Abstract
Purpose
Trauma is a common cause of admission to the hospital emergency department. The purpose of this study was to evaluate the cause of admission, clinical characteristics, and outcomes of patients aged ≥65 years admitted to an emergency department in Turkey because of blunt trauma.
Materials and methods
Medical records were retrospectively reviewed for 568 patients (314 women and 254 men) aged ≥65 years who were admitted to an emergency department of a tertiary care hospital.
Results
Trauma was caused by low-energy fall in 379 patients (67%), traffic accident in 79 patients (14%), high-energy fall in 69 patients (12%), and other causes in 41 patients (7%). The most frequent sites of injury were the lower extremity, thorax, upper extremity, and head. The femur was the most frequent fracture site. After evaluation in the emergency department, 377 patients (66%) were hospitalized. There were 31 patients (5%) who died. Risk of hospitalization after trauma was significantly associated with trauma to the lower extremity, thorax, and spine; fractures of the femur and rib; and intracranial injury.
Conclusion
Emergency department admission after trauma in patients aged ≥65 years is common after low-energy falls, and most injuries occur to the extremities. It is important to focus on prevention of falls to decrease the frequency of trauma in the elderly.
Keywords: fall, femur, fracture, injury
Introduction
In recent years, there has been an increase in the size of the geriatric population worldwide because of improvements in health care and living standards in many countries. By the year 2030, approximately 25% of the population of Western countries will be in the geriatric age-group.1 In the US in 2010, 13% of the population was aged ≥65 years, and this age-group is the most rapidly growing part of the population.2 The incidence of many health problems is increased in the elderly, such as impairment of cognitive function, chronic diseases, and musculoskeletal disorders.3
A healthy and active lifestyle is increasingly feasible for the elderly, and may cause an increased risk of injury.4,5 The incidence of geriatric trauma that causes admission to emergency units is increasing with the increased size of the elderly population. The most frequent geriatric injuries occur from falls and cause minor orthopedic injury or morbidity. However, death associated with major trauma may also occur, and 28% of deaths related to trauma occur in people aged ≥65 years. Concurrent disorders may increase the risk of complications. Although injury severity is typically less in older than younger people, the outcomes are worse in the elderly.6 It is important to define the causes of geriatric trauma to prevent injury and decrease morbidity, mortality, and associated costs.7
Geographic variation in trauma patterns may occur, but there is limited information available about geriatric trauma in Turkey. The purpose of the present study was to evaluate the mechanisms of trauma, clinical characteristics, and outcomes of elderly people admitted to an emergency unit in Turkey because of blunt trauma, and to define the factors that affect trauma severity. Describing these factors may help guide the development of precautions to limit blunt trauma in the elderly.
Materials and methods
Subjects
This study was a retrospective review of patients aged ≥65 years who were admitted to the Emergency Medicine Department of Selçuk University Medical Faculty, a tertiary health care hospital, between January 2011 and June 2013 because of trauma. During this period, there were 137,413 patients admitted to the emergency department of Selçuk University Medical Faculty, including 22,127 patients who had trauma, mostly blunt trauma. Patients aged ,65 years were excluded from the study. The electronic database of the hospital showed 654 patients (0.47% of all emergency department patients and 2.9% of all trauma patients) aged ≥65 years who had trauma. Data were obtained from the hospital records, including sex, mechanism of trauma, injury site, body temperature, pulse, respiratory rate, Glasgow Coma Scale score, duration of hospital stay, final diagnosis, and clinical disposition. There were 86 patients who were excluded because of missing data in the medical records. The remaining 568 patients were included in the study. The study was approved by Selçuk University, Faculty of Medicine, Non-drug-using Clinical Research Ethics Committee.
Statistical analysis
Data analysis was performed with statistical software (SPSS for Windows, version 15.0; IBM Corporation, Armonk, NY, USA). Comparisons were made with the χ2 test. Statistical significance was defined as P#0.05.
Results
In the 568 patients in the study, there were more women than men (Table 1). Most patients had a low-energy fall, which was the most common cause of injury (Table 1). The mean temperature was 36°C, pulse was 75 beats per minutes, respiratory rate was 17 breaths per minute, and Glasgow Coma Scale score was 14.7.
Table 1.
Cause of injury† | Women
|
Men
|
Total
|
||||||
---|---|---|---|---|---|---|---|---|---|
n | (% women) | (% cause of injury) | n | (% men) | (% cause of injury) | n | (% total) | (% cause of injury) | |
Low-energy fall | 225 | (72) | (59) | 154 | (61) | (41) | 379 | (67) | (100) |
Traffic accident | 41 | (13) | (52) | 38 | (15) | (48) | 79 | (14) | (100) |
High-energy fall | 24 | (8) | (35) | 45 | (18) | (65) | 69 | (12) | (100) |
Other‡ | 24 | (8) | (59) | 17 | (7) | (41) | 41 | (7) | (100) |
Total | 314 | (100) | (55) | 254 | (100) | (45) | 568 | (100) | (100) |
Notes: Mean age ± standard deviation (age range), years: women, 75.8±7.0 (65–98); men, 74.8±6.9 (65–93). Data reported as number (% sex) (% cause of injury).
Difference between women and men, P#0.002;
includes injuries from pounding, buckling, and contact with animals.
The cause of injury was significantly different between women and men; most low-energy falls occurred in women, and most high-energy falls occurred in men (Table 1). The most common anatomic site of injury was the lower extremity, and the most common fracture site was the femur (Table 2). Women had a significantly greater risk of upper-extremity injury and forearm fracture than men; men had significantly greater risk of thoracic injury, spine injury, and rib fracture with or without pulmonary contusion than women (Table 2).
Table 2.
Injury site | Total | Women, n (%) | Men, n (%) | Odds ratio | (95% confidence interval) | P≤ |
---|---|---|---|---|---|---|
Anatomic site | ||||||
Lower extremity | 230 | 137 (60) | 93 (40) | 0.7 | (0.5–1.0) | NS |
Thorax | 91 | 33 (36) | 58 (64) | 2.5 | (1.6–4.0) | 0.001 |
Upper extremity | 81 | 57 (70) | 24 (30) | 2.1 | (1.3–3.5) | 0.003 |
Head | 67 | 32 (48) | 35 (52) | 1.4 | (0.8–2.3) | NS |
Spine | 34 | 12 (35) | 22 (65) | 2.4 | (1.5–4.9) | 0.02 |
Pelvis | 22 | 12 (55) | 10 (45) | 1 | (0.4–2.4) | NS |
Abdomen | 6 | 1 (17) | 5 (83) | 6.3 | (0.7–54.1) | NS |
Fracture site | ||||||
Femur fracture | 206 | 123 (60) | 83 (40) | 0.8 | (0.5–1.1) | NS |
Rib fracture with or without pulmonary contusion | 66 | 26 (39) | 40 (61) | 2.1 | (1.2–3.5) | 0.006 |
Forearm fracture | 37 | 28 (76) | 9 (24) | 2.7 | (1.2–5.8) | 0.01 |
Skull fracture | 26 | 13 (50) | 13 (50) | 1.2 | (0.6–2.7) | NS |
Abbreviation: NS, not significant.
Most patients were discharged within 9 days after injury (Table 3). More patients had nonoperative treatment than surgery (Table 3). There was one patient who died in the emergency department, and 30 other patients who died during hospitalization (Table 3).
Table 3.
Status | Patients, n (%) | |
---|---|---|
Disposition after evaluation in emergency department | ||
Hospitalized | 377 | (66) |
Discharged from emergency department | 140 | (25) |
Discharged after observation period in emergency department | 44 | (8) |
Transferred to other health facility | 6 | (1) |
Died in emergency department† | 1 | (0) |
Hospitalization‡ | ||
Discharged within the first 3 days | 112 | (30) |
Hospitalized for 4–9 days | 187 | (50) |
Stayed in the hospital ≥10 days | 78 | (20) |
Treatment | ||
Nonoperative | 288 | (51) |
Surgery | 243 | (43) |
Transferred to other health facility | 6 | (1) |
Died | 31 | (5) |
Notes:
Cause of death hemorrhagic shock;
n=377 patients who were hospitalized (six patients were transferred to other health facilities from the emergency department); *includes 1 patient who died in the emergency department.
Injuries associated with an increased risk of being hospitalized included lower-extremity, thoracic, upper-extremity, and spine injury, and femur, rib, and skull fractures (Table 4).
Table 4.
Injury site | Total | Hospitalized, n (%) | Discharged from emergency department, n (%) | Odds ratio | (95% confidence interval) | P≤ |
---|---|---|---|---|---|---|
Anatomic site | ||||||
Lower extremity | 228 | 218 (96) | 10 (4) | 14 | (7.1–27.3) | 0.001 |
Thorax | 86 | 82 (95) | 4 (5) | 8.2 | (3.0–22.9) | 0.001 |
Upper extremity | 81 | 41 (51) | 40 (49) | 0.3 | (0.2–0.4) | 0.001 |
Head | 65 | 51 (78) | 14 (22) | 1.2 | (0.7–2.4) | NS |
Spine | 33 | 31 (94) | 2 (6) | 5.5 | (1.3–23.2) | 0.01 |
Pelvis | 21 | 19 (90) | 2 (10) | 3.3 | (0.8–14.2) | NS |
Abdomen | 5 | 5 (100) | 0 (0) | 0.7 | (0.7–0.8) | NS |
Fracture site | ||||||
Femur fracture | 205 | 200 (98) | 5 (2) | 24.4 | (9.8–60.9) | 0.001 |
Rib fracture with or without pulmonary contusion | 62 | 59 (95) | 3 (5) | 7.4 | (2.3–24.1) | 0.001 |
Forearm fracture | 37 | 17 (46) | 20 (54) | 0.3 | (0.1–0.5) | 0.001 |
Skull fracture | 24 | 23 (96) | 1 (4) | 8 | (1.1–60.0) | 0.02 |
Notes: Of the 561 patients, 377 were hospitalized, 44 discharged after observation period in emergency department, and 140 discharged (does not include six other patients who were transferred to other health facilities and one patient who died in the emergency department).
Abbreviation: NS, not significant.
Discussion
The morphologic and physiologic changes observed in the elderly affect many organ systems and cause several disorders. Chronic disorders may increase the risk of falling because of reduced physical activity, muscle weakness, and imbalance.8 Falls are the major cause of disability and death from trauma in patients aged .65 years.9 Reduction in bone density, imbalance, and reduction in reflexes may increase the frequency of falls and related problems. Postmenopausal hormonal changes impair calcium balance and increase the risk of osteoporosis. The frequency of fractures is increased in osteoporotic patients, and fractures necessitating hospitalization may be observed after falls. Frequency of falls also may be increased because of hypertension, cerebrovascular disease, diabetes mellitus, adverse reactions to drugs, syncope, unconsciousness, or orthostatic hypotension.10,11 In addition, patients who are discharged from hospital may be at increased risk of having falls and associated injuries.12 Therefore, the frequency of trauma-related admissions to emergency departments in the elderly is increasing. Many (11%) admissions to emergency departments involve patients aged ≥65 years, and the frequency of admissions is expected to increase to 40% in the coming decades.13 Minor orthopedic injury or morbidity may occur because of a fall, which is the most frequent cause of geriatric trauma, and death associated with major trauma may also occur.14,15 In people aged ≥65 years, trauma is a frequent cause of death, with 25%–28% of deaths related to trauma.13,16
Risk factors observed in the elderly may increase the frequency of falls. Approximately 50% people aged ≥60 years may have had a previous fall, and 23.8% people aged ≥60 years may have had a fall within the previous 6 months.17,18 In developed countries, geriatric trauma is most frequently associated with traffic accidents and falls. In Turkey, falls are the most frequent cause of geriatric injury, as noted in the present study (Table 1). Falls may include slipping from a higher to a lower level because of carelessness, without any pushing force, syncope, or stroke.19,20 Low- or high-energy falls caused emergency department admission in 448 patients (79%) in the present study (Table 1). Traffic accidents were the second most frequent cause of admission to the emergency department (Table 1).
Morbidity and mortality associated with falls are higher in the elderly than the young population. The frequency of trauma-related death in the hospital is 15%–30% in the elderly and 4%–8% in the young population.21 In the elderly, the effects of trauma may decrease an active lifestyle and physiologic capacity.22,23 Morbidity may be observed with falls from standing or sitting. Therefore, prevention of trauma may decrease morbidity and mortality in the elderly.23
In the present study, high-energy falls were less common than low-energy falls (Table 1).21 Trauma associated with low-energy falls was more frequent in women than men aged ≥65 years (Table 1).24 In contrast, high-energy falls were more frequent in men than women (Table 1). In addition, men had a higher frequency of thoracic and spinal trauma than women (Table 2), likely because men in this geographic region may have a more active lifestyle than women aged ≥65 years. Minor trauma (upper-extremity trauma and forearm fracture) was more frequent in women (Table 2), who typically prefer to stay at home.
In the present study, there were more women than men who had trauma-related admissions to the emergency department (Table 1). Some previous studies showed a higher frequency of falls in women, but others showed a higher frequency of falls in men.20,25,26 Variation in lifestyle habits between people may affect the different patterns of trauma in different studies.
Previous studies showed that the extremities, head, and neck may be the most common sites of injury.19,27 In the present study, trauma was most common in the extremities, thorax, and head (Table 2). The higher frequency of lower- than upper-extremity trauma in the present study may have occurred because our hospital is a regional university hospital, and we frequently receive referrals of many elderly patients who have kidney failure, cerebrovascular disease, or cardiovascular disease, and who cannot have surgery because of the high risk of complications. In elderly patients, rib, pelvis, and femur fractures are more frequent than in younger patients, and age is an important factor that increases the risk of developing trauma-related complications.24 In the present study, the most common site of extremity fracture was the femur (Table 2). We did not evaluate the effect of age on morbidity and mortality, because we did not compare younger and older patients. Mortality may occur in 6.4% of elderly patients with trauma-related admissions,28 and there were 31 deaths in 568 patients (5.5%) in the present study. Age alone is an independent risk factor for trauma-related mortality.23
A previous study showed that risks of trauma-related hospitalization were increased 7.45-fold after skull fracture, 10.67-fold after pelvis fracture, 10.24-fold after femur fracture, and 16.09-fold after vertebral fracture.24 In the present study, trauma-related hospitalization was increased 24.4-fold after femur fracture, 8.2-fold after thoracic trauma, eightfold after skull fracture, and 5.5-fold after spinal trauma (Table 4). In these two studies, femur fracture markedly increased the risk of hospitalization, possibly because femur trauma from falls is common in the elderly, and most hip fractures are treated with orthopedic surgery.
Limitations of the present study include the absence of a younger patient group aged ,65 years for comparative evaluation of the effect of age on morbidity and mortality. The study was a retrospective study using previous patient records, and the effect of comorbidities or drugs on patient outcome could not be evaluated because of insufficient data.
In conclusion, the elderly population is growing in Turkey because of improvements in quality of life. In addition, the number of admissions to hospitals because of trauma in the elderly is increasing. The most frequent cause of trauma in the elderly is low-energy trauma, and the extremities are the most common site of injury (Tables 1 and 2). Fractures in the elderly are common. It is important to prevent situations such as falls that may cause trauma and to provide adequate treatment for complications after falls.
Footnotes
Author contributions
Hasan Kara, Aysegul Bayir, and Ahmet Ak participated in the design of the study; Necmettin Tufekci, Murat Akinci, and Melih Azap acquired the data; Hasan Kara, Selim Degirmenci, and Murat Akinci analyzed the data; Aysegul Bayir, Necmettin Tufekci, and Melih Azap wrote the manuscript; and Hasan Kara, Ahmet Ak, and Selim Degirmenci revised the manuscript. All the authors read and approved the final manuscript.
Disclosure
The authors report no conflicts of interest in this work.
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