Spontaneous Retroperitoneal Hemorrhage Caused by Segmental Arterial Mediolysis

Case Review

CASE REVIEW Spontaneous Retroperitoneal Hemorrhage Caused by Segmental Arterial Mediolysis Courtney K. Phillips, MD, Herbert Lepor, MD Department of Urology, New York University School of Medicine, New York, NY Spontaneous retroperitoneal hemorrhage is a rare clinical entity; signs and symptoms include pain, hematuria, and shock. Spontaneous retroperitoneal hemorrhage can be caused by tumors, such as renal cell carcinoma and angiomyolipoma; polyarteritis nodosa; and nephritis. The least common cause is segmental arterial mediolysis. Although computed tomography is used for the diagnosis of spontaneous retroperitoneal hemorrhage, it can miss segmental arterial mediolysis as the cause of the hemorrhage. The diagnosis of segmental arterial mediolysis as a cause of spontaneous retroperitoneal hemorrhage requires angiography, with pathologic confirmation for a definitive diagnosis. [Rev Urol. 2006;8(1):36-40] © 2006 MedReviews, LLC Key words: Retroperitoneal hemorrhage • Segmental arterial mediolysis • Case report 32-year-old Hispanic G7P5116 woman with a history of 2 uncomplicated urinary tract infections (UTIs), hepatitis C, sickle cell trait, heart murmur, bilateral asymptomatic renal calculi, asthma, easy bruising, placental abruption, and heavy menstruation presented to the emergency department with a temperature of 103°F and irritative voiding symptoms. Results of urinalysis were positive, and she was presumptively diagnosed with a UTI and discharged A 36 VOL. 8 NO. 1 2006 REVIEWS IN UROLOGY Spontaneous Retroperitoneal Hemorrhage home with a prescription for oral levofloxacin. The patient returned 2 days later with persistent left flank pain and nausea. A non–contrastenhanced computed tomography (CT) scan revealed small, bilateral, nonobstructing calculi without hydronephrosis or masses. The patient was discharged home with a prescription for oral ciprofloxacin. On the day of admission, the patient presented with increasing left flank pain and abdominal distention. She denied hematuria, irritative voiding symptoms, fever, mouth sores, rash, arthralgias, myalgias, melena, bright red blood per rectum, headaches, neurologic symptoms, or weight loss. She had no history of trauma. Her parents are consanguineous. She had no known allergies and was taking no medications at the time of admission. On physical examination, the patient was afebrile, her blood pressure was 126/80 mm Hg, and her vital signs were stable. She demonstrated left costovertebral angle tenderness and left upper and lower quadrant abdominal tenderness with minimal distention. Results of a basic metabolic panel, coagulation studies, and complete blood cell count were all normal; hematocrit was 39.8. The following morning the patient had a slight increase in abdominal distention. A CT revealed a 6-cm left perinephric hematoma without evidence of renal mass (Figure 1). A repeat hematocrit was 20.6, and the patient was transferred to the intensive care unit with a blood pressure of 189/85 mm Hg. She received a transfusion of 3 units of packed red blood cells (PRBCs) and was sent for angiography, which revealed no active bleeding but did show multiple small microaneurysms in the periphery of the kidney consistent with polyarteritis nodosa (Figure 2), for which the patient was given steroids. Figure 1. CT scan, obtained the day after admission because the patient’s abdomen became distended, revealed a large left perinephric hematoma. Laboratory tests confirmed that the patient was sickle screen positive, but her erythrocyte sedimentation rate, coagulation studies, platelet function, complement studies, and rheumatoid factor were all within normal limits. The patient remained hemodynamically stable but continued to require blood products and diltiazem hydrochloride (Cardizem; Biovail Corporation, Mississauga, Ontario, Canada) to control her blood pressure. A repeat angiography on hospital day 3 revealed resolution of the microaneurysms and replacement with several blind-ending Figure 2. Initial angiography failed to demonstrate any active bleeding, but several microaneurysms were seen in the peripheral regions of the renal cortex. These aneurysms are usually suggestive of polyarteritis nodosa. Figure 3. Repeat angiography performed 2 days after the initial one showed that the patient’s microaneurysms had been replaced by several blind-ending vessels. The patient’s right kidney and celiac axis were normal (not shown). vessels in the left kidney (Figure 3). The patient’s right kidney and celiac axis were normal. By hospital day 5, the patient had received 10 units of PRBCs, 4 units of fresh frozen plasma, and 5 units of platelets. A repeat CT scan showed an increase in the size of the left perinephric hematoma from 6 to 10.25 cm with extension into the pelvis, free blood in the peritoneum, a lateral infarct of the left kidney, and large, bilateral pleural effusions (Figure 4). The patient was taken to the operating room, where a partial Figure 4. Repeat CT scan obtained 4 days after the patient’s initial CT showed that the perinephric hematoma had increased from 6 to 10.25 cm and extended into the pelvis. Additional cuts revealed free blood in the peritoneum and a lateral infarct of the left kidney. VOL. 8 NO. 1 2006 REVIEWS IN UROLOGY 37 Spontaneous Retroperitoneal Hemorrhage continued A B C D Figure 5. Pathology of the patient’s kidney revealed segmental arterial mediolysis, which is characterized by patchy, non-circumferential loss of the media (A) and the external elastic lamina (B). Weakening of the media is exacerbated by focal vacuolization of this layer (C). Inflammation has been described in this condition sporadically and was seen in this patient (D). nephrectomy was attempted. Despite control of the renal vasculature, uncontrolled renal hemorrhage occurred, and a left nephrectomy with evacuation of the hematoma was performed. Intraoperatively she received 7 units of PRBCs, 4 units of fresh frozen plasma, 25 units of cryoprecipitate, and 15 units of platelets. The patient’s recovery was uneventful and she was discharged on postoperative day 3. Pathologic studies of the patient’s kidney revealed patchy loss of the internal elastic lamina and medial smooth muscle of the interlobular arteries distal to the termination of the arcuate arteries (Figure 5). There was no evidence of neoplasm or infection. No other significant vascular abnormality was noted. The vascular changes were consistent with segmental arterial mediolysis (SAM). orrhage (SRH) and spontaneous subcapsular hematoma, was first described in 1700 by Bonet and was more completely explained by Wunderlich in 1856.1 Although SRH is commonly associated with Lenk’s triad (acute flank pain, symptoms of internal bleeding, and tenderness to palpation), the most common signs and symptoms described are abdominal pain (67%), hematuria (40%), and shock (26.5%).2-4 SRH is a rare complication of several entities (Table 1). Tumors, particularly renal cell carcinoma and angiomyolipoma, are the most common cause of SRH, occurring in 57% to 73% of cases.3,4 The overall prevalence of SRH as a complication of tumors, however, is low. In renal cell carcinoma, it occurs in only 0.3% to 1.4% of cases,5-7 although the incidence is much higher in angiomyolipoma, occurring in 13% to 100% of cases, depending on tumor size.8-10 Adrenal myelolipoma, pheochromocytoma, and adrenal hemangiomas have also been reported to cause SRH. Polyarteritis nodosa and nonneoplastic renal pathology such as nephritis are also common causes of SRH, with less common causes including Behçet disease, renal artery aneurysm rupture, cystic medial necrosis, blood dyscrasias, and arteriovenous malformations.1,3,11-23 Table 1 Causes of Spontaneous Retroperitoneal Hemorrhage Vascular Adrenal Tumors • Abdominal aortic aneurysm rupture • Myelolipoma • Renal artery rupture • Pheochromocytoma • Arteriovenous malformation • Hemangioma • Cystic medial necrosis Non-neoplastic Renal Pathology • Segmental arterial mediolysis • Nephritis Rheumatologic • Cystic rupture • Polyarteritis nodosa • Renal calculi • Behçet syndrome • Renal infarct Renal Tumors Coagulopathy • Renal cell carcinoma Infectious Disease Discussion • Angiomyolipoma • Renal tuberculosis Wunderlich syndrome, also known as spontaneous retroperitoneal hem- • Transitional cell carcinoma • Renal cortical abscess 38 VOL. 8 NO. 1 2006 REVIEWS IN UROLOGY Spontaneous Retroperitoneal Hemorrhage One of the least common causes of SRH is SAM. First named segmental mediolytic arteritis by Slavin and Gonzalez-Vitale in 1979, SAM was found in 3 separate cases of hemorrhage, 2 of which involved a retroperitoneal component. The pathologic ulations of patients. A 1949 report by Gruenwald28 and a 1979 paper by de Sa29 both describe several cases of necrosis in the coronary arteries of newborns consistent with SAM. Additionally, fewer than 10 more cases of SAM have been described in 2. 3. 4. 5. Although spontaneous retroperitoneal hemorrhage continues to be a rare clinical entity, its presence can be the indicator of a diverse set of pathologic conditions. progression, which affected branches of the celiac, superior mesenteric, and inferior mesenteric arteries, was not consistent with known vasculitides or cystic medial necrosis.24 Instead, it was characterized by focal vacuolization of the media and internal elastic lamina involving only portions of the the cerebral arteries of young adults after stroke.30 Although SRH continues to be a rare clinical entity, its presence can be the indicator of a diverse set of pathologic conditions. While CT is now the gold standard for the diagnosis of retroperitoneal hemorrhage, 6. 7. 8. 9. 10. 11. In the rare cases of spontaneous retroperitoneal hemorrhage due to segmental arterial mediolysis, angiography may provide clues to diagnosis. arterial circumference. Showing no predilection for vascular branch points as is found in other vasculitides, these lesions often had concomitant deposition of loose fibrous tissue, resulting in focal arterial weakening, aneurysm, dissecting hemorrhage, and rupture. Inflammation, eosinophilic infiltrates, and immunoglobulin complexes were not consistently found.25-27 Since the 1979 description, SAM has been identified in 3 discrete pop- several pathologic conditions may not be detected with CT and may require angiography.2,4,31,32 In the rare cases of SRH due to SAM, angiography may provide clues to diagnosis; however, pathologic examination remains the only definitive method of diagnosis.33 12. 13. 14. 15. 16. References 1. Polkey HJ, Vynalek WJ. Spontaneous nontraumatic perirenal and renal hematomas. Arch Surg. 1933;26:196. 17. Wolff JM, Jung PK, Adam G, Jakse G. Spontaneous retroperitoneal haemorrhage associated with renal disease. J R Coll Surg Edinb. 1998;43: 53-56. McDougal WS, Kursh ED, Persky L. 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Main Points • Spontaneous retroperitoneal hemorrhage can be caused by various pathologic conditions, including tumors or nephritis. • Although spontaneous retroperitoneal hemorrhage is commonly associated with Lenk’s triad (acute flank pain, symptoms of internal bleeding, and tenderness to palpation), common signs and symptoms include pain, hematuria, and shock. • Computed tomography can miss segmental arterial mediolysis as a cause of spontaneous retroperitoneal hemorrhage. • Angiography, with pathologic confirmation, facilitates the definitive diagnosis of segmental arterial mediolysis. VOL. 8 NO. 1 2006 REVIEWS IN UROLOGY 39 Spontaneous Retroperitoneal Hemorrhage continued 18. 19. 20. 21. 22. 23. 40 Bishoff JT, Waguespack RL, Lynch SC, et al. Bilateral symptomatic adrenal myelolipoma. J Urol. 1997;158:1517-1518. Trivedi R, Levy M, Ibrahim I, Bonacarti A. Spontaneous retroperitoneal hemorrhage from a ruptured hypernephroma. J Surg Oncol. 1979;11: 269-273. 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