Figure 2.6 Forty‐four‐year‐old male who sustained a GSW with a grade III left renal laceration. While undergoing exploratory laparotomy for multiple abdominal organ injuries, the urology service was consulted for management of his renal injury. (a) Pre‐operative CT scan demonstrated a left grade III renal injury without collecting system injury (delayed imaging not shown). (b) Intra‐operative photo showing the anterior‐medial renal laceration. (c) This was repaired by renorrhaphy. Final appearance shows interrupted 4‐0Vicryl sutures over a Gelfoam® bolster.
Source: photo courtesy of Alexander Skokan, MD, University of Washington.
Indications for nephrectomy include an unreconstructable kidney, significant vascular injury, or an unstable patient who cannot tolerate an attempted repair. In the civilian trauma literature, the nephrectomy rate for PRI ranges from 19 to 31% [8, 41, 42].
For the recent military conflicts in the Middle East, renal trauma comprised 29.6% of the GU injuries, with a 65.5% nephrectomy rate [13, 43]. These rates are much higher than civilian penetrating trauma and seem dissonant with the protective effects of body armor. These high nephrectomy rates are driven by two variables unique to expeditionary medicine: (i) high kinetic energy weapons, such as assault rifles and improvised explosive devices which rendered the majority of the kidneys unreconstructable; and (ii) the unique logistical limitations of battlefield to intercontinental evacuation. The combat damage control paradigm involves up to 10 stages to allow for battlefield evacuation, multiple surgeries and resuscitations, and intercontinental transport, which may contribute to higher nephrectomy rates independent of the mechanistic differences of the PRI [44]. Furthermore, expeditionary surgical teams do not have the same access to resources such as blood products and intensivists. These factors contribute to more aggressive measures to gain definitive hemodynamic stability, even in light of damage control principles.
Complications
Persistent urinary extravasation can lead to urinoma and perinephric abscesses. These can be managed using maximal drainage with the placement of an internal ureteral stent and percutaneous drainage of the abscess or urinoma. Stents are usually left for six weeks with at least seven days of Foley catheter drainage to prevent reflux of urine during voiding [45].
Delayed renal bleeding can occur in up to 23.5% of patients who undergo NOM [46]. This usually occurs within the first seven days after injury and the majority of these cases can be managed by angiography with embolization. Renin‐mediated hypertension (Page kidney) from chronic ischemia or compressive hematoma is rare.
Conclusion
During his analysis of GU trauma during World War II, Army urologist and veteran James Kimbrough stated that “conservative treatment has proved sufficient in renal damage [47].” Indeed, the management pendulum of penetrating renal trauma seems to be returning to what was discovered during the two World Wars. Urologists must be prepared with a treatment algorithm should patients fail NOM or have complications, including renorrhaphy and nephrectomy.
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