The utility of clinical examination in screening for pelvic fractures in blunt trauma

BACKGROUND: Current recommendations of the American College of Surgeons Advanced Trauma Life Support course is routine radiographic screening of the pelvis for all patients who suffer blunt torso trauma. The purpose of this study is to evaluate in a prospective manner the sensitivity of clinical examination as a screening modality for pelvic fractures in awake and alert blunt trauma patients. STUDY DESIGN: During a 32-month period, 2,176 consecutive blunt trauma patients who presented with Glasgow Coma Scores of 14 or 15 were evaluated at an urban Level I trauma center. Clinical examination of all patients was prospectively performed by trauma resident housestaff. The clinical examination of each patient was documented in a study form before performance of a standard anterior-posterior (A-P) pelvic x-ray. RESULTS: We evaluated 2,176 blunt trauma patients, 97 (4.5%) of whom were diagnosed with pelvic fracture. There were seven missed injuries on clinical examination (sensitivity 93%). None of the missed injuries on clinical examination required surgical intervention. The sensitivity of A-P pelvic x-ray was 87%, with 13 missed injuries. There were 463 patients who entered with ethanol levels equal or greater than 100 mg/dL (range 100 to 480 mg/dL). There were 20 pelvic fractures diagnosed in this group, with only 1 missed injury on clinical examination (sensitivity 95%). CONCLUSIONS: 1) Clinical examination of the pelvis can reliably rule out significant pelvic fracture in the awake and alert blunt trauma patient. 2) The addition of routine A-P pelvic x-ray does not improve the sensitivity in diagnosis of surgically significant pelvic fractures nor does it have significant impact on outcomes of pelvic fracture patients. 3) Elevated ethanol level is not a contraindication to use of clinical examination as a screening modality for pelvic fractures in the awake and alert blunt trauma patient.     

A prospective evaluation of the clinical presentation of pediatric pelvic fractures

BACKGROUND: We sought to describe pediatric, blunt trauma patients with pelvic fracture (PF) and to evaluate pelvis examination sensitivity and specificity. METHODS: We conducted a prospective study of blunt trauma patients at a Level I pediatric trauma center. A pediatric emergency medicine physician attempted to diagnose a PF, solely on the basis of the history and pelvis examination. Patients with blunt trauma but no pelvic fracture (NPF) were used as controls. RESULTS: We enrolled 140 patients (16 PF, 124 NPF), and no significant differences were found regarding median age, gender, injury mechanism, acuity, and medical outcome. Approximately 25% of PF patients had iliac-wing fractures; 37%, single pelvic ring; 25%, double pelvic ring; and 13%, acetabular fractures. Eleven patients with PF had an abnormal pelvis examination (69% sensitivity), compared with six NPF patients (95% specificity, negative predictive value 0.91). CONCLUSION: Pediatric patients with PF have low mortality and few complex fractures. The pelvis examination appears to have both high specificity and negative predictive value.     

Associated aortic rupture-pelvic fracture: an alert for orthopedic and general surgeons.

Blunt trauma patients with pelvic fractures have been shown to have a two-fold to five-fold increased risk of aortic rupture compared with the overall blunt trauma population. A retrospective review was performed to determine whether the relationship between aortic rupture and pelvic fracture could be further delineated using a pelvic fracture classification based on mechanism of injury. Of 4,157 consecutive blunt trauma patients, 371 (8.9%) had pelvic fractures, 34 (0.8%) had ruptured thoracic aortas and 12 had both injuries. When pelvic fractures were classified according to vector of force, 10 of 12 (83%) aortic ruptures occurred in patients with an anterior-posterior compression fracture pattern, an incidence of aortic rupture eight times greater than that of the overall blunt trauma population. There was no increased incidence of aortic rupture among patients with any other pelvic fracture pattern. We conclude that the previously reported association between aortic rupture and pelvic fracture can be further specified to include, predominantly, those patients with an anterior-posterior compression fracture pattern.     

Bladder rupture after blunt trauma: guidelines for diagnostic imaging

PURPOSE: The purpose of this study was to establish guidelines for diagnostic imaging for bladder rupture in the blunt trauma victim with multiple injuries, in whom the delay caused by unnecessary testing can hamper the trauma surgeon and threaten outcome. METHODS: We undertook chart review (1995-1999) of patients with blunt trauma and bladder rupture at our four institutions and performed focused literature review of retrospective series. RESULTS: Of our 53 patients identified, all had gross hematuria and 85% had pelvic fracture. Literature review revealed similar rates. CONCLUSION: The classic combination of pelvic fracture and gross hematuria constitutes an absolute indication for immediate cystography in blunt trauma victims. Existing data do not support lower urinary tract imaging in all patients with either pelvic fracture or hematuria alone. Clinical indicators of bladder rupture may be used to identify atypical patients at higher risk. Patients with isolated hematuria and no physical signs of lower urinary tract injury may be spared the morbidity, time, and expense of immediate cystographic evaluation.     

CT guided percutaneous fixation of sacroiliac fractures in trauma patients.

BACKGROUND: Open reduction and internal fixation of unstable pelvic fractures has been advocated to minimize complications and avoid further injury. We have recently performed CT guided percutaneous fixation of sacroiliac joints as an alternative to open repair. METHODS: From May 1, 1998 to April 30, 1999, our Level II trauma center admitted 76 patients with pelvic fractures, all due to blunt trauma. Twenty patients with unstable sacroiliac fracture-distractions underwent 22 percutaneous fixation procedures under general anesthesia in the radiology department by the third hospital day. Procedure times averaged 82 minutes. Localization with CT guidance was performed by the radiologist using 3-D images followed by percutaneous screw placement by the orthopaedic surgeon. RESULTS: There was minimal procedural blood loss and no post-procedural wound complications. There was one operative delay due to respiratory difficulties and one postoperative death unrelated to the pelvic fracture. All patients were mobilized on the first post-procedural day. CONCLUSION: CT guided fixation of unstable pelvic fractures minimizes blood loss during a short procedure with few subsequent complications and allows early mobilization of the patients.     

Initial care of the patient with blunt polytrauma

The initial care of the patient with blunt polytrauma involves a systematic search for causes of hemodynamic instability. Bleeding most often occurs in the pleural space, peritoneal cavity, and retroperitoneum. Orthopaedic injuries also can contribute to instability after blunt trauma. Blood loss from open fractures may be substantial, and exposure with direct vessel control should be performed early. Pelvic fractures can be associated with severe retroperitoneal bleeding. The treatment of patients with complex pelvic fractures includes closing the pelvic space with a binding device, and early pelvic angiography with embolization. Care of patients with multiple organ and bone injuries requires coordination by one trauma team leader. This physician oversees the resuscitation and sets treatment priorities, including the type and amount of time allowed for fracture stabilization. In many cases, nonorthopaedic injuries will need to be addressed before definitive fracture care. However, optimal care typically involves a coordinated multispeciality approach that sometimes includes concurrent operative procedures. Patients with severe physiologic derangements may require damage control techniques to decrease blood loss and operative time. Understanding the overall care of patients who are injured critically will facilitate the integration of the orthopaedic surgeon into the trauma team.     

Iliac vein injuries in hemodynamically unstable patients with pelvic fracture caused by blunt trauma

BACKGROUND: Major pelvic venous injuries secondary to blunt trauma can be a difficult problem in diagnosis and management. This study aimed to elucidate the clinical significance of iliac vein injuries demonstrated by venography in patients with blunt pelvic injuries who remained unstable even after transcatheter arterial embolization (TAE). METHODS: We reviewed the records of 72 patients with unstable pelvic fracture who presented with shock at our center after blunt trauma from 1999 through 2003. The average Injury Severity Score was 34.3 in this study population. RESULTS: TAE was the first method of choice to control bleeding from pelvic fracture in 61 patients. Thirty-six patients recovered from shock after TAE. Eighteen of 25 who did not recover from shock died. In 11 of these 25, transfemoral venography with a balloon catheter was performed, revealing significant venous extravasation in 9: common iliac vein in 5, internal iliac vein in 3, and external iliac vein in 1. The average Injury Severity Score of patients with iliac vein injury was 45.8. Treatments for venous injuries were laparotomy for hemostasis (n = 1, survivors = 0), retroperitoneal gauze packing (n = 3, survivors = 1), and endovascular stent placement (n = 3, survivors = 3). Two patients suffered from cardiac arrest before treatment for venous injury. External fixations were performed after TAE according to fracture type. CONCLUSION: The iliac vein injury is the principal cause of hemorrhagic shock in some patients with unstable pelvic fractures after blunt trauma. Venography is useful for identifying iliac vein injuries.     

Routine pelvic X-rays in asymptomatic hemodynamically stable blunt trauma patients: A meta-analysis

IntroductionThere is no consensus on how pelvic X-rays should be ordered selectively in blunt trauma patients which may save time, reduce radiation exposure and costs. The aim of this systematic review and meta-analysis was to assess the need for routine pelvic X-rays in awake, respiratory and hemodynamically (HD) stable blunt trauma patients without signs of pelvic fracture. Criteria to identify patients who could safely forgo pelvic X-ray were evaluated.MethodsA literature search was performed for prospective comparative cohort studies. Inclusion criteria were: blunt force trauma, hemodynamically and respiratory stable and awake patients, physical examination (PE) for pelvic fractures was adequately described, and the reliability of negative PE findings could be evaluated. Primary outcome was the negative predictive value (NPV) of PE for all and for clinically relevant pelvic fractures. Additionally sensitivity, specificity and positive predictive value (PPV) were calculated.ResultsTen studies were included; yielding a total of 11,423 patients. The NPV of PE for all pelvic fractures ranged from 0.96 to 1.00 with a median of 0.996. Combining studies, total NPV was 0.991. For clinically relevant fractures, the NPV of PE ranged from 0.996 to 1.00 with a median of 1.00. In patients with negative findings during PE, 0.9% had fractures, and 0.1% had clinically relevant fractures, none requiring surgical management.ConclusionsIn awake, hemodynamically and respiratory stable blunt trauma patients, PE could identify those patients who could safely forgo pelvic X-ray. Selective ordering of pelvic X-ray may lead to a decrease in patient work-up time, lower radiation exposure, and reduce costs. A decision making flow chart is proposed..     

Significance of physical examination and radiography of the pelvis during treatment in the shock emergency room

AIM. Physical examination and radiography of the pelvis is part of most routine protocols in the emergency room (ER) management of blunt trauma patients. The purpose of this study was to determine the usefulness of these diagnostic tests with respect to diagnostic accuracy, therapeutic consequences, and prognosis in severely injured patients. METHOD. In a prospective study including all trauma patients admitted to the ER, physical examination and clinical management were evaluated. All patients underwent physical examination of the pelvis and were grouped into two categories: patients without (group I) and with (group II) clinical pelvic instability. A comparison between these two groups was made for standard demographic data, indices of shock, diagnostic and therapeutic procedures, and results. RESULTS. During a 45-month period a total of 1160 patients were enrolled: 979 subjects (ISS 21+/-16) with blunt trauma were included in this analysis. Of these, 929 patients had negative (group I) and 51 (group II) positive examination results for clinical stability of the pelvis. When comparing these two groups, group II patients had a higher injury severity score, higher incidence of shock with a lower initial systolic blood pressure, a lower initial hemoglobin, and a higher rate of associated severe chest and abdominal injuries (AIS > or = 3). Among the 51 patients with abnormal pelvis instability, there were 6 type A, 16 type B, and 27 type C fractures, whereas in two cases no pelvic fracture could be found. Of the 928 patients without positive clinical signs, 866 (93%) had no pelvic fracture. There were 40 type A, 19 type B, and 3 type C fractures missed on clinical examination. The physical examination had a sensitivity of 44% and specificity of 99% for detecting pelvic fracture. A comparison between groups I and II showed the patients with positive physical pelvic examination to have greater transfusion requirements and a higher rate of surgical intervention for pelvic stabilization and blood control. CONCLUSION. The clinical diagnosis of pelvic instability should result in an immediate order for blood products, taking surgical intervention into account. Pelvic radiographs in the ER are required for early surgical management. In patients with negative pelvis examination results, a routine pelvic radiograph is recommended because clinical examination cannot reliably rule out surgically significant pelvic fractures (20%) in the severely injured and intubated blunt trauma patient.     

Determining indications and osteosynthesis techniques for the pelvic girdle]

1566 patients with fractures of the pelvis were treated at the Department of Traumatology of the Hannover Medical School between 1972 and 1990: 1350 patients had fractures of the pelvic ring, 216 isolated acetabulum fractures, 398 combinations of pelvic ring fractures and acetabular involvement; 718 of these patients were admitted with severe polytrauma. For 1254 patients a complete file was available for clinical and radiological evaluation of fracture distribution, classification (Tile and anatomical location) and concomitant injuries. During the observation period, significant increase in the severity of the trauma, the severity of the pelvic fractures and the rate of internal stabilization, especially of the posterior pelvic ring was observed. The overall mortality after pelvic fractures was 18.1%. This mortality depended significantly on the Hannover Polytrauma Score (PTS) and the associated pelvic and extrapelvic blunt trauma. Internal fixation of pelvic fractures was performed in 195 patients. This experience has now led to standardized procedures for the different fracture locations. With the task of minimizing soft tissue trauma and reducing the implant size, more differentiated treatment of sacral fractures is now applied. Adapted small fragment implants ("local osteosyntheses") can be applied, with an unilateral longitudinal dorsal incision providing an excellent overview over the fracture line. For internal fixation of sacral fractures, involvement (penetration by screws, transfixation) of the sacroiliac joint is avoided whenever possible. In our experience early open reduction and internal fixation of pelvic fractures facilitates the management of these severely injured patients.     

Evolution of a Multidisciplinary Clinical Pathway for the Management of Unstable Patients With Pelvic Fractures

OBJECTIVE: To determine whether the evolution of the authors' clinical pathway for the treatment of hemodynamically compromised patients with pelvic fractures was associated with improved patient outcome. SUMMARY BACKGROUND DATA: Hemodynamically compromised patients with pelvic fractures present a complex challenge. The multidisciplinary trauma team must control hemorrhage, restore hemodynamics, and rapidly identify and treat associated life-threatening injuries. The authors developed a clinical pathway consisting of five primary elements: immediate trauma attending surgeon's presence in the emergency department, early simultaneous transfusion of blood and coagulation factors, prompt diagnosis and management of associated life-threatening injuries, stabilization of the pelvic girdle, and timely insinuation of pelvic angiography and embolization. The addition of two orthopedic pelvic fracture specialists led to a revision of the pathway, emphasizing immediate emergency department presence of the orthopedic trauma attending to provide joint decision making with the trauma surgeon, closing the pelvic volume in the emergency department, and using alternatives to traditional external fixation devices. METHODS: Using trauma registry and blood bank records, the authors identified pelvic fracture patients receiving blood transfusions in the emergency department. They analyzed patients treated before versus after the May 1998 revision of the clinical pathway. RESULTS: A higher proportion of patients in the late period had blood pressure less than 90 mmHg (52% vs. 35%). In the late period, diagnostic peritoneal lavage was phased out in favor of torso ultrasound as a primary triage tool, and pelvic binding and C-clamp application largely replaced traditional external fixation devices. The overall death rate decreased from 31% in the early period to 15% in the later period, as did the rate of deaths from exsanguination (9% to 1%), multiple organ failure (12% to 1%), and death within 24 hours (16% to 5%). CONCLUSIONS: The evolution of a multidisciplinary clinical pathway, coordinating the resources of a level 1 trauma center and directed by joint decision making between trauma surgeons and orthopedic traumatologists, has resulted in improved patient survival. The primary benefits appear to be in reducing early deaths from exsanguination and late deaths from multiple organ failure.     

Management of male pelvic fracture urethral injuries: Review and current topics

Pelvic fractures from high‐energy blunt force trauma can cause injury to the posterior urethra, known as pelvic fracture urethral injury, which is most commonly associated with unstable pelvic fractures. Pelvic fracture urethral injury should be suspected if a patient with pelvic trauma has blood at the meatus and/or difficulty voiding, and retrograde urethrography should be carried out if the patient is stable. Once urethral injury is confirmed, urinary drainage should be established promptly by placement of a suprapubic tube or primary realignment of the urethra over a urethral catheter. Although pelvic fracture urethral injury is accompanied by subsequent urethral stenosis in a high rate and it has been believed that primary realignment can reduce the risk of developing urethra stenosis, it also has a risk of complicating stenosis and its clinical significance remains controversial. Once inflammation and fibrosis have stabilized (generally at least 3 months after the trauma), the optimal management for the resulting urethral stenosis is delayed urethroplasty. Delayed urethroplasty can be carried out via a perineal approach using four ancillary techniques in steps (bulbar urethral mobilization, corporal separation, inferior pubectomy and urethral rerouting). Although pelvic trauma can impair continence mechanisms, the continence after repair of pelvic fracture urethral injury is reportedly adequate. Because erectile dysfunction is frequently encountered after pelvic fracture urethral injury and most patients are young with a significant life expectancy, its appropriate management can greatly improve quality of life. In the present article, the key factors in the management of pelvic fracture urethral injury are reviewed and current topics are summarized.     

Is routine portable pelvic X-ray in stable multiple trauma patients always justified in a high technology era?

INTRODUCTION: According to the Advanced Trauma Life Support, portable pelvis radiography (PXR) is mandatory in multiple trauma patients, and is performed following initial clinical evaluation. The purpose of an early PXR is to identify pelvic fractures that may have haemodynamic consequences. Today, ultrafast multi-detector CT scanners (MDCT) are readily available and widely used in the evaluation of stable trauma patients. The objective of this study was to determine the impact of PXR in stable blunt multiple trauma patients, who required CT scan for full evaluation of the abdomen and pelvis. METHODS: A retrospective review of all stable blunt trauma patients, suffering from pelvic fractures was performed from January 2001 until December 2004 at two high volume Trauma Centres. Patients' demographics and Injury Severity Scores (ISS) were abstracted from our trauma registry. Two certified radiologists and two certified orthopaedic surgeons retrospectively evaluated and compared PXR films and CT angiographies (CTA) of the abdomen and pelvis. We recorded each case when the management policy was altered due to the results of imaging and compared the clinical impact of both modalities. RESULTS: One hundred and twenty-nine stable blunt multiple trauma patients with pelvic fractures underwent CTA of the abdomen and pelvis during their initial evaluation. Mean ISS was 16.5. Average Glasgow Coma Scale on arrival was 13.2 (range 3-15). Compared to CTA, sensitivity and specificity of the PXR was 64.4 and 90.0%, respectively. CTA diagnosed 35.6% more pelvic fractures than PXR (p<0.05). No changes in the therapeutic policy were observed following PXR results. In 19 (14.7%) patients, CTA findings led to pelvic angiography. CONCLUSIONS: PXR in stable blunt multiple trauma patients did not change the therapeutic policy in our patients. CTA of the abdomen and pelvis is the imaging modality of choice in blunt multiple trauma, regardless of the findings of PXR. Benefit of routine PXR is questionable in hospitals where MDCT is available. Based on our results, we suggest re-evaluating the current practice of routine mandatory portable pelvis radiography.     

Massive Rectal Hemorrhage from the Middle Hemorrhoidal Artery after Blunt Perineal Trauma Without Pelvic Fracture

Abstract Background: Severe pelvic hemorrhage after blunt trauma without bony fracture has been reported occasionally, and clinical presentation as a delayed massive rectal bleeding is very rare. Case Study: The case of an 86-year-old woman with massive rectal bleeding 12 h after mild blunt perineal trauma is presented. Physical examination revealed an extensive perineal hematoma and a 2-cm laceration in the posterior rectal wall. Pelvic CT scan revealed a large mesorectal hematoma causing extrinsic compression of the rectal lumen. No bony fracture was observed. Selective arteriography was then performed showing hemorrhage resulting from the right middle hemorrhoidal artery, branch of the internal pudendal artery. Transcatheter embolization of coils successfully controlled the bleeding. However, the patient developed a respiratory distress syndrome and renal failure with no response to the treatment and she died 3 days later. Conclusion: This report is unique not only for the unusual association of pelvic hemorrhage and rectal injury after blunt trauma without pelvic fracture but also because of the clinical presentation as a massive rectal bleeding. Undoubtedly, the delayed diagnosis and treatment, 12 h after the trauma, contributed to the fatal outcome.     

Epidemiology and outcome of complex pelvic injury

Soft tissue injuries associated with pelvic fractures are often responsible for compromised haemodynamics. The objective of this study was to clarify what parameters determine patient outcome. In a cohort study, all patients with a pelvic fracture treated between 1991 and 2001 at a Level I trauma center were analysed for associated intrapelvic injuries, classification, severity of trauma, type of intervention and outcome. Of 552 patients with a pelvic fracture who entered the study, 15.5% presented with associated intrapelvic injuries secondary to the fracture (group I). A subgroup of patients with lacerations of branches of the iliac artery was identified as being at high risk for lethal outcome; they represented 4.3% of all patients with pelvic fracture (group II). The overall mortality reached 4.4%; it increased in group I to 15.5%, and in group II to 33.3%. In the subgroup with pelvic arterial haemorrhage (group II), the severity of injury, the proportion of multiple injured patients, the prevalence of unstable fractures and the incidence of sepsis were significantly increased. The only predictive factor for outcome was the amount of blood transfused, suggesting that fast elimination of the bleeding source decides about patient survival.     

Pelvic radiography in blunt trauma resuscitation: a diminishing role

BACKGROUND: An anteroposterior pelvic radiograph (PXR) continues to be recommended by Advanced Trauma Life Support protocol as an early diagnostic adjunct in the resuscitation of blunt trauma patients. At the same time, computed tomographic (CT) scanning has become a practice standard for diagnosis of most abdominal and pelvic injury. The objective of this study was to determine the necessity of obtaining an early PXR in stable trauma patients who will undergo CT scanning during the initial resuscitation. METHODS: A retrospective review of all blunt trauma patients undergoing immediate abdomen and pelvic CT scanning was performed from July 2000 until June 2001 at an urban Level I trauma center. These patients were divided into two groups depending on whether they also received a PXR (group I) or not (group II). At the time of the study, there was no formal protocol to determine which patients underwent pelvic radiography. Radiology reports of all PXRs and CT scans were reviewed. Patient demographics and Injury Severity Scores (ISSs) were abstracted from our trauma registry. The data were analyzed using Student's test. RESULTS: A total of 686 patients with blunt trauma underwent CT scanning of the abdomen and pelvis. Group I consisted of 311 (45%) patients with an average ISS of 12.3 +/- 0.7. In group I, 56 (10%) patients were found to have at least one pelvic fracture on CT scan, 38 of which were also identified on the PXR. Defining CT scanning as the definitive test, the sensitivity and specificity of the PXR in group I was 68% and 98%, respectively. The false-negative rate for pelvic radiography was 32%. In all patients with a positive PXR, the majority (55%) had either additional fractures or an increase in the Young and Burgess grade of fracture diagnosed on CT scan. Group II consisted of 375 patients, with 16 fractures noted in 13 (3%) patients, none of which required treatment. The mean ISS of group II was 8.0 +/- 0.5. CONCLUSION: The PXR has limited sensitivity for detecting pelvic fractures compared with CT scanning. Selected hemodynamically stable patients who undergo CT scanning during their immediate resuscitation do not need a routine PXR. The PXR may continue to be beneficial in unstable patients, those with positive physical findings, or those who cannot undergo CT scanning because of other clinical priorities.     

Early functional outcome in children with pelvic fractures

BACKGROUND/PURPOSE: Although the mortality, morbidity, and spectrum of associated injuries in children with pelvic fractures have been extensively studied, little is known about the functional outcomes in these patients. The authors examined retrospectively functional independence measurement (FIM) at discharge in children with pelvic fractures to determine how it should influence their management protocol. METHODS: The authors reviewed the records of all patients who sustained pelvic fractures between 1993 and 1998 in the trauma registry of a level I pediatric trauma center. Patients were stratified according to demographics, type of pelvic fracture, functional independence measurement, and discharge disposition. Fractures graded 1, 2, or 3 were defined as stable, whereas grade 4 fractures were deemed unstable. RESULTS: A total of 88 children sustained pelvic fractures. Seventy-four percent had stable fractures, whereas 26% sustained unstable fractures. There was no difference in age or sex between the groups; boys were more commonly injured than girls. Motor vehicle-related crashes accounted for most injuries. The mean injury severity score (ISS) for patients with a stable fracture was 17 +/- 14 and 20 +/- 13 for unstable fractures. There was no difference in overall hospitalization nor intensive care unit stay between the unstable and stable fracture patients. Eighty percent of the patients with unstable and 52% of the patients with stable pelvic fractures were dependent based on locomotion, and similar proportions were seen for the transfer category. CONCLUSIONS: Short-term function appears to be significantly impaired in a high percentage of children with stable and unstable pelvic fractures. Therefore, aggressive rehabilitation should be instituted early in all children with pelvic fractures to achieve optimal functional outcome.     

Common and external iliac artery injuries associated with pelvic fractures.

BACKGROUND: Common and external iliac artery injuries associated with pelvic fractures are uncommon. The diagnosis of such injuries is based on clinical findings and confirmed by arteriography. DESIGN: Retrospective chart review. SETTING: University Level I trauma center. PATIENTS: Five men and three women, aged seventeen to seventy-six years, with injuries to the common and external iliac arteries associated with pelvic fractures. RESULTS: All patients sustained complex pelvic fractures associated with multiple blunt injuries. Five injuries occurred on the right side. Two patients had an associated right vertical shear pelvic fracture. In five patients, vascular injury was diagnosed in the first six hours after admission. One patient presented with an aneurysm of the right common iliac artery two months after his initial injury. All patients underwent surgical repair with an interposition graft, which failed in two patients, who underwent vascular reconstruction ten hours after the injury. One patient died of associated injuries. CONCLUSIONS: Arterial hyperextension with intimal damage seems to be the most likely cause of this injury. Ideally, an extraperitoneal approach should be attempted to minimize blood losses and, due to the size of the iliac vessels, an interposition graft should be used for reconstruction.     

Is computed tomography cystography indicated in children with pelvic fractures?

Purpose: Pelvic fracture evaluation with abdominopelvic computed tomography (CT) and formal CT cystography for rule out of urine bladder injury have been commonly employed in pediatric trauma patients. The additional delayed imaging required to obtain optimal CT cystography is, however, associated with increased doses of ionizing radiation to pelvic organs and represent a significant risk in the pediatric population for future carcinogenic risk. We hypothesized that avoidance of routine CT cystography among pediatric pelvic fracture victims would not result in an appreciable rate of missed bladder injuries and would aid in mitigating the radiation exposure risk associated with these additional images. Methods: A retrospective cohort study involving blunt trauma pelvic fractures among pediatric trauma patients (age<14) between the years 1997 and 2016 was conducted utilizing the Israeli National Trauma Registry. Statistical analysis was performed using SAS statistical software version 9.4 via the tests of Chisquare test and two-sided Fisher''s exact test. A p value of less than 0.05 was considered statistically significant. Results: A total of 1072 children were identified from the registry for inclusion. Mean age of patients was 7.7 years (range 0-14) and 713 (66.5%) were male. Overall mortality in this population was 4.1% (44/1072). Only 2.1% (23) of pediatric patients with pelvic fractures had bladder injury identified, with just 9 children having intraperitoneal bladder rupture (0.8% of all the patients). Conclusion: The vast majority of blunt pediatric trauma victims with pelvic fractures do not have urine bladder injuries. Based on our study results we do not recommend the routine utilization of CT cystography in this unique population.     

Pelvic fractures: epidemiology and predictors of associated abdominal injuries and outcomes

BACKGROUND: Pelvic fractures are often associated with major intraabdominal injuries or severe bleeding from the fracture site. OBJECTIVE: To study the epidemiology of pelvic fractures and identify important risk factors for associated abdominal injuries, bleeding, need for angiographic embolization, and death. METHODS: Trauma registry study on pelvic fractures from blunt trauma. Stepwise logistic regression was used to identify risk factors of severe pelvic fractures, associated abdominal injuries, need for major blood transfusion, therapeutic embolization, and death from pelvic fracture. Adjusted relative risks and 95% confidence intervals were derived. RESULTS: There were 16,630 trauma registry patients with blunt trauma, of whom 1,545 (9.3%) had a pelvic fracture. The incidence of abdominal injuries was 16.5%, and the most common injured organs were the liver (6.1%) and the bladder and urethra (5.8%). In severe pelvic fractures (Abbreviated Injury Scale [AIS] > or =4), the incidence of associated intraabdominal injuries was 30.7%, and the most commonly injured organs were the bladder and urethra (14.6%). Among the risk factors studied, motor vehicle crash is the only notable risk factor negatively associated with severe pelvic fracture. Major risk factors for associated liver injury were motor vehicle crash and pelvis AIS > or = 4. Risk factors of major blood loss were age > 16 years, pelvic AIS > or =4, angiographic embolization, and Injury Severity Score (ISS) > 25. Age> 55 years was the only predictor for associated aortic injury. Factors associated with therapeutic angiographic embolization were pelvic AIS > or =4 and ISS > 25. The overall mortality was 13.5%, but only 0.8% died as a direct result of pelvic fracture. The only pronounced risk factor associated with mortality was ISS>25. CONCLUSIONS: Some epidemiological variables are important risk factors of severity of pelvic fractures, presence of associated abdominal injuries, blood loss, and need of angiography. These risk factors can help in selecting the most appropriate diagnostic and therapeutic interventions.