Abstract
Limited information exists regarding the epidemiology, patterns of treatment, and mortality of pediatric trauma patients in Japan. To evaluate the characteristics and mortality of pediatric trauma patients in Japan, especially in traffic accidents. This was a retrospective cohort study between 2004 and 2015 from a nationwide trauma registry in Japan. Pediatric trauma patients divided into four age groups: <1 years; 1 ≤ 5 years; 6 ≤ 10 years; and 11 ≤ 15 years. Data on patients’ demographics, trauma mechanism and severity, treatments and in-hospital mortality were analyzed between the groups. There were 15,441 pediatric trauma patients during the study period. Among 15,441 pediatric patients, 779 belonged to the <1 year age group, 3,933 to the 1 ≤ 5 years age group, 5,545 to the 6 ≤ 10 age group, and 5,184 to the 11 ≤ 15 years age group. Male injuries (69%) were more frequent than female injuries. Head injuries (44%) were the most frequent and severe. Traffic accidents were the leading cause of trauma (44%). Overall in-hospital mortality was 3.9% and emergency department mortality was 1.4%. In-hospital mortality was 5.3%, 4.7%, 3.0% and 4.0% for the <1 year, 1 ≤ 5 years, 6 ≤ 10 years, and 11 ≤ 15 years age groups respectively. A total of 57% of all trauma deaths were before or upon arrival at hospital. Traffic accidents for the <1 year age group was the highest category of mortality (15%). The overall in-hospital mortality of Japanese pediatric trauma patients was 3.9% based on the nationwide trauma registry of Japan. The main cause of severe trauma was traffic accidents, especially in patients <1 year of age whose mortality was 15%.
Similar content being viewed by others
Introduction
Trauma has been a major cause of death in young populations1. The burden of trauma ranges from physiological2 to economic3 causes, which could be a serious negative effect especially in developed countries that already have decrease in the number of children. Therefore, it is important to know the epidemiology, the patterns of treatment, and mortality of pediatric trauma.
In Japan, the Japan Advanced Trauma Evaluation and Care was introduced in 2002 and since then mortality has decreased4,5. However, the last report showed that the mortality of pediatric trauma patients did not improve4 and there remained limited information about pediatric trauma.
The current mortality, the main causes of mortality among pediatric trauma patients in Japan, especially for traffic accidents, the mechanisms of traffic accidents associated with mortality, and the major affected organs are currently not known. The understanding of these issues could lead to trauma prevention. In addition, the evaluation of the patterns of treatment and the main causes of mortality could lead to improvements in trauma care. Therefore, we undertook a large observational study to gain insight into the epidemiology, the patterns of treatment, and the trends of in-hospital mortality of pediatric trauma in Japan.
Methods
Study design
This study was a multicenter, retrospective cohort study using the Japan Trauma Data Bank (JTDB) data between 2004 and 2015. JTDB is a nationwide trauma registry established in 2003 by the Japanese Association for the Surgery of Trauma and the Japanese Association for Acute Medicine to improve and ensure the quality of trauma care in Japan6. During the study period, 260 hospitals including 95% of tertiary emergency medical centers in Japan participated in the JTDB. The JTDB collects 92 data elements related to patient and hospital information such as patient demographics, premorbid medical conditions, vital signs, abbreviated injury scale (AIS) score, injury severity score (ISS), in-hospital procedures, as well as in-hospital and in-emergency department (ED) mortality6. The primary outcome of this investigation was in-hospital mortality and the secondary outcome was in-ED mortality.
Patient Selection and Patient Categories
All pediatric trauma patients aged <16 years were enrolled. Exclusion criteria were patients whose age was missing. As expected, the mortality, mechanism of injury, cause of injury, and the normal vital signs differed by age, therefore, we divided the patients into four age groups including: aged <1 year, aged 1 ≤ 5 years, aged 6 ≤ 10 years, and aged 11 ≤ 15 years based on previous articles7,8,9,10.
Statistical analysis
Continuous variables were expressed as medians and interquartile range (IQR). Categorical variables were expressed as counts and percentages. Subgroup analyses regarding traffic accidents was performed since it has been the main cause of the mortality among pediatric patients in Japan11. Traffic accidents were classified into motor vehicle collision, bike, bicycle, and pedestrian. We also analyzed associations between traffic accident mechanisms and mortality in each age group. In addition, we performed subgroup analysis of deceased children. To evaluate whether the pediatric trauma mortality could be reduced or not between the early and late periods, patients were divided into two groups: 2004–2010 and 2011–2015. The comparisons of each categorical variable between groups were performed using the chi-squared test and the comparisons of each continuous variable between groups were performed using the Mann-Whitney U test.
Statistical significance was defined as a two-sided p value < 0.05 in all statistical analyses. All statistical analyses were performed using the IBM SPSS Statistics version 25.0 (SPSS Inc, Chicago, Illinois, USA).
Results
Patient mortality
We analyzed 16,038 pediatric trauma patients aged <16 years from a total of 236,698 trauma patients. A total of 15,441 pediatric trauma patients remained after exclusion of patients with age data missing (n = 597). There were 779 patients aged <1 years, 3,933 aged 1 ≤ 5 years, 5545 ≤ 10 years, and 5,184 aged 11 ≤ 15 years. Males accounted for 69% of the study group. The 11 ≤ 15 age group had the highest percentage of boys (74%) (Table 1). Overall in-hospital mortality was 3.9% and ED mortality was 1.4%. In-hospital mortality was 5.3%, 4.7%, 3.0%, and 4.0% for the <1 year, 1 ≤ 5 years, 6 ≤ 10 years, and 11 ≤ 15 years age groups (Table 1). A total of 86% of the patients were discharged to go home and 13% were derived to another hospital. The median number of days of hospitalization was 5.
Causes of injury and injured organs
Trauma caused by falls was the most frequent, accounting for 52% and 47% of all traumas in the <1 year and the 1 ≤ 5 years age groups respectively (Table 1). Traffic accidents were the most frequent cause of trauma among the 6 ≤ 10 years and the 11 ≤ 15 years age groups accounting for 54% and 48%, respectively (Tables 1 and 2). Burns were frequent in the <1 year age group (24%) and sport was frequent in the aged 11 ≤ 15 age group (18%).
The head was the most frequent injured body part with 44% of the pediatric trauma patients suffering from head trauma (Table 1). A total of 58% of the <1 year age group had head trauma. The <1 year age group had the highest abbreviated injury scale (AIS) of the head region and had the highest injury severity score (ISS) compared to the other age groups. Regarding chest trauma, the percentages increased with age: 3.0% for the <1 year age group, 12% for the 1 ≤ 5 years age group, 14% for the 6 ≤ 10 years age group, and 16% for the 11 ≤ 15 years age group.
Diagnosis and treatment procedures
The older the patients the higher the use of sonography of trauma (FAST) and pan-scan CT for assessment (Table 1). Craniotomy was the sole treatment procedure for the <1 year age group (6.8%). The percentages of thoracotomy, celiotomy, and transcatheter arterial embolization (TAE) increased with age. Regarding blood transfusions, 8.8% of the <1 year patients had blood transfusions.
Traffic accidents sub analysis
More than half of the pediatric patients suffering traffic accidents were males and the percentages of boys increased with age (Table 2). The most frequent traffic accident in the <1 year age group was motor vehicle, walking in the 1 ≤ 5 and the 6 ≤ 10 age groups, while riding a bicycle in the 11 ≤ 15 age group.
Deceased children sub analysis
Table 3 shows the mortalities of each mechanism of trauma. The <1 year age group had the highest mortality caused by traffic accidents (15%) and the 11 ≤ 15 year age group had the highest mortality caused by falls (5.8%) and burns (12%).
Among all age groups with in-hospital deaths, the highest AIS region was the head (Supplemental Table 1). Among in-hospital deaths, 57% were prehospital and/or arrival cardiac pulmonary arrests (CPA) (Supplemental Table 2). The highest AIS region was also the head in the prehospital and/or arrival CPA patients; however, there were no craniotomies. Thoracotomy and/or celiotomy were done in patients over 1 year of age.
Differences between early period 2004–2010 and late period 2011–2015
Between these periods, percentage of male pediatric trauma patients was significantly higher in Early period (p = 0.025) (Supplemental Table 3). As to cause of injury, prevalence of traffic accident was significantly decreased (Early period 48% vs Late period 42%; p < 0.001) and severe head, chest and abdominal injury were decreased (severe head injury: Early period 23% vs Late period 16%; p < 0.001, severe chest injury: Early period 5.0% vs Late period 4.0%; p = 0.004 and severe abdominal injury: Early period 2.0% vs Late period 1.5%; p = 0.038, respectively). As to the treatment, craniotomy, thoracotomy, celiotomy and blood transfusion were decreased. In addition, both the outcomes of mortality in ED and mortality in hospital were significantly lower in Late period (Mortality in ED: Early period 1.8% vs Late period 1.2%; p = 0.002 and Mortality in hospital: Early period 5.5% vs Late period 3.0%; p < 0.001)
Discussion
Brief summary
This study investigated for the first time the epidemiology of pediatric trauma patients using a nationwide cohort registry in Japan. We found that overall, in-hospital mortality was 3.9% and children aged <1 year had the highest percentage of in-hospital mortality, especially caused by traffic accidents with an in-hospital mortality of 15%.
Characteristics of the pediatric trauma patients
Boys tended to suffer from trauma more than girls across all age groups. The percentages of boys with trauma increased as the age group increased, in agreement with previous studies12,13. This is because boys are generally likely to be exposed to risky activities and/or be more careless14. Regarding the causes of trauma, 52% of children aged <1 year suffered from falls and accounted for 2.8% mortality which is more frequent than previously reported15. However, a lower fall rate accounted for severe TBI. As to another finding of the causes of trauma, 24% of children aged <1 year suffered from burns. Pediatric burns can only occur due to careless behavior; however, this high prevalence could be attributed to abuse. A previous study reported that about 10% of burn cases were suspected abuse cases16. Concerning to abuse and/or neglect, one observational study from Japan reported that about half of the traumatic intracranial hemorrhage was caused by abuse17. Though abuse data was not registered in JTDB and the association between pediatric burns and abuse could not investigated, the high prevalence of pediatric burns in children <1 year clinicians suspected abuse and/or neglect. Children aged 11 ≤ 15 years had 15% of sport-related injuries. In- hospital mortality caused by sport-related injury was only 1.0%. A previous study reported that sports-related injuries were associated with spinal injury18,19 Here, we found that 6.5% of sport-related injury patients had cervical spine injury.
Regarding injury location, the most frequent and fatal injury was head trauma. Head trauma has been the leading cause of death and disability20 in spite of concomitant injuries in other areas such as the thorax that was reported to be associated with greater morbidity21.
Regarding diagnostic procedures, pan-scan CT is indicated based not only on the severity of the trauma but also on the age of the patient. Children are more radiosensitive and have a higher risk of carcinogenesis22, therefore clinicians are hesitant to perform pan-scan CT in young children. Treatment procedures frequencies such as operations and interventional radiology are low, which may be due to technical difficulties23, and thus conservative management is generally accepted in pediatric trauma patients24,25. On the other hand, the trend of diagnostic choice between early and late phase demonstrated that the use of pan-scan CT increased regardless of the reduction of severe pediatric injury (Supplemental Table 3). The usefulness of pan-scan CT for pediatric trauma is still controversial26; however, this reveals the future challenges of increasing survival rate. Regarding pediatric trauma in clinical practice, specialized centers for pediatric trauma were associated with reduced morality27. Therefore, to increase survival rate, we may need specialized pediatric trauma centers27.
Traffic accidents accounted for about half of the causes of trauma with a higher prevalence of males. In children aged <1 year, 90% of traffic accidents were motor vehicle accidents. Naturally, parent’s attentiveness in this case is important28. In addition, prevention programs were thought to have an important role in this age category29. The type of traffic accidents was different depending on the age groups. The leading type of accident was pedestrian in children aged 1 ≤ 5 and 6 ≤ 10 years. However, the prevalence of bicycle-related traffic accidents increased as the age group increased and was the leading cause in the 11 ≤ 15 years age group30.
Mortality of pediatric trauma patients
Trauma has been a leading cause of death in both the developing and developed countries1,31. In-hospital mortality of pediatric trauma patients was reported to vary from 0.3% to 8.5% in the USA, Canada, Afghanistan, Iraq, and Europe32,33,34,35,36,37,38. In this report, the overall in-hospital mortality was 3.9% between 2004 and 2015 and mortality decreased to 2.5% for the 2011–2015 period similar or a little higher than that of other developed countries32,33,35,36,37,38. As age decreased, mortality has been previously reported to increase39, in agreement with this study. However, a mortality of 15% in children <1 year caused by traffic accident is frightening. On the other hand, mortality decreased to 7.7% in the last 5 years, although was nevertheless high compared to previous reports7,36. The leading cause of mortality was head trauma; however, in this study the incidence of emergency procedures and treatment such as craniotomy were limited. Severely injured children have been reported to have higher incidence of early mortality compared to adults. Given that 57% of casualties developed prehospital and/or arrival cardiac pulmonary arrest (CPA), there were less alive patients to undertake emergency procedures and/or treatment. This highlights the necessity for trauma prevention programs. The main reason of the mortality reduction between 2004–2010 and 2011–2015 was trauma prevention and social safety development5,40. The characteristics of the pediatric trauma patients between these periods demonstrated the reduction of the percentage of traffic accidents and severe pediatric trauma (Supplemental Table 3). Enforcing road traffic laws and proper use of child restraint seats could contribute to the reduction of pediatric deaths due to trauma41.
Within mortality caused by the other mechanisms, children aged 11 ≤ 15 years had higher mortality caused by falls and burns. Unfortunately, about 70% of deaths caused by falls and 29% of deaths caused by burns among the 11 ≤ 15 years age group were due to suicide. Falls from high places and burns are common methods of suicide42 and both causes of mortality could be increasing in the future43, indicating that anti suicide programs are needed.
This study has several limitations. First, this was a multicenter retrospective study using JTDB and 95% of tertiary emergency medical centers in Japan participated in the JTDB. Patients registration were committed to each facility and not all of the pediatric patients were necessarily registered in the JTDB. Second, there were some important variables missing. Lack of cause of injury and outcomes could impact the results.
Conclusion
We analyzed the epidemiological characteristics of pediatric trauma patients in Japan. The overall in-hospital mortality was 3.9%. The leading cause of trauma was traffic accidents and children below 1 year of age had a 15% of mortality. Trauma is still the leading cause of death.
Declarations
Ethical Approval and Consent to participate
This study was approved by the medical ethics committee of the Gunma University Hospital. Because of the anonymous and retrospective nature of the study, the need for informed consent was waived.
References
Mokdad, A. H. et al. Global burden of diseases, injuries, and risk factors for young people’s health during 1990–2013: a systematic analysis for the Global Burden of Disease Study 2013. Lancet. 387, 2383–2401 (2016).
de Vries, A. P. et al. Looking beyond the physical injury: posttraumatic stress disorder in children and parents after pediatric traffic injury. Pediatrics. 104, 1293–1299 (1999).
Naumann, R. B., Dellinger, A. M., Zaloshnja, E., Lawrence, B. A. & Miller, T. R. Incidence and total lifetime costs of motor vehicle-related fatal and nonfatal injury by road user type, United States, 2005. Traffic Inj Prev. 11, 353–360 (2010).
Hondo, K., Shiraishi, A., Fujie, S., Saitoh, D. & Otomo, Y. In-hospital trauma mortality has decreased in Japan possibly due to trauma education. J Am Coll Surg. 217, 850–857 (2013).
Nagata, I., Abe, T., Uchida, M., Saitoh, D. & Tamiya, N. Ten-year inhospital mortality trends for patients with trauma in Japan: a multicentre observational study. BMJ Open. 8, e018635 (2018).
Inoue, J. et al. Resuscitative endovascular balloon occlusion of the aorta might be dangerous in patients with severe torso trauma: a propensity score analysis. J Trauma Acute Care Surg. 80, 559–567 (2016).
Ma, P., Hussain, N. & Abbe, M. An examination of traffic-related traumatic injuries among children at a Level-1 pediatric trauma center, 2005–2014. J Trauma Acute Care Surg. 83, S233–S239 (2017).
Barmparas, G. et al. Assault in children admitted to trauma centers: Injury patterns and outcomes from a 5-year review of the national trauma data bank. Int J Surg. 43, 137–144 (2017).
Schauer, S. G. et al. Emergency department resuscitation of pediatric trauma patients in Iraq and Afghanistan. Am J Emerg Med. 36, 1540–1544 (2018).
Bogumil, D. D. A., Demeter, N. E., Kay Imagawa, K., Upperman, J. S. & Burke, R. V. Prevalence of nonaccidental trauma among children at American College of Surgeons-verified pediatric trauma centers. J Trauma Acute Care Surg. 83, 862–866 (2017).
https://www.e-stat.go.jp/stat-search/file-download?statInfId = 000031622816&fileKind = 1 (accessed 2018-05-05).
Gardner, A. R., Dl, D., Tooze, J. A., Miller, C. D. & Petty, J. Injury patterns associated with hypotension in pediatric trauma patients: A national trauma database review. J Trauma Acute Care Surg. 78, 1143–1148 (2015).
Garay, M., Hess, J., Armstrong, D. & Hennrikus, W. Pediatric ATV Injuries in a Statewide Sample: 2004 to 2014. Pediatrics. 140, e20170945 (2017).
Esteban, E., Bujaldon, E., Esparza, M., Jordan, l & Esteban, M. E. Sex differences in children with severe health conditions: Causes of admission and mortality in a Pediatric Intensive Care Unit. Am J Hum Biol. 27, 613–619 (2015).
Sarnaik, A. et al. Age and Mortality in Pediatric Severe Traumatic Brain Injury: Results from an International Study. Neurocrit Care. 28, 302–313 (2018).
Bousema, S. et al. Epidemiology and screening of intentional burns in children in a Dutch burn centre. Burns. 42, 1287–1294 (2016).
Amagasa, S. et al. Characteristics distinguishing abusive head trauma from accidental head trauma in infants with traumatic intracranial hemorrhage in Japan. Acute Med Surg. 5, 265–271 (2018).
Piatt, J. & Imperato, M. Epidemiology of spinal injury in childhood and adolescence in the United States: 1997–2012. J Neurosurg Pediat. 21, 441–448 (2018).
Leonard, J. R., Jaffe, D. M., Kuppermann, N., Olsen, C. S. & Leonard, J. C. Pediatric Emergency Care Applied Research Network (PECARN) Cervical Spine Study Group. Cervical spine injury patterns in children. Pediatrics. 133, e1179–1188 (2014).
Schneier, A. J., Shields, B. J., Hostetler, S. G., Xiang, H. & Smith, G. A. Incidence of pediatric traumatic brain injury and associated hospital resource utilization in the United States. Pediatrics. 118, 483–492 (2006).
Stewart, T. C., Alharfi, I. M. & Fraser, D. D. The role of serious concomitant injuries in the treatment and outcome of pediatric severe traumatic brain injury. J Trauma Acute Care Surg. 75, 836–842 (2013).
Brenner, D. J. & Hall, E. J. Computed tomography–an increasing source of radiation exposure. NEJM. 357, 2277–2284 (2007).
Norii, T. et al. Resuscitative endovascular balloon occlusion of the aorta in trauma patients in youth. J Trauma Acute Care Surg. 82, 915–920 (2017).
Koh, E. Y. et al. Operative Versus Nonoperative Management of Blunt Pancreatic Trauma in Children: A Systematic Review. Pancreas. 46, 1091–1097 (2017).
Wisner, D. H. et al. Management of children with solid organ injuries after blunt torso trauma. J Trauma Acute Care Surg. 79, 206–214 (2015).
Meltzer, J. A., Stone, M. E. Jr., Reddy, S. H. & Silver, E. J. Association of Whole-Body Computed Tomography With Mortality Risk in Children With Blunt Trauma. JAMA Pediatr. 172, 542–549 (2018).
Miyata, S., Cho, J., Park, H., Matsushima, K. & Bliss, D. W. Comparison of outcomes in severe pediatric trauma at adult trauma centers with different trauma case volumes. J Pediatr Surg. 52, 1831–1835 (2017).
Barczyk, A. N. et al. Risky drinking among parents of pediatric trauma patients. J Trauma Acute Care Surg. 75, 676–681 (2013).
Wolf, L. L. et al. Factors Associated with Pediatric Mortality from Motor Vehicle Crashes in the United States: A State-Based Analysis. J Pediatr. 187, 295–302 (2017).
Teisch, L. F. et al. Injury patterns and outcomes following pediatric bicycle accidents. Pediatr Surg Int. 31, 1021–1025 (2015).
Global Burden of Disease Pediatrics Collaboration, et al. Global and National Burden of Diseases and Injuries Among Children and Adolescents Between 1990 and 2013: Findings From the Global Burden of Disease 2013 Study. JAMA Pediatr. 170, 267–87 (2016).
Govind, S. K. & Merritt, N. H. A 15 year cohort review of in-hospital pediatric trauma center mortality: A catalyst for injury prevention programming. Am J Surg. 216, 567–572 (2018).
Snyder, C. W., Muensterer, O. J., Sacco, F. & Safford, S. D. Paediatric trauma on the Last Frontier: an 11-year review of injury mechanisms, high-risk injury patterns and outcomes in Alaskan children. Int J Circumpolar Health. 73, 25066 (2014).
Borgman, M., Rl, M., Blackbourne, L. H. & Spinella, P. C. Ten years of military pediatric care in Afghanistan and Iraq. J Trauma Acute Care Surg. 73, S509–513 (2012).
St-Louis, E., Bracco, E., Hanley, J., Razek, T. & Baird, R. Development and validation of a new pediatric resuscitation and trauma outcome (PRESTO) model using the U.S. National Trauma Data Bank. J Pediatr Surg. S0022-3468, 30661–30669 (2017).
Burd, R. S., Jang, T. S. & Nair, S. S. Evaluation of the relationship between mechanism of injury and outcome in pediatric trauma. J Trauma. 62, 1004–1014 (2007).
Janssens, L., Holtslaq, H. R., van Beeck, E. F. & Leenen, L. P. The effects of regionalization of pediatric trauma care in the Netherlands: a surveillance-based before-after study. J Trauma Acute Care Surg. 73, 1284–7 (2012).
Navascues, J. A. et al. Paediatric trauma in Spain: a report from the HUGM Trauma Registry. Eur J Pediatr Surg. 15, 30–37 (2015).
Rl, M., Holcomb, J. B., Callahan, C. & Spinella, P. C. Increased mortality rates of young children with traumatic injuries at a US army combat support hospital in Baghdad, Iraq, 2004. Pediatrics. 122, e959–66 (2008).
Nakahara, S., Ichikawa, M. & Sakamoto, T. Time trend analyses of child pedestrian morbidity in Japan. Public Health. 141, 74–79 (2016).
Inoue, K. et al. The increase in the user rate of child seats is clearly an important factor in the decreases in the rates of death and serious injury. Am J Forensic Med Pathol. 33, e1 (2012).
Park, S. Brief report: Sex differences in suicide rates and suicide methods among adolescents in South Korea, Japan, Finland, and the US. J Adolesc. 40, 74–77 (2015).
Jeon, S. Y., Reither, E. N. & Masters, R. K. A population-based analysis of increasing rates of suicide mortality in Japan and South Korea, 1985–2010. BMC Public Health. 16, 356 (2016).
Acknowledgements
We thank the JTDB and all personnel at the participating institutions who facilitated the data.
Author information
Authors and Affiliations
Contributions
M.A. and T.A. conceived of and designed this study, interpreted the data, drafted the manuscript, and revised the manuscript for important intellectual content. D.S. and K.O. interpreted the data and revised the manuscript for important intellectual content.
Corresponding author
Ethics declarations
Competing Interests
The authors declare no competing interests.
Additional information
Publisher’s note: Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Supplementary information
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
About this article
Cite this article
Aoki, M., Abe, T., Saitoh, D. et al. Epidemiology, Patterns of treatment, and Mortality of Pediatric Trauma Patients in Japan. Sci Rep 9, 917 (2019). https://doi.org/10.1038/s41598-018-37579-3
Received:
Accepted:
Published:
DOI: https://doi.org/10.1038/s41598-018-37579-3
This article is cited by
-
Mechanical trauma in children and adolescents in Berlin
Forensic Science, Medicine and Pathology (2024)
-
Trends and characteristics of severe road traffic injuries in children: a nationwide cohort study in Japan
European Journal of Trauma and Emergency Surgery (2023)
-
Characteristics of injury mechanisms in children and differences between urban and rural areas in central China
European Journal of Trauma and Emergency Surgery (2023)
-
Epidemiology, patterns, and mechanisms of pediatric trauma: a review of 12,508 patients
European Journal of Trauma and Emergency Surgery (2023)
-
Epidemiological pattern of trauma patients based on the mechanisms of trauma: trends of a regional trauma center in Midwest of Iran
BMC Emergency Medicine (2022)
Comments
By submitting a comment you agree to abide by our Terms and Community Guidelines. If you find something abusive or that does not comply with our terms or guidelines please flag it as inappropriate.