Of patients with blunt trauma that are managed non‐operatively, some will ultimately require intervention. One series evaluated 154 patients (74.8%) with grade IV and V blunt renal trauma, who were initially managed non‐operatively, with a non‐operative management failure rate of 7.8% [62]. The vast majority of the patients who failed non‐operative management did so because of their kidney injury and none of these patients had complications as a result of delayed operative management. The mean time to failure was just over 24 hours and the majority (83.3%) failed due to hemodynamic instability. Independent predictors based on multivariate analysis found that those who were older than 55 years of age or who were injured as a result of a motor vehicle collision were more likely to fail non‐operative management.
Patients with a devitalized parenchymal segment were more likely to require delayed surgical intervention in a series of grade IV and V blunt renal injuries [46]. Of 40 patients with grade III–V blunt renal injury initially managed non‐operatively, the risk of delayed nephrectomy in three was associated with grade IV injuries and secondary hemorrhage which necessitated intervention [8].
Management of Renal Trauma in Children
Many studies have evaluated management of renal trauma in children, with the consensus being that most cases of pediatric renal trauma can be safely managed non‐operatively [63–67]. Rates of delayed intervention vary from very low to as high as 30–40% [64,68–70]. In one series of 16 patients managed non‐operatively, 44% required intervention with a mean time to intervention of 11 days; collecting system clot and larger urinoma were significant predictors of failure of non‐operative management [70]. Consistent with findings in adults, another group found that medial contrast extravasation among grade IV renal injuries was a significant predictor of failure of non‐operative management [71].
Given the lack of age specific guidelines, pediatric blunt renal trauma guidelines were established recently by the Eastern Association for Surgery of Trauma and Pediatric Trauma society [72]. These guidelines advocate for nonoperative management in high‐grade trauma sustained by hemodynamically stable patients based on synthesis of evidence. For those undergoing intervention, angioembolization is highly recommended. Finally, routine blood pressure monitoring is recommended after injury.
Operative Technique
Absolute criteria for renal exploration include life‐threatening hemorrhage with hemodynamic instability, renal pedicle avulsion, and expanding, pulsatile, or uncontained retroperitoneal hematoma [25]. Renal exploration and repair in the acute injury setting is accomplished through a midline abdominal incision. While prior literature supported early vascular control, more recent literature is inconclusive on this approach [73-77]. Surgical exploration often results in nephrectomy [4]. The renal vessels can be isolated before Gerota's fascia is opened in order be able to rapidly occlude hilar vessels if significant bleeding is encountered; some advocate that this technique may lead to a lower rate of nephrectomy, whereas other data have shown no difference in nephrectomy rate, transfusion requirements, or blood loss with potential for increased operative time [76, 77]. If early vascular control is desired, an incision can be made in the mesentery medial to the inferior mesenteric vein and extended to the ligament of Treitz in order to expose the aorta [78] (Figure 1.4). The left renal vein will be visualized first as it passes anterior to the aorta and the renal arteries can then be identified posterior to the left renal vein, and the right renal vein will be identified anterior to the right renal artery. Once the hilar vessels have been isolated, the colon can then be reflected medially by incising the peritoneum lateral to the colon and exposing Gerota's fascia. The kidney can then be fully exposed in order to identify any injuries. The other approach to the renal hilum involves initial reflection of the colon and its mesentery, keeping out of Gerota's fascia, followed by isolation of the renal hilum for early vascular control, and renorrhaphy, partial nephrectomy, or nephrectomy.
Figure 1.4 Surgical approach to renal vessels and hilum. (a) Relationship between the aorta, posterior peritoneum, and inferior mesenteric vein. (b) Window in posterior peritoneum made between aorta and inferior mesenteric vein demonstrating each renal artery and vein. (c) After vascular exposure and isolation, exploration of Gerota fascia obtained by incising the peritoneum lateral to the descending colon (for a left‐sided injury).
Source: from Campbell‐Walsh, 10th Edition, with permission [39].
Repair of the kidney depends on the injuries present, and should involve debridement of nonviable tissue, suture ligation of individual bleeding vessels to obtain hemostasis, watertight closure of any collecting system defects, and closure or re‐approximation of the parenchymal defect when possible. If parenchymal closure is difficult, techniques such as thrombin‐soaked Gelfoam bolsters or omental interposition or pedicle flap may be helpful.
In terms of renovascular injuries, segmental arterial and venous injuries can be managed with suture ligation, realizing that ligation of segmental arteries will result in ischemia to the corresponding renal parenchyma. Repair of the main renal artery and vein should be attempted when safe with 4‐0 or 5‐0 prolene suture; however, many injuries of the main hilar vessels will result in nephrectomy (Figure 1.5).
Figure 1.5 Surgical management of vascular injuries. (a) Schematic showing injury to different portions of the renal vein. Injuries are repaired (b) or divided (c), depending on location and size.
Source: from Campbell‐Walsh, 10th Edition, with permission [39].
Issues in Operative Technique for Blunt Trauma
Renal trauma may be incompletely staged and this can be an important determinant for renal exploration. If exploration occurs before complete staging has been accomplished, a one‐shot IVP or retrograde pyelograms can be performed in the operating room (see above), or the kidney and/or ureters can be directly inspected during an abdominal exploration [79].
In cases of renal trauma, it is important to have familiarity with damage control maneuvers. It is particularly important in patients who do not have life‐threatening renal injury. In cases of uncontrolled bleeding, vascular control is paramount. Renal pedicle access by blunt dissection over psoas fascia allows for application of a large vascular clamp. Once this is done, then the kidney can be evaluated and nephron sparing techniques can be applied. Another consideration is in cases where the patient is unstable for kidney exploration and repair in the setting of active bleeding. In this case, packing the renal fossa with delated intervention is an alternative to nephrectomy. This would allow for appropriate staging in patients who were initially unstable for imaging. This staging may allow for the patient to have non‐operative management and/or angioembolization.
Complications and Follow‐Up
Complications after renal