Urethral Injuries: Diagnostic and Management Strategies for Critical Care and Trauma Clinicians.

Urologic trauma is a well-known cause of urethral injury with a range of management recommendations. Retrograde urethrogram remains the preferred initial diagnostic modality to evaluate a suspected urethral injury. The management thereafter varies based on mechanism of injury. Iatrogenic urethral injury is often caused by traumatic catheterization and is best managed by an attempted catheterization performed by an experienced clinician or suprapubic catheter to maximize urinary drainage. Penetrating trauma, most commonly associated with gunshot wounds, can cause either an anterior and/or posterior urethral injury and is best treated with early operative repair. Blunt trauma, most commonly associated with straddle injuries and pelvic fractures, can be treated with either early primary endoscopic realignment or delayed urethroplasty after suprapubic cystostomy. With any of the above injury patterns and treatment options, a well thought out and regimented follow-up with a urologist is of utmost importance for accurate assessment of outcomes and appropriate management of complications.

Cerebrospinal Fluid Cultures in Traumatic Brain Injury: Is It Worth It? A Two-Center Study.

Background: Patients with traumatic brain injury (TBI) frequently develop leukocytosis, fever, and tachycardia that may lead to extensive medical investigations to rule out an infectious process. Cerebrospinal fluid (CSF) is often acquired during this workup, however, the utility of this practice has not been studied previously. We hypothesized that CSF cultures would unlikely yield positive results in patients with TBI. Patients and Methods: A retrospective review was conducted of all patients with TBI admitted to two level 1 trauma centers at urban, academic institutions from January 2009 to December 2016. Data collected included patient demographics, presenting Glasgow Coma Score (GCS), injury profile, injury severity scores (ISS), regional abbreviated injury scale (AIS), hospital and intensive care unit (ICU) length of stay (LOS), ventilator days, and culture results. For purposes of the analysis, CSF cultures with Staphylococcus epidermidis, Staphylococcus aureus, or Candida underwent a chart review and were considered contaminates if indicated. Results: There were 145 patients who had CSF cultures obtained with a median age of 39 years; 77.2% were male. The majority of patients presented after blunt trauma with median GCS of 6, head AIS of 4, and ISS of 25. These patients had prolonged median ICU and hospital stays at 13 and 22 days, respectively. Six (4.1%) CSF cultures demonstrated growth. Four (2.8%) were deemed contaminants, with two growing Staphylococcus epidermidis only, one with both Staphylococcus epidermidis and Staphylococcus aureus, and one with Candida. Two cultures (1.4%) were positive and grew Enterobacter cloacae. Of note, both patients had prior instrumentation with an external ventricular drain. Conclusion: Obtaining CSF cultures in patients with TBI is of low yield, especially in patients without prior external ventricular drain. Other sources of infectious etiologies should be considered in this patient population.

Incidence and Risk Factors for Acute Kidney Injury in Severely Injured Patients Using Current Kidney Disease: Improving Global Outcomes Definitions.

BACKGROUND: Acute kidney injury (AKI) is a significant cause of morbidity and mortality for critically injured trauma patients. The Kidney Disease: Improving Global Outcomes (KDIGO) practice guideline is the most up-to-date classification for AKI. The aims of this study were to determine the incidence and risk factors for AKI in critically injured trauma patients using the current KDIGO definitions. STUDY DESIGN: A prospective cohort study was performed at our academic, level 1 trauma center, from September 2017 to August 2018. All adult trauma patients admitted to the surgical ICU were included. The primary outcome was the development of AKI, as defined by KDIGO. Secondary outcomes included hospital and ICU length of stay, ventilator days, and mortality. RESULTS: There were 466 patients included and 314 (67%) developed AKI. Those who developed AKI were more often hypotensive on admission (7% vs 2%), had higher Injury Severity Scores (ISS) (19 vs 13), were more likely to have severe injuries to the chest (40% vs 24%) and extremities (20% vs 6%), received transfusion (41% vs 21%), sustained crush injuries (8% vs 1%), received radiocontrast (75% vs 47%), nephrotoxic medication (74% vs 60%), or vasopressors (15% vs 3%). After multivariate analysis, risk factors independently associated with AKI include age, Injury Severity Score (ISS), severe extremity injuries, radiocontrast, and vasopressors. Those who developed AKI had higher mortality (9% vs 2%). CONCLUSIONS: Using current KDIGO criteria, the incidence of AKI in critically injured trauma patients was higher than previously reported. Older patients, with more severe injuries to their extremities and chest and who have suffered crush injuries, appear to be the most a risk. AKI in the critically injured patient results in an almost 5-fold increase in mortality.

End-tidal carbon dioxide underestimates plasma carbon dioxide during emergent trauma laparotomy leading to hypoventilation and misguided resuscitation: A Western Trauma Association Multicenter Study.

BACKGROUND: End-tidal carbon dioxide (ETCO2) is routinely used during elective surgery to monitor ventilation. The role of ETCO2 monitoring in emergent trauma operations is poorly understood. We hypothesized that ETCO2 values underestimate plasma carbon dioxide (pCO2) values during resuscitation for hemorrhagic shock. METHODS: Multicenter trial was performed analyzing the correlation between ETCO2 and pCO2 levels. RESULTS: Two hundred fifty-six patients resulted in 587 matched pairs of ETCO2 and pCO2. Correlation between these two values was very poor with an R of 0.04. 40.2% of patients presented to the operating room acidotic and hypercarbic with a pH less than 7.30 and a pCO2 greater than 45 mm Hg. Correlation was worse in patients that were either acidotic or hypercarbic. Forty-five percent of patients have a difference greater than 10 mm Hg between ETCO2 and pCO2. A pH less than 7.30 was predictive of an ETCO2 to pCO2 difference greater than 10 mm Hg. A difference greater than 10 mm Hg was predictive of mortality independent of confounders. CONCLUSION: Nearly one half (45%) of patients were found to have an ETCO2 level greater than 10 mm Hg discordant from their PCO2 level. Reliance on the discordant values may have contributed to the 40% of patients in the operating room that were both acidotic and hypercarbic. Early blood gas analysis is warranted, and a lower early goal of ETCO2 should be considered. LEVEL OF EVIDENCE: Therapeutic, level IV.

Learning curve and early clinical outcomes for a robotic surgery novice performing robotic single site cholecystectomy.

BACKGROUND: A rapid training protocol has been developed for robotic surgery novices to learn robotic single-incision techniques. This study assesses the learning curve and early clinical results for a robotic surgery novice starting single-site cholecystectomy. METHODS: A chart review was performed on the surgeon's first 55 patients to undergo this procedure. RESULTS: Average patient age was 46.01 ± 4.25 (range 21-86) years and BMI was 26.57 ± 4.25 (range 19.4-36.6) kg/m(2) . The mean port placement with docking time was 11.34 ± 3.74 (range 7-23) min. Mean console time was 28.74 ± 11.04 (range 15-66) min. Average total OR time was 61.84 ± 14.66 (range 40-105) min. All procedures were successfully completed without conversion or added ports. Complications included several minor procedural gall bladder perforations and miscellaneous postoperative symptomatic complaints. CONCLUSION: Robotic single site cholecystectomy can be safely performed by a robotic novice within a minimal learning curve and have early clinical results that are comparable to the published data of robotic experts.