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Case 34: Renal Lymphangiectasia¹

¹ From Bass Baptist Memorial Hospital, 600 S Monroe, Enid, OK 73701. Received May 28, 1999; revision requested July 20; revision received August 26; accepted August 30. Address correspondence to the author (e-mail: lramseyer@peakonline.com).

Index terms: Diagnosis Please • Kidney, CT, 81.12112 • Lymphatic system, abnormalities, 994.829 • Lymphatic system, CT, 994.12912 • Urography, 81.11

	HISTORY

TOP HISTORY IMAGING FINDINGS DISCUSSION REFERENCES

 
A 28-year-old obese man had microscopic hematuria. Physical examination results were normal. His medical history was unremarkable, and there was no pertinent family history. Excretory urography (Fig 1) and computed tomography (CT) of the abdomen (Fig 2) were performed after oral and intravenous administration of contrast material.

View larger version (136K): [in this window] [in a new window] [Download PPT slide]   Figure 1. Anteroposterior abdominal excretory urogram shows bilateral nephromegaly (arrows) with distortion of the pelvocaliceal systems.

View larger version (150K): [in this window] [in a new window] [Download PPT slide]   Figure 2a. Sequential transverse contrast material-enhanced abdominal CT images (window width, 350 HU; window level, 0 HU) demonstrate bilateral perirenal fluid collections (large white arrows), peripelvic fluid collections (small white arrows), and retroperitoneal fluid collection (black arrow). Attenuation measurements consistent with fluid are shown in b.

View larger version (183K): [in this window] [in a new window] [Download PPT slide]   Figure 2b. Sequential transverse contrast material-enhanced abdominal CT images (window width, 350 HU; window level, 0 HU) demonstrate bilateral perirenal fluid collections (large white arrows), peripelvic fluid collections (small white arrows), and retroperitoneal fluid collection (black arrow). Attenuation measurements consistent with fluid are shown in b.

View larger version (154K): [in this window] [in a new window] [Download PPT slide]   Figure 2c. Sequential transverse contrast material-enhanced abdominal CT images (window width, 350 HU; window level, 0 HU) demonstrate bilateral perirenal fluid collections (large white arrows), peripelvic fluid collections (small white arrows), and retroperitoneal fluid collection (black arrow). Attenuation measurements consistent with fluid are shown in b.

	IMAGING FINDINGS

TOP HISTORY IMAGING FINDINGS DISCUSSION REFERENCES

	DISCUSSION

TOP HISTORY IMAGING FINDINGS DISCUSSION REFERENCES

 
Several differential diagnostic possibilities are to be considered with bilateral nephromegaly with pelvocaliceal splaying and distortion. Adult polycystic kidney disease, lymphoma, nephroblastomatosis, and other causes of multiple renal masses, such as von Hippel-Lindau disease and tuberous sclerosis, are considerations. Adult polycystic kidney disease has characteristic findings of numerous bilateral renal cysts, with or without hepatic or pancreatic cysts. The cysts typically vary in size and are scattered throughout the parenchyma. Lymphoma and other malignancies can demonstrate soft-tissue masses involving the kidneys, pelvocaliceal systems, or retroperitoneum. The fluid attenuation of the perinephric collections in the test case, as evidenced by attenuation measurements of 0–10 HU in Figure 2c, exclude lymphoma and other soft-tissue masses. Perinephric and retroperitoneal soft-tissue masses can be seen in retroperitoneal fibrosis but are again excluded by the fluid attenuation in the test case. Nephroblastomatosis is a cause of nephromegaly in children and is characterized by multiple subcapsular and parenchymal soft-tissue nodules composed of metanephric blastema (1).

Renal lymphangiectasia is a rare disorder. Patient symptoms described in the literature (2–4) include hematuria, flank pain, and abdominal pain. The condition has been found in children and in adults (2,4–7). The origin of this disorder is speculative. There is a familial association in some cases, which argues for a congenital cause (6). There was no known family history of renal lymphangiectasia in the test case. Others argue for an acquired cause, which suggests that the lymphatic vessels may become blocked owing to inflammation or other obstruction and so cause lymphatic ectasia (8). Others have suggested that these lesions may be a true neoplasm (9). The nomenclature of this disorder is confusing and has evolved in recent years. Other names have included "renal lymphangiomatosis" (3,6), "renal lymphangioma" (5), "peripelvic lymphangiectasia" (2), and "renal peripelvic multicystic lymphangiectasia" (8). "Renal lymphangiectasia" is the preferred name, given that the disorder is characterized by ectatic perirenal, peripelvic, and intrarenal lymphatic vessels (10,11).

Imaging findings of renal lymphangiectasia include peripelvic cysts and perirenal fluid collections. The finding of retroperitoneal fluid collections, presumably dilated lymphatic vessels, is a more variable finding but has been noted in multiple cases in the literature (2–4,6).

Renal lymphangiectasia has been found associated with renal venous thrombosis and hypertension (4,6,12). Ascites and large perinephric fluid collections have been found and are exacerbated by pregnancy (6). The natural history of this disorder is not completely understood. In a neonatal case, partial regression was reported (7).

The diagnosis of renal lymphangiectasia can be confirmed with needle aspiration of chylous fluid from the perinephric fluid collections (4). However, the ultrasonographic and CT findings are characteristic for this disease and allow the diagnosis to be made confidently (2,6). Treatment is not usually necessary. Complicated cases may be treated with nephrectomy, percutaneous drainage, or marsupialization (4).

In the case presented here, the diagnosis of renal lymphangiectasia was based on the characteristic CT findings. The perirenal, peripelvic, and retroperitoneal collections had attenuation measurements consistent with fluid (0–10 HU) rather than with the soft-tissue attenuation seen with lymphoma or other causes of bilateral renal soft-tissue masses (Fig 2c). No invasive procedures to confirm diagnosis were deemed appropriate for this patient.

Our congratulations to the 26 individuals who submitted the most likely diagnosis (renal lymphangiectasia) for Diagnosis Please, Case 34. The names and locations of the individuals, as submitted, are as follows

Marc P. Banner, Philadelphia, Pa

Lawrence R. Bigongiari, MD, Hope, Ark

Marc G. de Baets, MD, Lugano, Switzerland

Kemal Demir, MD, Ataköy, stanbul, Turkey

Giovanna Demurtas, MD, Cagliari, Italy

Luis E. Fajre, MD, Tucuman, Argentina

Sandra K. Fernbach, Chicago, Ill

Milton R. Fuentealba, MD, General Roca, Rio Negro, Argentina

Celso Ichihara, Brazil

Kartik Jhaveri, MD, Mumbai, India

Douglas S. Katz, MD, Mineola, NY

Glenn Krinsky, MD, New York, NY

Prof. Dr. Luis Mendez Uriburu, Tucuman, Argentina

Sergio J. Moguillansky, MD, Cipolletti, Rio Negro, Argentina

Adalberto Montanhini Júnior, Brazil

Steven Perlmutter, MD, Mineola, NY

Timothy J. Phalen, MD, Cincinnati, Ohio

Dr. Arturo Ramos-Pablos, Cd. Obregón, Son., México

Luiz Antonio Rossi, São Paulo, Brazil

Anthony J. Scuderi, MD, Johnstown, Pa

Matt Shapiro, MD, Lowell, Mass

Paolo Siotto, MD, Cagliari, Italy

Douglas L. Teich, MD, Brookline, Mass

Christopher Vittore, MD, Rockford, Ill

Keith Wittenberg, MD, Rochester, Minn

Joe Yut, Olathe, Kan

	FOOTNOTES

 
Part 1 of this case appeared 4 months previously and may contain larger images.

	REFERENCES

TOP HISTORY IMAGING FINDINGS DISCUSSION REFERENCES

 

1. Amis ES, Newhouse JH. The kidney: tumors. Essentials of uroradiology Boston, Mass: Little, Brown, 1991; 136.
2. Murray KK, McLellan GL. Renal peripelvic lymphangiectasia: appearance at CT. Radiology 1991; 180:455-456.[Abstract/Free Full Text]
3. Varela JR, Bargiela A, Requejo I, Fernandez R, Darriba M, Pombo F. Bilateral renal lymphangiomatosis: US and CT findings. Eur Radiol 1998; 8:230-231.[Medline]
4. Riehl J, Schmitt H, Schafer L, Schneider B, Sieberth HG. Retroperitoneal lymphangiectasia associated with bilateral renal vein thrombosis. Nephrol Dial Transplant 1997; 12:1701-1703.[Abstract/Free Full Text]
5. Blumhagen JD, Wood BJ, Rosenbaum DM. Sonographic evaluation of abdominal lymphangiomas in children. J Ultrasound Med 1987; 6:487-495.[Abstract]
6. Meredith WT, Levine E, Ahlstom NG, Grantham JJ. Exacerbation of familial renal lymphangiomatosis during pregnancy. AJR Am J Roentgenol 1988; 151:965-966.[Free Full Text]
7. Pickering SP, Fletcher BD, Bryan PJ, Abramowsky CR. Renal lymphangioma: a cause of neonatal nephromegaly. Pediatr Radiol 1984; 14:445-448.[Medline]
8. Kutcher R, Mahadevia P, Nussbaum MK, Rosenblatt R, Freed S. Renal peripelvic multicystic lymphangiectasia. Urology 1987; 30:177-179.[Medline]
9. Leonidas JC, Brill PW, Bhan I, et al. Cystic retroperitoneal lymphangioma in infants and children. Radiology 1978; 127:203-208.[Abstract]
10. Levine E. Renal lymphangiectasia (letter). Radiology 1992; 182:582.[Free Full Text]
11. Levine E. The kidney. In: Haaga JR, Lanzieri CF, Sartoris DJ, Zerhouni EA, eds. Computed tomography and magnetic resonance imaging of the whole body. 3rd ed. St Louis, Mo: Mosby, 1994; 1199.
12. Lindsey JR. Lymphangiectasia simulating polycystic disease. J Urol 1970; 104:658-662.[Medline]

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