados, por meio do prontuário eletrônico, pacientes internados com diagnóstico de fratura de fêmur (CID S72) com 60 anos ou mais de 2008 a 2013.

RESULTADOS:

Foram avaliados 195 indivíduos com idade média de 78,5 ± 9,6 e o gênero feminino foi mais prevalente (68,2%). O principal mecanismo de queda foi o de baixa energia (87,2%), a feitura de cirurgia foi de 93,3%, o tempo de internação médio foi de 13,6 ± 7,5 dias, o tempo de espera para a cirurgia médio foi de 7,7 ± 4,2 dias. A prevalência de mortalidade foi de 14,4%, ocorreu principalmente nos indivíduos mais idosos (p = 0,029), com leucocitose (p < 0,001), com necessidade de cuidados intensivos (p < 0,001) e que não foram submetidos a cirurgia (p < 0,001). A sobrevida média foi significativamente maior nos pacientes submetidos a cirurgia e inversamente nos pacientes que necessitaram da unidade de terapia intensiva.

CONCLUSÃO:

As mulheres predominaram nas internações e o grau de leucocitose associado a idade avançada apresentou relação com a mortalidade, independentemente do tipo de lesão e procedimento cirúrgico. Ainda devem ser feitos mais estudos para avaliar outros fatores associados à mortalidade.

Palavras-chave:
Fraturas do fêmur; Idoso; Mortalidade hospitalar; Análise de sobrevida

Introduction

The World Health Organization (WHO) classifies as elderly every individual aged 60 years or more.11. Organização Mundial da Saúde. Envelhecimento ativo: uma política de saúde. Brasília, DF: Organização Pan-Americana de Saúde; 2005. This population sample presents an accelerated increasing percentage rate, generating an increase in the prevalence of chronic degenerative diseases.22. Bortolon PC, Andrade CLT, Andrade CAF. O perfil das internações do SUS para fratura osteoporótica de fêmur em idosos no Brasil: uma descrição do triênio 2006-2008. Cad Saúde Pública. 2011;27(4):733-42.

According to Monteiro, falls of the elderly - in addition to the injury itself - are also damaging the family, as they create a dependency due to the loss of autonomy after the trauma event, representing an important social, economic, and public health issue.33. Monteiro CR, Faro ACM. Avaliação funcional de idoso vítima de fraturas na hospitalização e no domicílio. Rev Esc Enferm USP. 2010;44(3):719-24. It is estimated that the number of hip fractures worldwide will reach 4.5 million cases in 2050.44. Orces CH. Epidemiology of hip fractures in Ecuador. Rev Panam Salud Publica. 2009;25(5):438-42.

The main factors associated with mortality after fracture are age, comorbidities, cognitive status, time between fracture and surgery, and type of anesthesia used.55. Silveira VAL, Medeiros MMC, Coelho JM, Mota RS, Noleto JCS, Costa FS, et al. Incidência de fratura do quadril em área urbana do Nordeste brasileiro. Cad Saúde Pública. 2005;21:907-12.,66. Sakaki MH, Oliveira AR, Coelho FF, Leme LEG, Suzuki I, Amatuzzi MM. Estudo da mortalidade na fratura do fêmur proximal em idosos. Acta Ortop Bras. 2004;12(4):242-9.,77. Souza RC, Pinheiro RS, Coeli CM, Junior KRC, Torres TZG. Aplicação de medidas de ajuste de risco para a mortalidade após fratura proximal de fêmur. Rev Saúde Pública. 2007;41(4):625-31.and88. de Rooij SE. Hip protectors to prevent femoral fracture. BMJ. 2006;332(7541):559-60. However, the association of time until surgery and risk of death is controversial. The literature indicates that there is a relationship between time until surgery and mortality.99. Etxebarria- Foronda I, Mar J, Arrospide A, Ruiz de Eguino J. Cost and mortality associated to the surgical delay of patients with a hip fracture. Rev Esp Salud Publica. 2013;87(6):639-49. Altered laboratory blood exams such as leukocyte levels, which may present as a associated factor with death, have also been widely addressed.1010. White SM, Sanghera P, Chakladar A. Leukocytosis increases length of inpatient stay but not age-adjusted 30- day mortality, after hip fracture. Age Ageing. 2010;39(5):650-3.

From this perspective, the data presented herein is expected to lead to a better understanding of this problem and contribute to a better care of elderly patients with femoral fracture. Therefore, this study aimed to evaluate the associated factors with mortality in elderly patients with hip fracture during hospitalization.

Material and methods

The present study was a retrospective cohort of 275 elderly patients who had femoral fractures from January 2008 to December 2013 and were admitted to a single-center, regional reference hospital.

For sample selection, the medical patient record of the institution was contacted in order to stratify individuals hospitalized with a diagnosis of femoral fracture (ICD-10 S72), who were older than or equal to 60 years in the proposed period.

The exclusion criteria comprised incomplete data on the medical charts, misdiagnosis at hospitalization, transfer to other hospitals, and re-admissions. The study was approved by the Research Ethics Committee under No. 34735814.2.0000.5369.

The following variables were collected: gender, age, comorbidities, type and side of fracture, type of fall, surgical treatment, type of surgery and time until surgery, hospital length of stay, need for intensive care treatment, hematocrit and leukocytes in the first week of hospitalization, and outcome, described as discharge or death.

An anatomical subdivision was used to classify femoral fracture regions. The proximal part of the femur comprises the intracapsular and extracapsular fractures; the joint capsule is used as a reference. In turn, the intermediate portion corresponds to the femoral shaft; the final subdivision consists of fractures of the distal part of the femur.1111. Faloppa F, Albertoni WM. Guia de ortopedia e traumatologia da Unifesp-EPM. São Paulo: Manole; 2008.

Data were stored in an Excel spreadsheet and then transferred to the SPSS 20.0 software for analysis. Numerical variables were presented as central tendency and dispersion, and categorical variables as absolute frequencies and percentages.

Numerical variables were analyzed using the Kolmogorov-Smirnov normality test. To compare these variables with the outcome, Student's t-test (p < 0.05) was used for data with normal distribution; for nonparametric variables, the Mann-Whitney test was used (p < 0.05). For results with significant difference, accuracy was assessed through the area under the ROC curve.

For comparison among gender, ICU hospitalization, and performance of surgery, the chi-squared test was used (p < 0.05). The relative risks of death, with their respective 95% confidence intervals, were calculated.

The survival rate of patients who required intensive care and underwent surgery was analyzed using Cox regression (p < 0.05) and presented through Kaplan-Meier curves.

Results

Initially, 275 individuals were selected. Of these, 80 were discarded due to incomplete or missing data in the medical records, as well as admissions without actual fractures, with consequent discharge, transfers, or re-admissions. Therefore, a sample of 195 patients was obtained. Table 1 describes population characteristics.

Table 1
Characteristics of the elderly patients hospitalized for hip fracture.

Table 2 shows the comparison between time until surgery and hospitalization, and hematocrit and leukocyte count at admission, for both discharge and death groups. A significant difference was observed only regarding age and leukocyte count.

Table 2
Comparison of the numerical variables according to the outcome of death.

In the analysis of the numerical variables that presented significant difference between discharge and death from the perspective of the ROC curve, the accuracy for death prognosis obtained by the area under the curve was 0.761 (95% CI: 0.664-0.859), p < 0.001 for leukocytes, and 0.643 (95% CI: 0.525-0.762), p < 0.023 for age (Fig. 1).

Fig. 1
ROC curve of age, white blood cells, and death prognosis.

In the comparison of outcome and gender, no significant difference was observed: 16.2% males and 13.5% females (p < 0.630). However, individuals requiring ICU admission presented a relative risk of death of 10 (95% CI: 4.1-24.4); non-performance of surgery showed a relative risk of 30.4 (95% CI: 7.6-120.6), both with statistical significance (p < 0.001).

The mean survival of patients hospitalized in the ICU was 28.2 days (95% CI: 22.1-34.4); for those who did not require ICU admission, 47 days (95% CI: 36.5-57.5), with significant difference (p < 0.001) (Fig. 2).

Fig. 2
Survival in patients who were or were not admitted to the ICU.

The mean survival of patients who did not receive surgery was 11.7 days (95% CI: 7.9-15.5); for those who underwent surgery, it was 45.8 days (95% CI: 37.9-53.8), with significant difference (p < 0.001) (Fig. 3).

Fig. 3
Survival in patients who did or did not undergo surgery.

Discussion

Regarding gender, the present study observed a higher number of women who had suffered femoral fracture. This finding is similar to that of a retrospective study in the Lazio region, with 6896 patients, in which 78% of the elderly patients admitted with femoral fracture were females.1212. Castronuovo E, Pezzotti P, Franzo A, Di Lallo D, Guasticchi G. Early and late mortality in elderly patients after hip fracture: a cohort study using administrative health databases in the Lazio region, Italy. BMC Geriatr. 2011;11:37.

Regarding type of fractures, a higher incidence of extracapsular fractures was observed when compared with intracapsular fractures. This data is corroborated by a retrospective study of 1911 elderly patients with femoral fractures that observed similar prevalence.1313. Constantino H, Patrício PF, Pedrosa C, Pinto FG, Pereira V, Diogo N. Fratura proximal do fémur bilateral: incidência e fatores de risco de fratura contralateral. Rev. Port Ortop Traumatol. 2013;21(3):381-7.

As for the dynamics of trauma, this study showed a high prevalence of low-energy trauma. This finding is justified by the characteristics of the sample, which was comprised primarily of elderly patients. Moraes et al.1414. Moraes FB, Silva LL, Ferreira FV, Ferro AM, Rocha VL, Teixeira KS. Avaliação epidemiológica e radiológica das fraturas diafisárias do fêmur: estudo de 200 casos. Rev Bras Ortop. 2009;44(3):199-203. stated that such findings are due to the many mechanisms of fall from patients' own height, which has a peak incidence between 60 and 70 years and is most likely to occur in females, which would explain the greater exposure of women to femoral fractures.

In the analysis of survival curve and comparison of individuals with or without surgical indication, a significant difference was observed between these groups; survival rate was significantly higher in individuals who underwent surgery. Roche et al.1515. Roche JJ, Wenn RT, Sahota O, Moran CG. Effect of comorbidities and postoperative complications on mortality after hip fracture in elderly people:prospective observational cohort study. BMJ. 2005;331(7529):1374. concluded that the greatest risk factor for mortality was directly related to the presence of three or more comorbidities evaluated preoperatively. In contrast, another study showed that, for patients without clinical conditions for surgery, not performing surgery was the best choice, and there was no significant difference in functional outcome and mortality when compared with patients treated surgically.1616. Hossain M, Neelapala V, Andrew JG. Results of non- operative treatment following hip fracture compared to surgical intervention. Injury. 2009;40(4):418-21. Although the present study did not compare mortality with morbidities, it can be deduced that the early death observed is related to the number of comorbidities in these patients.

Regarding type of procedure, osteosynthesis and total or partial arthroplasty were the most frequent choices. However, surgical approach had no significant relationship with recovery time, nor with death. A Norwegian study of 4335 elderly patients compared osteosynthesis with arthroplasty in the treatment of femoral neck fracture and observed no differences in mortality rates one year after surgery. This same study found that patients undergoing osteosynthesis reported higher pain levels, greater dissatisfaction with the results of surgery, and lower quality of life than the arthroplasty group.1717. Gjertsen JE, Vinje T, Engesaeter LB, Lie SA, Havelin LI, Furnes O, et al. Internal screw fixation compared with bipolar hemiarthroplasty for treatment of displaced femoral neck fractures in elderly patients. J Bone Joint Surg Am. 2010;92(3):619-28.

Regarding waiting time until surgery, there was no significant difference between discharge and death outcomes for these patients. Although the literature is quite controversial,99. Etxebarria- Foronda I, Mar J, Arrospide A, Ruiz de Eguino J. Cost and mortality associated to the surgical delay of patients with a hip fracture. Rev Esp Salud Publica. 2013;87(6):639-49. according to Grimes et al.,1818. Grimes JP, Gregory PM, Noveck H, Butler MS, Carson JL. The effects of time-to- surgery on mortality and morbidity in patients following hip fracture. Am J Med. 2002;112(9):702-9. time between trauma and surgery appears to influence mortality in elderly patients with femoral fractures. In a study of 8383 subjects, patients were divided into three groups: first group were operated within the first 24 hours after fracture; second group, after 24 hours of fracture, but without active disease; and third group was also operated after 24 hours, but with active pathology. Patients with active disease had their surgery postponed due to the presence of decompensated disease. At the end of the study, the mortality of the individuals operated within the first 24 hours was lower. However, when the groups were homogenized for presence of associated diseases, this difference disappeared.1818. Grimes JP, Gregory PM, Noveck H, Butler MS, Carson JL. The effects of time-to- surgery on mortality and morbidity in patients following hip fracture. Am J Med. 2002;112(9):702-9.

There are several possible explanations for this finding. The first possibility may be linked to the fact that the occurrence of many post-surgical complications in patients who died may not necessarily be associated with waiting time. Secondly, during the collection phase, a marked pattern of postponement of surgical procedures was observed (although not described in the study), due to either lack of beds in the ICU or inadequate clinical conditions of patients, both of those who were discharged and those who died. However, an observational study of 2660 patients found that delaying surgery by up to four days did not affect mortality, while a delay of more than four days significantly increased mortality rates.1919. Moran CG, Wenn RT, Sikand M, Taylor AM. Early mortality after hip fracture: is delay before surgery important? J Bone Joint Surg Am. 2005;87(3):483-9. Nevertheless, a systematic review of 256,367 patients observed that a delay of more than 48 hours increases the risk of all-cause mortality at 30 days after surgery by up to 41%.2020. Shiga T, Wajima Z, Ohe Y. Is operative delay associated with increased mortality of hip fracture patients? Systematic review, meta- analysis, and meta- regression. Can J Anaesth. 2008;55(3):146-54.

Mean survival of patients who did not require ICU admission was higher than that of those who did. The main hypothesis was that the latter had a more unfavorable clinical picture, a greater number of comorbidities, and older age when compared with patients who did not require intensive care. However, Fuchs et al.,2121. Fuchs L, Chronaki CE, Park S, Novack V, Baumfeld Y, Scott D, et al. ICU admission characteristics and mortality rates among elderly and very elderly patients. Intensive Care Med. 2012;38(10):1654-61. with 7265 patients over 65 years, observed that the main reason for ICU admission was associated comorbidities. Old age should be considered as a risk factor, especially for patients older than 75 years admitted in these units.

Few studies have sought to analyze the prognostic impact of inflammatory cells in femur fractures. In this study, a significant difference was observed in the relationship between total leukocyte count during hospitalization and death. In this respect, according to the ROC curve analysis, leukocytes were shown to have a discriminative ability to identify those patients with femoral fracture who had a higher risk of death. White et al.1010. White SM, Sanghera P, Chakladar A. Leukocytosis increases length of inpatient stay but not age-adjusted 30- day mortality, after hip fracture. Age Ageing. 2010;39(5):650-3. observed a prevalence of leukocytosis of 43.5%. However, the high leukocyte count was at the expense of increasing the number of neutrophils; this variable was not evaluated in the present study. This finding is relatively common in patients with hip fracture, indicating possible presence of a previous infection or an infection that developed after the fracture.1010. White SM, Sanghera P, Chakladar A. Leukocytosis increases length of inpatient stay but not age-adjusted 30- day mortality, after hip fracture. Age Ageing. 2010;39(5):650-3. Thus, it is important to note that the cellular and humoral elements decrease with increasing age; the present study consisted of elderly patients with a mean 82.1 years in the higher mortality group, which may explain the higher mean total leukocyte count in patients who died. In addition, when analyzing the ROC curve, age also presented a discriminative ability to identify individuals at higher risk of death.

The overall mortality of 14.4% can be considered high, and is considerably different from the results found in international studies, where death rates were lower. In a retrospective study in Canada with 3981 patients, the hospital mortality rate was 6.3%.2222. Jiang HX, Majumdar SR, Dick DA, Moreau M, Raso J, Otto DD, et al. Development and initial validation of a risk score for predicting in-hospital and 1 -year mortality in patients with hip fractures. J Bone Miner Res. 2005;20(3):494-500. In this context, another retrospective study in Italy with 6629 elderly patients presented an even lower rate of 5.4%.2323. Franzo A, Francescutti C, Simon G. Risk factors correlated with post- operative mortality for hip fracture surgery in the elderly: a population-based approach. Eur J Epidemiol. 2005;20(12):985-91. Furthermore, at the national level, the results of this study were similar to a retrospective study that reported a mortality rate of 14.61%. The literature shows that overall mortality in relationship to these types of fracture has varied among services, depending on the existing hospital complex.2424. Muniz CF, Arnaut AC, Yoshida M, Trelha CS. Caracterização dos idosos com fratura de fêmur proximal atendidos em hospital escola público. Rev Espaço Saúde. 2007;8(2):33-8.

This study was conducted in a single-center reference regional hospital. In this context, the literature indicates that in institutions with higher volume of hip surgeries, higher mortality rates are observed. Higher in-hospital mortality in these hospitals, when compared with lower-demand services, was reflected in the present study.2424. Muniz CF, Arnaut AC, Yoshida M, Trelha CS. Caracterização dos idosos com fratura de fêmur proximal atendidos em hospital escola público. Rev Espaço Saúde. 2007;8(2):33-8. In order to generalize data for elderly patients hospitalized for various types of hip fracture, the authors believe there is no reason for this to be different, which could explain the present findings regarding death rates. Moreover, another factor to be assessed is the perioperative mortality, which also contributes to overall mortality rate and is not associated with quality of the therapeutic approach offered, but rather to the clinical condition of these patients, which is usually high-risk due to their age and the presence of many associated comorbidities.

The association of the fracture site with mortality was not significant in the present study. However, in a systematic review with 544,733 patients, mortality was higher in patients with intracapsular fracture. That study also observed age over 85 years as a factor associated with mortality. This finding is similar to that of the present study, which had a similar mean age at death.2525. Smith T, Pelpola K, Ball M, Ong A, Myint PK. Pre- operative indicators for mortality following hip fracture surgery: a systematic review and meta- analysis. Age Ageing. 2014;43(4):464-71.

The main limitation of the present study was the inability to collect data related to certain variables, due to lack of information in the medical charts, which may have underestimated the actual clinical condition of the patients. In addition, the present study was observational, so the associations found do not imply causality; the present findings should be confirmed by further studies.

Conclusion

In the present study, it was observed that women comprised the majority of admissions, and that the degree of leukocytosis associated with advanced age was correlated with mortality, regardless of type of injury and surgical procedure. A higher mean survival rate of patients who did not require ICU admission was also observed. It is noteworthy that the waiting time for surgery and hospital stay were not associated with the in-hospital mortality outcome. These findings highlight the importance of developing protocols for better management of these patients. They also emphasize the importance of including the assessment of leukocytes rates into the clinical evaluation, as this variable presented an important ability to predict worse outcomes.

References

  • 1
    Organização Mundial da Saúde. Envelhecimento ativo: uma política de saúde. Brasília, DF: Organização Pan-Americana de Saúde; 2005.
  • 2
    Bortolon PC, Andrade CLT, Andrade CAF. O perfil das internações do SUS para fratura osteoporótica de fêmur em idosos no Brasil: uma descrição do triênio 2006-2008. Cad Saúde Pública. 2011;27(4):733-42.
  • 3
    Monteiro CR, Faro ACM. Avaliação funcional de idoso vítima de fraturas na hospitalização e no domicílio. Rev Esc Enferm USP. 2010;44(3):719-24.
  • 4
    Orces CH. Epidemiology of hip fractures in Ecuador. Rev Panam Salud Publica. 2009;25(5):438-42.
  • 5
    Silveira VAL, Medeiros MMC, Coelho JM, Mota RS, Noleto JCS, Costa FS, et al. Incidência de fratura do quadril em área urbana do Nordeste brasileiro. Cad Saúde Pública. 2005;21:907-12.
  • 6
    Sakaki MH, Oliveira AR, Coelho FF, Leme LEG, Suzuki I, Amatuzzi MM. Estudo da mortalidade na fratura do fêmur proximal em idosos. Acta Ortop Bras. 2004;12(4):242-9.
  • 7
    Souza RC, Pinheiro RS, Coeli CM, Junior KRC, Torres TZG. Aplicação de medidas de ajuste de risco para a mortalidade após fratura proximal de fêmur. Rev Saúde Pública. 2007;41(4):625-31.
  • 8
    de Rooij SE. Hip protectors to prevent femoral fracture. BMJ. 2006;332(7541):559-60.
  • 9
    Etxebarria- Foronda I, Mar J, Arrospide A, Ruiz de Eguino J. Cost and mortality associated to the surgical delay of patients with a hip fracture. Rev Esp Salud Publica. 2013;87(6):639-49.
  • 10
    White SM, Sanghera P, Chakladar A. Leukocytosis increases length of inpatient stay but not age-adjusted 30- day mortality, after hip fracture. Age Ageing. 2010;39(5):650-3.
  • 11
    Faloppa F, Albertoni WM. Guia de ortopedia e traumatologia da Unifesp-EPM. São Paulo: Manole; 2008.
  • 12
    Castronuovo E, Pezzotti P, Franzo A, Di Lallo D, Guasticchi G. Early and late mortality in elderly patients after hip fracture: a cohort study using administrative health databases in the Lazio region, Italy. BMC Geriatr. 2011;11:37.
  • 13
    Constantino H, Patrício PF, Pedrosa C, Pinto FG, Pereira V, Diogo N. Fratura proximal do fémur bilateral: incidência e fatores de risco de fratura contralateral. Rev. Port Ortop Traumatol. 2013;21(3):381-7.
  • 14
    Moraes FB, Silva LL, Ferreira FV, Ferro AM, Rocha VL, Teixeira KS. Avaliação epidemiológica e radiológica das fraturas diafisárias do fêmur: estudo de 200 casos. Rev Bras Ortop. 2009;44(3):199-203.
  • 15
    Roche JJ, Wenn RT, Sahota O, Moran CG. Effect of comorbidities and postoperative complications on mortality after hip fracture in elderly people:prospective observational cohort study. BMJ. 2005;331(7529):1374.
  • 16
    Hossain M, Neelapala V, Andrew JG. Results of non- operative treatment following hip fracture compared to surgical intervention. Injury. 2009;40(4):418-21.
  • 17
    Gjertsen JE, Vinje T, Engesaeter LB, Lie SA, Havelin LI, Furnes O, et al. Internal screw fixation compared with bipolar hemiarthroplasty for treatment of displaced femoral neck fractures in elderly patients. J Bone Joint Surg Am. 2010;92(3):619-28.
  • 18
    Grimes JP, Gregory PM, Noveck H, Butler MS, Carson JL. The effects of time-to- surgery on mortality and morbidity in patients following hip fracture. Am J Med. 2002;112(9):702-9.
  • 19
    Moran CG, Wenn RT, Sikand M, Taylor AM. Early mortality after hip fracture: is delay before surgery important? J Bone Joint Surg Am. 2005;87(3):483-9.
  • 20
    Shiga T, Wajima Z, Ohe Y. Is operative delay associated with increased mortality of hip fracture patients? Systematic review, meta- analysis, and meta- regression. Can J Anaesth. 2008;55(3):146-54.
  • 21
    Fuchs L, Chronaki CE, Park S, Novack V, Baumfeld Y, Scott D, et al. ICU admission characteristics and mortality rates among elderly and very elderly patients. Intensive Care Med. 2012;38(10):1654-61.
  • 22
    Jiang HX, Majumdar SR, Dick DA, Moreau M, Raso J, Otto DD, et al. Development and initial validation of a risk score for predicting in-hospital and 1 -year mortality in patients with hip fractures. J Bone Miner Res. 2005;20(3):494-500.
  • 23
    Franzo A, Francescutti C, Simon G. Risk factors correlated with post- operative mortality for hip fracture surgery in the elderly: a population-based approach. Eur J Epidemiol. 2005;20(12):985-91.
  • 24
    Muniz CF, Arnaut AC, Yoshida M, Trelha CS. Caracterização dos idosos com fratura de fêmur proximal atendidos em hospital escola público. Rev Espaço Saúde. 2007;8(2):33-8.
  • 25
    Smith T, Pelpola K, Ball M, Ong A, Myint PK. Pre- operative indicators for mortality following hip fracture surgery: a systematic review and meta- analysis. Age Ageing. 2014;43(4):464-71.
  • Study conducted at the Hospital Nossa Senhora da Conceição, Tubarão, SC, Brazil.

Publication Dates

  • Publication in this collection
    Sep-Oct 2016

History

  • Received
    29 Sept 2015
  • Accepted
    15 Oct 2015
Sociedade Brasileira de Ortopedia e Traumatologia Al. Lorena, 427 14º andar, 01424-000 São Paulo - SP - Brasil, Tel.: 55 11 2137-5400 - São Paulo - SP - Brazil
E-mail: rbo@sbot.org.br