Prospective observational study with an abbreviated protocol in the management of blunt renal injury in children

Pediatric renal trauma: 17 years of experience at a major Scandinavian trauma center

Background

Children are at increased risk of renal injuries from blunt trauma due to their anatomic constitution. The kidney is injured in 5-20% of pediatric patients with blunt abdominal trauma. During the last decades, the management of pediatric renal injuries has evolved toward non-operative management (NOM) unless the patient is hemodynamically compromised. The aim of the present study was to assess contemporary treatment strategies and evaluate outcomes in pediatric patients with renal injuries admitted to a major Scandinavian trauma center.

Methods

A retrospective cohort study of all trauma patients under 18 years admitted to our institution from January 1, 2003 to December 31, 2019 with main focus on patients with renal injury. Outcomes for two time periods were compared, 2003-2009 (Period 1; P1) and 2010-2019 (Period 2; P2), and the study cohort was also stratified into age groups, survivors and non-survivors and severity of renal injury.

Results

In total, there were 4230 pediatric patients included in Oslo University Hospital Trauma Registry during this 17-year period and of these 115 (2.7%) had a renal injury. Nephrectomy was performed in four (3.5%) of the patients, angiographic embolization five (4.3%) and ureteral stent placement was performed in six patients (5.2%) due to urinary extravasation. Seven patients died, implying a crude mortality of 6.1%, with one exception secondary to traffic-related incidents. None of the deaths were attributed to renal injury and mortality fell to 1.2% in P2.

Discussion

This study on contemporary pediatric renal trauma care is one of the largest from a single institution outside the USA. Our results clearly show that NOM, including minimally invasive procedures in selected cases, is achievable in more than 90% of cases with low mortality and morbidity.

Level of evidence

Level IV.

Spectrum of paediatric blunt abdominal trauma in a tertiary care hospital in India

Aim

To study the profile of paediatric blunt abdominal trauma and to assess the correlation of grade of injury with the outcome.

Materials and Methods

It is a prospective observational study from January 2015 to December 2020. Children below 12 years with blunt abdominal trauma were included. Patient demographic data, treatment given and the final outcome were recorded. All patients were followed up for a minimum of 6 months to maximum 5 years.

Results

A total of 68 patients were included in the study. Fall from height was the most common mode of injury (62%) followed by road traffic accidents (35%) and the other causes included in the miscellaneous group (hit by animal and fall of heavy object on the abdomen; 3%). Most commonly injured organ was liver (n = 28, 41%) followed by spleen (n = 18, 26%) and kidney (n = 15, 22%). Other injuries were bowel perforations (jejunal [n = 4], ileal [n = 1] and large bowel [n = 1]; 9%), pancreaticoduodenal (n = 5, 7%), urinary bladder (n = 3, 4%), abdominal vascular injury (iliac vein-1, inferior vena cava-1;3%), adrenal haematoma (n = 2,3%) and common bile duct (CBD) injury (n = 1, 1%). More than one organ injury was seen in 13 cases (19%). Non-operative management was successful in 84% (n = 27) and laparotomy was done in 16% (n = 11). Most of the patients sustained Grade IV injury (n = 36, 53%) and majority of the patients (n = 60, 88%) had good outcome without any long-term complications.

Conclusion

Profile of paediatric blunt abdominal trauma include solid organ injuries such as liver, spleen, kidney, pancreas, adrenal gland and others like bowel injury, CBD, urinary bladder and abdominal vascular injury. The grade of injury does not correlate with the outcome in a higher grade of injury and these children had good outcome.

Pediatric renal trauma at a level 1 trauma center in a rural state: A 10-year institutional review and protocol implementation

INTRODUCTION

Unintentional injury is a leading cause of mortality and morbidity in children. There is no consensus on the ideal, discrete management of pediatric renal trauma (PRT). Therefore, management protocols tend to be institution-specific.

OBJECTIVE

This study aimed to characterize PRT at a rural level-1 trauma center and subsequently develop a standardized protocol.

STUDY DESIGN

A retrospective review of a prospectively maintained database of PRT at a rural level 1 trauma center between 2009 and 2019 was conducted. Injuries were characterized regarding renal trauma grade, associated multi-organ involvement and the need for intervention. The benefit of patient transfer from regional hospitals and length and cost of stay were evaluated.

RESULTS

Of 250 patients admitted with renal trauma diagnosis 50 patients <18 years were analyzed. Of those, the majority (32/50, 64%) had low-grade (grade I-III) injuries. Conservative management was successful in all low-grade injuries. Of 18 high-grade PRT, 10 (55.6%) required intervention, one prior to transfer. Among patients with low-grade trauma, 23/32 (72%) were transferred from an outside facility. A total of 13 (26%) patients with isolated low-grade renal trauma were transferred from regional hospitals. All isolated, transferred low-grade renal trauma had diagnostic imaging before transfer and none required invasive intervention. Interventional management of renal injury was associated with a longer median LOS [7 (IQR = 4-16.5) vs 4 (IQR = 2-6) days for conservative management, p = 0.019)] and an increased median total cost of $57,986 vs. $18,042 for conservative management (p = 0.002).

DISCUSSION

The majority of PRT, particularly low-grade, can be managed conservatively. A significant proportion of children with low-grade trauma are unnecessarily transferred to higher level centers. Review of pediatric renal trauma at our institution over a decade has allowed us to develop an institutional protocol which we believe allows for safe and effective patient monitoring.

CONCLUSION

Isolated, low-grade PRT can be managed conservatively at regional hospitals without needing transfer to a level 1 trauma center. Children with high-grade injuries should be closely monitored and are more likely to need invasive intervention. Development of a PRT protocol will help to safely triage this population and identify those who may benefit from transfer to a tertiary care center.

Updated APSA Guidelines for the Management of Blunt Liver and Spleen Injuries

BACKGROUND

Non-operative management of blunt liver and spleen injuries was championed initially in children with the first management guideline published in 2000 by the American Pediatric Surgical Association (APSA). Multiple articles have expanded on the original guidelines and additional therapy has been investigated to improve care for these patients. Based on a literature review and current consensus, the management guidelines for the treatment of blunt liver and spleen injuries are presented.

METHODS

A recent literature review by the APSA Outcomes committee [2] was utilized as the basis for the guideline recommendations. A task force was assembled from the APSA Committee on Trauma to review the original guidelines, the literature reported by the Outcomes Committee and then to develop an easy to implement guideline.

RESULTS

The updated guidelines for the management of blunt liver and spleen injuries are divided into 4 sections: Admission, Procedures, Set Free and Aftercare. Admission to the intensive care unit is based on abnormal vital signs after resuscitation with stable patients admitted to the ward with minimal restrictions. Procedure recommendations include transfusions for low hemoglobin (<7 mg/dL) or signs of ongoing bleeding. Angioembolization and operative exploration is limited to those patients with clinical signs of continued bleeding after resuscitation. Discharge is based on clinical condition and not grade of injury. Activity restrictions remain the same while follow-up imaging is only indicated for symptomatic patients.

CONCLUSION

The updated APSA guidelines for the management of blunt liver and spleen injuries present an easy-to-follow management strategy for children.

LEVEL OF EVIDENCE

Level 5.

The characteristics, management and outcomes of high- and low-grade renal injuries in paediatric trauma patients at a major trauma centre

Introduction

Children, given anatomical variations, are at increased risk of renal injury following trauma. The management of paediatric renal injuries has, similar to other solid organ injuries, largely shifted towards conservative management; however, hemodynamically unstable patients may still warrant surgical exploration or interventional techniques. The aim of this study is to describe the local incidence, demographics, morbidity and outcomes associated with high- and low-grade renal injury in a paediatric major trauma population.

Method

This was a 5-year retrospective review of trauma registry data and chart analysis of all paediatric renal injuries from major trauma at a North American level 1 paediatric trauma centre between January 2016–31 December 2020. Data was analysed using SPSS v27 with p < 0.05 considered significant.

Results

Of 1334 major trauma patients, 45 suffered a kidney injury (20 high-grade and 25 low-grade injuries), of which 93.3% underwent conservative management with no difference in outcomes between groups. 80% of patients had concurrent injuries (a quarter requiring surgery for these), with a trend towards higher rates of chest injuries in high-grade renal injury patients ( p = 0.08). Bicycle injuries were statistically more likely to cause high-grade renal injury ( p = 0.02). Angiography was utilized infrequently (3/45 patients, 6.6%), and no patients underwent embolization in our study population. Overall mortality (4.4%) and length of stay were unaffected by grade of injury.

Conclusion

Paediatric renal injury is an uncommon injury in major trauma patients (3.4%). Most cases can be managed conservatively regardless of the grade of injury. Renal injury patients are likely to have concurrent injuries, often requiring surgery. Further studies are needed to measure the success and utilization of interventional radiology techniques for management in children.

Hospital-based intervention is rarely needed for children with low-grade blunt abdominal solid organ injury: An analysis of the Trauma Quality Improvement Program registry

BACKGROUND

Children with low-grade blunt solid organ injury (SOI) have historically been admitted to an inpatient setting for monitoring, but the evidence supporting the necessity of this practice is lacking. The purpose of this study was to quantify the frequency and timing of intervention for hemorrhage and to describe hospital-based resource utilization for low-grade SOI in the absence of other major injuries (OMIs).

METHODS

A cohort of children (aged <16 years) with blunt American Association for the Surgery of Trauma grade 1 or 2 SOI from the American College of Surgeons Trauma Quality Improvement Program registry (2007-2017) was analyzed. Children were excluded if they had confounding factors associated with intervention for hemorrhage (comorbidities, OMIs, or extra-abdominal surgical procedures). Outcomes included frequency and timing of intervention (laparotomy, angiography, or transfusion) for hemorrhage, as well as hospital-based resource utilization.

RESULTS

A total of 1,019 children were identified with low-grade blunt SOI and no OMIs. Nine hundred eighty-six (96.8%) of these children were admitted to an inpatient unit. Admitted children with low-grade SOI had a median length-of-stay of 2 days and a 23.9% intensive care unit admission rate. Only 1.7% (n = 17) of patients with low-grade SOI underwent an intervention, with the median time to intervention being the first hospital day. No child who underwent angiography was transfused or had an abnormal initial ED shock index.

CONCLUSION

Children with low-grade SOI are routinely admitted to the hospital and often to the intensive care unit but rarely undergo hospital-based intervention. The most common intervention was angiography, with questionable indications in this cohort. These data question the need for inpatient admission for low-grade SOI and suggest that discharge from the emergency room may be safe. Prospective investigation into granular risk factors to identify the rare patient needing hospital-based intervention is needed, as is validation of the safety of ambulatory management.

LEVEL OF EVIDENCE

Prognostic and epidemiological, level III.

Characteristics and outcomes of pediatric blunt renal trauma: a nationwide cohort study in Japan

PURPOSE

The aim of this study was to describe epidemiologic features of pediatric blunt renal trauma.

METHODS

We performed a retrospective analysis using the Japan Trauma Data Bank over 15 years. We included patients younger than 18 years with blunt renal trauma. We analyzed temporal trends and variations across age groups in patient characteristics, intervention, and in-hospital mortality. We also assessed factors associated with in-hospital mortality.

RESULTS

We identified 435 pediatric patients with blunt renal trauma. Their median age was 14 years and median Injury Severity Score (ISS) was 17. The most common mechanism of injury was traffic accident in all age groups. Nephrectomy was performed in 3.2%, and the overall in-hospital mortality was 4.6%, both of which showed decreasing trends. The most common mechanism of injury by age group was a pedestrian accident in infants/toddlers/preschoolers (43.5%), pedestrian accident in middle childhood (18.5%), bicycle accident in young teens (24.7%), and motorcycle accident in teenagers (41.2%). Sports-related injury was common in young teens (23.3%) and teenagers (15.2%). Factors such as ISS, shock, concomitant injury, and nephrectomy were associated with high in-hospital mortality.

CONCLUSIONS

We described decreasing trends in nephrectomy and in-hospital mortality in pediatric blunt renal trauma and found traffic accident and sports-related injury were common in the pediatric population in Japan.

Trauma in pediatric urology

In pediatric trauma, the kidney is the most commonly injured organ of the urinary tract. Renal trauma occurs in 10% to 20% of all pediatric blunt abdominal trauma cases. The vast majority of renal injuries can be treated conservatively. However, cases associated with hemodynamic instability require operative interventions. Injuries to the ureter, bladder or urethra are almost exclusively encountered in polytraumatized children. The aim of this article is to give an overview on traumatic injuries to the pediatric urinary system.

Isolated low-grade solid organ injuries in children following blunt abdominal trauma: Is it time to consider discharge from the emergency department?

INTRODUCTION

Acute intervention (AI) for solid organ injury (SOI) is rare in hemodynamically stable children. Pediatric guidelines recommend admission with follow-up laboratories, even for low-grade injuries.

METHODS

Data sets from two large multicenter prospective observational studies were used to analyze a cohort of children (age, <17 years) with grade I to III SOI following blunt abdominal trauma. Children with hollow viscus injuries were excluded. Patients were divided into (a) those with or without other major injuries (OMIs) (traumatic brain injury, hemothorax or pneumothorax, pelvic fracture, urgent orthopedic or neurosurgical operations) and (b) with grade I or II versus grade III injuries. Outcomes included AIs (transfusion, angiography, abdominal operation) and disposition (admission unit and length of stay).

RESULTS

There were 14,232 children enrolled in the two studies, and 791 patients had a SOI (5.6%). After excluding patients with hollow viscus injuries and higher-grade SOIs, 517 patients with a grade I to III SOI were included, and 262 of these had no OMI. Among patients with no OMI, none of 148 patients with grade I or II SOI underwent AI, while only 3 of 114 patients with grade III injuries underwent AI (3 transfusions/1 angioembolization). All three had hemoperitoneum; two of three had an additional organ with a grade II injury. Among grade I and II SOIs with no OMI, 28 (18.9%) of 148 were admitted to an intensive care unit, 110 (74.3%) of 148 to floor, and 7 (4.7%) of 148 discharged home from emergency department; median length of stay 2 days. Among grade III SOIs with no OMI, 38 (33.3%) of 114 were admitted to an intensive care unit and 61.4% to the floor; median length of stay was 4 days. Among 255 patients with a grade I to III SOI and other major organ system injuries, 31 (12.2%) underwent AI.

CONCLUSION

No patient with a grade I and II SOI and no OMI following blunt abdominal trauma received intervention, suggesting that patients with low-grade SOI without OMIs could be safely observed and discharged from the emergency department.

LEVEL OF EVIDENCE

Therapeutic study, level IV.

Impact of trauma center designation in pediatric renal trauma: National Trauma Data Bank analysis

INTRODUCTION

The pediatric kidney is the most common urinary tract organ injured in blunt abdominal trauma. Trauma care in the United States has been established into a hierarchical system verified by the American College of Surgeons (ACS). Literature evaluating management of pediatric renal trauma across trauma tier designations is scarce.

OBJECTIVE

To examine the differences in the management and outcomes of renal trauma in the pediatric population based on trauma level designation across the United States.

STUDY DESIGN

We performed a review of the ACS - National Trauma Data Bank database. Pediatric patients (age 0-18 years) who were treated for renal injury between years 2011-2016 were identified. Our primary outcome was the difference in any complication rate amongst Level I versus Non-Level I trauma centers. Management strategies were evaluated as secondary outcomes. Propensity score matching (PSM) was utilized to adjust for baseline differences between cohorts. Multivariable regression analysis was performed to determine the independent effects of individual factors on complications, operative intervention, minimally invasive procedure, and blood transfusions.

RESULTS

Overall, 12,097 pediatric patients were diagnosed with renal trauma between 2011 and 2016 using target ICD-9 and AAST codes. After PSM, there was a total of 1623 subjects withing each group. No difference was identified between groups for occurrence on any complication [105 (6.5%) vs 114 (7.0%), p = 0.576. There were no differences in the rate of minimally invasive interventions [67 (4.1%) vs 48 (3.0%), p = 0.087], operative intervention [58 (3.6%) vs 68 (4.2%), p = 0.413], or nephrectomy [42 (2.6%) vs 47 (2.9%), p = 0.667] between Level I and Non-Level I trauma designations, respectively. Length of stay was longer in the Level I cohort compared to Non-Level I (days (SD)) [6.9 (8.8) vs 6.2 (7.9), p = 0.024. When specifically looking at risk factors associated with operative intervention, higher renal injury grade and injury severity score were highly correlated, whereas, trauma level designation was not found to be predictive for more aggressive management.

DISCUSSION & CONCLUSION

Our results corroborate with previous literature that renal injury grade and injury severity score are strong predictors of morbidity, invasive management, and complications. Pediatric renal trauma was managed similarly across trauma center designations, with the rate of complication and intervention more prevalent in patients with high grade renal injuries and concomitant injuries. Further studies are necessary to identify patients who will benefit most from transfer to a level I center.

Strategies in liver Trauma

The management of pediatric liver trauma has evolved significantly over the last few decades. While surgical intervention was frequently and mostly unsuccessfully practiced during the first half of the last century, the 1960s were witness to the birth and gradual acceptance of non-operative management of these injuries. In 2000, the American Pediatric Surgical Association (APSA) Trauma Committee disseminated evidenced-based guidelines to help guide the non-operative management of pediatric blunt solid organ injury. The guidelines significantly contributed to conformity in the management of these patients. Since then, a number of well-designed studies have questioned the strict categorization of these injuries and have led to a renewed reliance on clinical signs of the patient's hemodynamic status. In 2019, APSA introduced an updated set of guidelines emphasizing the use of physiologic status rather than radiologic grade as a driver of clinical decision making for these injuries. This review will focus on liver injuries, in particular blunt injury, as this mechanism is by far the most commonly seen in children. Procedures required when non-operative management fails will be detailed, including surgery, angioembolization, and less commonly employed interventions. Finally, the updated inpatient and post-discharge aspects of care will be reviewed, including hemoglobin monitoring, bedrest, length of hospital stay, and activity restriction.

Bed rest: outdated following traumatic solid organ injury?

INTRODUCTION

This systematic review aimed to evaluate early ambulation protocols implemented for traumatic solid organ injury.

METHODS

The electronic databases PubMed, Medline (Ovid), Embase and Cochrane Library were searched without time constraint to identify prospective and retrospective analyses, randomised controlled trials, cohort studies, and case series that investigated early ambulation in solid organ trauma.

RESULTS

Six studies met the predefined inclusion criteria and were reviewed. Three studies investigated early ambulation protocols in direct comparison with bed rest. The remaining three studies were early ambulation case series. In all studies there was no convincing evidence to suggest differences in clinical outcomes between early ambulation and bed rest protocols. In all studies early ambulation resulted in a reduced length of hospitalisation and decreased cost to national healthcare services.

CONCLUSIONS

This systematic review has found preliminary evidence that suggests bed rest has no clinical benefit in those with low-grade to mid-grade (grades 1-2) solid organ injury. Further studies are required to inform guidance to improve trauma patient outcomes.

Renal pseudoaneurysm after blunt trauma in a 10-year-old girl: A case report

INTRODUCTION

Renal trauma is a relevant cause of morbidity in children older than 1 year. Most patients are currently managed conservatively, even in case of high-grade traumas; nevertheless, harmful complications may occur even in hemodynamically stable patients. We present a case of grade IV blunt renal trauma complicated by post-traumatic pseudoaneurysm.

CASE DESCRIPTION

A 10-year-old girl was referred to our institution for grade IV trauma of the right kidney. During observation she had persistent hematuria that caused anemia. A second contrast-enhanced computed tomography scan revealed a posttraumatic pseudoaneurysm that was successfully treated by angiographic embolization.

CONCLUSIONS

Although extremely rare after blunt renal trauma, post-traumatic renal pseudoaneurysm may cause severe blood loss and anemia, and angioembolization is therefore indicated. This condition should be suspected and move physicians to investigate further.

Changes in admission laboratory tests in patients with maxillofacial fractures and the influence of dento-alveolar trauma

BACKGROUND/AIM

There are few studies in the literature evaluating possible alterations in laboratory tests in patients with maxillofacial fractures. The aim of this study was to analyze the changes in admission laboratory tests of patients with maxillofacial fractures with indications for surgical treatment, including the influence of dento-alveolar trauma.

MATERIAL AND METHODS

Data from complete blood counts, blood coagulation tests, blood chemistries, and urinalysis results were obtained. The occurrence of concomitant dento-alveolar trauma was noted. The medical records were also re-evaluated later to verify the treatment outcome and the occurrence of complications. Statistical analyses were performed using the likelihood-ratio test to verify significant changes in the evaluated parameters (P ≤ .050).

RESULTS

There was a prevalence of males (78%) with a mean age of 35.9 years. Lower erythrocyte counts, hemoglobin levels, and/or hematocrit were observed in males with associated fractures and with simultaneous dento-alveolar fractures. Higher mean neutrophil, segmented neutrophil, and lymphocyte counts were observed in patients with simultaneous dento-alveolar trauma. A higher mean activated partial thromboplastin time (aPTT) ratio was also observed. Lower potassium levels were observed for patients in the fourth decade of life. Higher leukocyte counts not associated with trauma were observed in the urinalysis results of females and in the group of patients aged 20 or younger. Verification of treatment outcome showed two cases of infections and two cases that needed re-operation after mandible fractures. These four cases showed no significant changes in laboratory tests regarding the predisposition for complications.

CONCLUSION

Patients with maxillofacial fractures had neutrophilia, increased aPTT, and non-traumatic leukocyturia. There was an influence of associated fractures and dento-alveolar trauma on the decrease in red blood cell parameters, neutrophilia, and lymphocytosis and of age on hypokalemia.

Pediatric Thoracoabdominal Trauma: Experience from a Tertiary Care Center

Aim:

The aim of this study is to assess the pattern and mode of thoracoabdominal trauma and anatomical organ involvement, type of management employed, and overall outcomes in the pediatric population.

Materials and Methods:

A retrospective study conducted at a tertiary hospital over a period of 38 months with a total of 198 pediatric patients <12 years of age with a history of abdominal and chest trauma between July 2014 and September 2017 were reviewed. Case files of all pediatric patients were evaluated. Information regarding age, sex, mechanism of injury, site of injury, mode of injury, nature of the injury, definitive treatment required, whether conservative or surgical and outcome of patients was evaluated. site of injury, mode of injury, nature of the injury, definitive treatment required, whether conservative or surgical and outcome of patients was evaluated.

Results:

A total of 198 patients of thoracoabdominal trauma patients were studied. The majority of pediatric thoracoabdominal trauma cases were observed in males (n = 128, 64.64%) and females comprise only 35.35% (n = 70). Fall was the most common mode of trauma (58.08%) followed by road traffic accidents (30.30%), thermal injuries (9.09%) assaults in order of decreasing trends. The abdomen was the most common anatomical site of the injury (45.95%) followed by combined thoracoabdominal trauma (32.32%) followed by thoracic trauma (21.71%). Among the thoracic trauma, the most common comprised the lung contusions (37.20%) followed by the lung laceration comprising (25.58%) and rib fractures comprised only 20.93%. Among the abdominal trauma, the most common organ of injury was the liver (36.26%) followed by splenic trauma in 19.78% of patients. Approximately, 85% of patients were managed conservatively, and only 15% required major surgical intervention in the form of laparotomy and repair of bowel perforation, thoracotomy and ligation of bleeding intercostal vessels, partial and total splenectomy, repair of the liver laceration, and nephrectomy for the patient of Grade 5 renal injury with expanding retroperitoneal hematoma. Three patients died, one of which was Grade 5 renal injury with expanding retroperitoneal hematoma, two others were cases of combined thoracoabdominal trauma with massive hemothorax and both liver and splenic injury.

Conclusion:

The study defines the pattern of thoracoabdominal trauma, mode of trauma, and the prevalence of different organs involved in both the chest and abdominal cavity. We concluded that main indications for performing an operative intervention included severe hemodynamic instability, pneumoperitoneum, massive pneumohemothorax with significant shift and definitive confirmation of oral contrast leak on computed tomography films. A detailed trauma registry in our set up seems important for managing pediatric thoracoabdominal trauma.

Non-operative management of solid organ injuries in children: An American Pediatric Surgical Association Outcomes and Evidence Based Practice Committee systematic review

PURPOSE

The American Pediatric Surgical Association (APSA) guidelines for the treatment of isolated solid organ injury (SOI) in children were published in 2000 and have been widely adopted. The aim of this systematic review by the APSA Outcomes and Evidence Based Practice Committee was to evaluate the published evidence regarding treatment of solid organ injuries in children.

METHODS

A comprehensive search strategy was crafted and the Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines were utilized to identify, review, and report salient articles. Four principal questions were examined based upon the previously published consensus APSA guidelines regarding length of stay (LOS), activity level, interventional radiologic procedures, and follow-up imaging. A literature search was performed including multiple databases from 1996 to 2016.

RESULTS

LOS for children with isolated solid organ injuries should be based upon clinical findings and may not be related to grade of injury. Total LOS may be less than recommended by the previously published APSA guidelines. Restricting activity to grade of injury plus two weeks is safe but shorter periods of activity restriction have not been adequately studied. Prophylactic embolization of SOI in stable patients with image-confirmed arterial extravasation is not indicated and should be reserved for patients with evidence of ongoing bleeding. Routine follow-up imaging for asymptomatic, uncomplicated, low-grade injured children with abdominal blunt trauma is not warranted. Limited data are available to support the need for follow-up imaging for high grade injuries.

CONCLUSION

Based upon review of the recent literature, we recommend an update to the current APSA guidelines that includes: hospital length of stay based on physiology, shorter activity restrictions may be safe, minimizing post-injury imaging for lower injury grades and embolization only in patients with evidence of ongoing hemorrhage.

TYPE OF STUDY

Systematic Review.

LEVELS OF EVIDENCE

Levels 2-4.

Adherence to APSA activity restriction guidelines and 60-day clinical outcomes for pediatric blunt liver and splenic injuries (BLSI)

BACKGROUND

After NOM for BLSI, APSA guidelines recommend activity restriction for grade of injury +2 in weeks. This study evaluates activity restriction adherence and 60 day outcomes.

METHODS

Non-parametric tests and logistic regression were utilized to assess difference between adherent and non-adherent patients from a 3-year prospective study of NOM for BLSI (≤18 years).

RESULTS

Of 1007 children with BLSI, 366 patients (44.1%) met the inclusion criteria of a completed 60 day follow-up; 170 (46.4%) had liver injury, 159 (43.4%) had spleen injury and 37 (10.1%) had both. Adherence to recommended activity restriction was claimed by 279 (76.3%) patients; 49 (13.4%) reported non-adherence and 38 (10.4%) patients had unknown adherence. For 279 patients who adhered to activity restrictions, unplanned return to the emergency department (ED) was noted for 35 (12.5%) with 16 (5.7%) readmitted; 202 (72.4%) returned to normal activity by 60 days. No patient bled after discharge. There was no statistical difference between adherent patients (n = 279) and non-adherent (n = 49) for return to ED (χ2 = 0.8 [p < 0.4]) or readmission (χ2 = 3.0 [p < 0.09]); for 216 high injury grade patients, there was no difference between adherent (n = 164) and non-adherent (n = 30) patients for return to ED (χ2 = 0.6 [p < 0.4]) or readmission (χ2 = 1.7 [p < 0.2]).

CONCLUSION

For children with BLSI, there was no difference in frequencies of bleeding or ED re-evaluation between patients adherent or non-adherent to the APSA activity restriction guideline.

LEVEL OF EVIDENCE

Level II, Prognosis.

Renal artery embolization in a child with delayed hemodynamic instability from penetrating knife wound

Penetrating laceration injury in the pediatric population may present as an acute or delayed life-threatening injury. Although emergent intra-arterial embolization is commonly utilized in adults, few cases have been reported for children. Surgical treatment for severe renal laceration injuries may require complete nephrectomy; an unfortunate outcome for a pediatric patient if a renal-preserving alternative is feasible. We present a case of penetrating renal laceration in a 10-year-old boy treated with intra-arterial embolization of the lacerated dominant renal artery and subsequent renal perfusion by an uninjured accessory renal artery allowing for renal preservation.

Minimizing variance in Care of Pediatric Blunt Solid Organ Injury through Utilization of a hemodynamic-driven protocol: a multi-institution study

BACKGROUND

An expedited recovery protocol for management of pediatric blunt solid organ injury (spleen, liver, and kidney) was instituted across two Level 1 Trauma Centers, managed by nine pediatric surgeons within three hospital systems.

METHODS

Data were collected for 18months on consecutive patients after protocol implementation. Patient demographics (including grade of injury), surgeon compliance, National Surgical Quality Improvement Program (NSQIP) complications, direct hospital cost, length of stay, time in the ICU, phlebotomy, and re-admission were compared to an 18-month control period immediately preceding study initiation.

RESULTS

A total of 106 patients were treated (control=55, protocol=51). Demographics were similar among groups, and compliance was 78%. Hospital stay (4.6 vs. 3.5days, p=0.04), ICU stay (1.9 vs. 1.0days, p=0.02), and total phlebotomy (7.7 vs. 5.3 draws, p=0.007) were significantly less in the protocol group. A decrease in direct hospital costs was also observed ($11,965 vs. $8795, p=0.09). Complication rates (1.8% vs. 3.9%, p=0.86, no deaths) were similar.

CONCLUSIONS

An expedited, hemodynamic-driven, pediatric solid organ injury protocol is achievable across hospital systems and surgeons. Through implementation we maintained quality while impacting length of stay, ICU utilization, phlebotomy, and cost. Future protocols should work to further limit resource utilization.

TYPE OF STUDY

Retrospective cohort study.

LEVEL OF EVIDENCE

Level II.

Characteristics and Management of Blunt Renal Injury in Children

BACKGROUND

Renal trauma in the pediatric population is predominately due to blunt mechanism of injury. Our purpose was to determine the associated injuries, features, incidence, management, and outcomes of kidney injuries resulting from blunt trauma in the pediatric population in a single level I trauma center.

METHODS

This was a retrospective chart and trauma registry review of all pediatric blunt renal injuries at a regional level I trauma center that provides care to injured adults and children. The inclusion dates were January 2001-June 2014.

RESULTS

Of 5790 pediatric blunt trauma admissions, 68 children sustained renal trauma (incidence: 1.2%). Only two had nephrectomies (2.9%). Five renal angiograms were performed, only one required angioembolization. Macroscopic hematuria rate was significantly higher in the high-grade injury group (47% vs. 16%; P = 0.031). Over half of the patients had other intra-abdominal injuries. The liver and spleen were the most frequently injured abdominal organs.

CONCLUSION

Blunt renal trauma is uncommon in children and is typically of low American Association for the Surgery of Trauma injury grade. It is commonly associated with other intra-abdominal injuries, especially the liver and the spleen. The nephrectomy rate in pediatric trauma is lower compared to adult trauma. Most pediatric blunt renal injury can be managed conservatively by adult trauma surgeons.

Safety of early ambulation following blunt abdominal solid organ injury: A prospective observational study

BACKGROUND

There is continued debate regarding the optimal period of bed-rest and in-hospital monitoring for non-operative management of solid organ injury following blunt trauma.

METHODS

Single center, prospective, observational study of blunt solid organ injuries from 07/2014-02/2016, managed initially without surgical or angiographic intervention. Early ambulation was defined as ≤24 h.

RESULTS

79 patients met inclusion criteria, with 36 (45.6%) in the early ambulation group and 43 (54.4%) in the late ambulation group. There were zero complications in the early ambulation group, and three complications in the late ambulation group (complications, p = 0.246; further interventions, p = 0.498). Median ICU LOS was zero days and three days for early vs. late ambulation, p = 0.001. Median total LOS was two days and five days for early vs. late ambulation, p < 0.001.

CONCLUSION

Early ambulation is safe in patients undergoing non-operative management of their solid organ injury, and may result in a reduced length of stay.

Outcomes of an accelerated care pathway for pediatric blunt solid organ injuries in a public healthcare system

PURPOSE

An accelerated clinical care pathway for solid organ abdominal injuries was implemented at a level one pediatric trauma center. The impact on resource utilization and demonstration of protocol safety was assessed.

METHODS

Data were collected retrospectively on patients admitted with blunt abdominal solid organ injuries from 2012 to 2015. Patients were subdivided into pre- and post-protocol groups. Length of hospital stay (LOS) and failure of non-operative treatment were the primary outcomes of interest.

RESULTS

138 patients with solid organ injury were studied: 73 pre- (2012-2014) and 65 post-protocol (2014-2015). There were no significant differences in age, gender, injury severity score (ISS), injury grade, or mechanism (p>0.05). LOS was shorter post-protocol (mean 5.6 vs. 3.4days; median 5 .0 vs. 3.0days; p=0.0002), resulting in average savings of $5966 per patient. Patients in the protocol group mobilized faster (p<0.0001) and experienced fewer blood draws (p=0.02). On multivariate analysis, protocol group (p<0.001) and ISS (p<0.001) were independently associated with LOS. There were no differences between groups in the need for operation, embolization, or transfusion.

CONCLUSION

An accelerated care pathway is safe and effective in the management of pediatric solid organ injuries with early mobilization, less blood draws, and decreased LOS without significant morbidity and mortality.

LEVEL OF EVIDENCE

Therapeutic, cost effectiveness, level III.

Nonoperative Management of Blunt Solid Organ Injury in Pediatric Surgery

In the last decade, higher rates of nonoperative management of liver, spleen, and kidney injuries have been achieved. An algorithmic approach may improve success on a national level. Factors for success include management strategy based on physiologic status of the child, early attempt at resuscitation using blood products, and appropriate use of adjuncts. Shorter hospitalizations are appropriate for children who have not bled significantly, and discharge instructions facilitate the safety of early discharge. Although routine imaging is not required for liver or spleen injury, symptoms should prompt reevaluation. Reimaging of renal injuries remains in common use.

Pediatric blunt abdominal trauma: current management

PURPOSE OF REVIEW

Nonoperative management of pediatric blunt abdominal injury has changed significantly in the last few years.

RECENT FINDINGS

Improved resource utilization in the diagnosis of pediatric abdominal injury has been described. Hemodynamic status, rather than grade of injury, now guides care. Stable patients spend less time in the hospital, return to school upon discharge, and are allowed lower hemoglobin levels prior to transfusion. ICUs are reserved for those with recent or ongoing bleeding, previously unstable patients, or children with concomitant injuries necessitating ICU. Risk factors for failure and evidence for adjuncts to nonoperative management are emerging. Operative management of certain pancreatic injuries may have more favorable outcomes than nonoperative management.

SUMMARY

Sufficient evidence has become available to radically change the management of pediatric abdominal injury, which is being incorporated into new evidence-based management algorithms.

Management of pediatric blunt renal trauma: A systematic review

BACKGROUND

Blunt trauma remains a significant cause of morbidity and mortality in the pediatric population. The use of conservative management for blunt renal trauma is widely accepted in adult trauma literature and is now increasingly accepted for use in the pediatric patient population. This study aimed to review current practices in pediatric blunt renal trauma management and to highlight current practices in conservative protocols, success rates of conservative management strategies, as well as short- and long-term outcomes of blunt renal trauma management.

METHODS

This is a systematic review of PubMed, Ovid, and the Cochrane Library. The following search was performed in each of the three databases: (Renal or Kidney) AND (Pediatric or Children) AND Trauma AND Management. Publications were limited to publish date after January 1, 2000. Inclusion criteria were (1) original research articles regarding management of pediatric blunt renal trauma, (2) involvement of cases of high-grade renal (Grades IV and V) trauma, and (3) more than one patient presented per study. Literature reviews and meta-analyses were excluded.

RESULTS

Titles and abstracts (n = 308) were screened to identify scientific articles reporting original research findings. A total of 32 articles met the selection criteria and were included in the review.

CONCLUSION

The literature supports application of conservative management protocols to high-grade blunt pediatric renal trauma. Criteria for early operative intervention are not well understood. At this time, emergent operative intervention only for hemodynamic instability is recommended. Minimally invasive interventions including angioembolization, stenting, and percutaneous drainage should be used when indicated. Short- and long-term outcomes are favorable when using conservative management approaches to Grade IV and V renal injuries. Further studies including prospective studies and randomized control trials are necessary. Cost analyses of current treatment protocols are also necessary to guide efficient management strategies.

LEVEL OF EVIDENCE

Systematic review, level III.

Blunt Renal Trauma

The pediatric patient is especially prone to blunt renal trauma due to the size and location of pediatric kidneys. No clear guidelines have been established for the management of these injuries in children to achieve the highest rate of renal salvage with low morbidity. Wide-ranging literature exists on this subject, but consists of vastly different management strategies. This review is written to summarize the different approaches to blunt renal trauma and highlight opportunities for further research.