Arterial Glomerulus at the Hilum of the Right Kidney and the Abnormal Course of the Right Testicular Artery: a Case Report

Arterial Glomerulus at the Hilum of the Right Kidney and the Abnormal Course of the Right Testicular Artery: a Case Report

CASE REPORT Arterial Glomerulus at the Hilum of the Right Kidney and the Abnormal Course of the Right Testicular Artery: A Case Report Badagabettu Satheesha Nayak1, Naveen Kumar1, Srinivasa Rao Sirasanagandla1, and Regunathan Deepthinath1 1 Department of Anatomy, Melaka Manipal Medical College (Manipal Campus), Manipal University, Manipal, India Received: 19 Feb. 2013; Accepted: 8 Jun. 2013 Abstract- Variations in the origin of arteries in the abdomen are very common. With the invention of new operative techniques within the abdomen cavity, the anatomy of abdominal vessels has assumed a great deal of clinical importance. We report here a rare case of formation of an “arterial glomerulus” at the hilum of the right kidney by the branches of right renal artery. There were 2 renal veins; a superficial and a deep. The deep vein had a peculiar course through the arterial glomerulus. The right testicular vein drained into the deep renal vein. We also observed a variant origin and course of right testicular artery. Prior knowledge of unusual branching pattern of renal vessels is necessary in the surgical interventions which require hilar dissection. Similarly, abnormal origin or course of testicular artery becomes apparent during surgical procedures like varicocele and undescended testes. Therefore, knowledge of such an anomaly in the testicular artery helps to avoid iatrogenic injuries during radiological or surgical procedures. © 2014 Tehran University of Medical Sciences. All rights reserved. Acta Medica Iranica, 2014;52(5):414-417. Keywords: Renal artery; Renal vein; Testicular artery; Varicocele; Arterial glomerulus Introduction the genitofemoral nerve (3). Variations involving abnormal branching pattern of renal artery with eventual The topographic arrangement of renal hilar structures alterations of structural organizations of renal hilum and is referred to in the antero-posterior sense as the renal variant origin and course of testicular artery are of vein-renal artery-renal pelvis (1). However, hilar clinical and surgical importance. structures often show variations both in terms of their position and / or branching pattern of renal vessels. Case Report Renal arteries are large arteries which arise from the lateral side of the abdominal aorta just below the level of During routing dissection classes for medical origin of superior mesenteric artery. On reaching the undergraduates, we observed variations of right renal hilum, the renal arteries usually divide into anterior and and gonadal vessels. The variations were noted in an posterior divisions. The posterior division of renal artery adult male cadaver approximately aged 60 years. The and posterior tributary of renal vein may generally enter right renal artery originated from the anterior surface of the kidney posterior to pelvis in some cases (2). The the abdominal aorta and coursed towards the right renal veins are the tributaries of the inferior vena cava. kidney. Close to the renal hilum, it branched into upper Usually each kidney drains into the inferior vena cava and lower divisions (Figures 1 and 2). The upper through one renal vein; however the number of renal division further divided into 4 branches. There were two veins terminating into the vena cava from each kidney renal veins; a superficial vein and a deep vein. The may vary. superficial vein received the right testicular vein and The testicular arteries (TA) are the anterolateral terminated into the lateral side of the inferior vena cava. branches of the abdominal aorta at the level of the L2 The deep vein passed through an arterial glomerulus vertebra and commonly originate about 2.5 to 5 cm formed by the branches of the right renal artery (Figures caudal to renal artery. Each artery runs downward and 1 and 2). It was looped around by two of the branches of laterally in front of the psoas major muscle, ureters and the renal artery (Figures 1 and 2). It had an oblique Corresponding Author: N. Kumar Department of Anatomy, Faculty of Melaka Manipal (Manipal Campus), Manipal University. Manipal, India Tel: +91 820 2922519, Fax: +91 820 2571905, E-mail address: [email protected] B. Satheesha Nayak, et al. downward course and it terminated by opening into the to the presence of more than one renal artery (5, 6). posterior surface of the inferior vena cava. The right TA Various studies have reported the abnormal branching took its origin from the anterior surface of the abdominal pattern of renal arteries including multiple renal arteries aorta, just below the origin of the renal artery. It ran with or without the presence of polar arteries. One such upwards parallel to the inferior suprarenal artery up to study by Kaneko et al., (7) reported 25% of incidences the right suprarenal gland and then gradually turned of multiple branches of renal arteries including polar down to pass in front of the renal hilum. It coursed down arteries. A rare vascular variation involving both the in close relation to the arterial glomerulus at the renal kidneys was reported recently by Naveen et al., (8), in hilum (Figure 2). which the renal arteries on both the kidneys divided into successive divisions before entering the hilum and one of the divisions of the left renal artery had an unusual arched course. Further, the anterior and posterior divisions of renal vein after emerging separately from the hilum of the kidney united to form a single trunk bilaterally. According to Bayramoglu et al. the variations in the number of renal arterial divisions in the hilar region are generally associated with renal malformations in the embryo (9). Renal veins also present significant variations in their number and final drainage. Baptista-Silva et al., (10) have reported anatomical variations of left renal vein in 92% of cases and presence of multiple renal veins in about 8-9% Figure 1. Dissection of the right renal hilar region (RK – right kidney; RA – right renal artery; SRV – superficial renal of cases. Presence of variant renal vein often traps in the vein; DRV – deep renal vein; RTA – right testicular artery; RTV – interpretation of abdominal imaging mainly in CT right testicular vein; IVC – inferior vena cava; AA – abdominal aorta) scanning or MRI (11). Bergman et al., (12) have stated that, variations of renal veins are comparatively lesser than the arteries. The authors have also reported that the presence of multiple renal veins is more common on the right side when compared to the left side. In many of these instances, the variations of renal artery and veins were mostly isolated but in the present case, the unique phenomenon of formation of arterial glomerulus and course of one of the renal vein through this glomerular pattern is exclusive and rarest of all. This kind of vascular pattern is worth noting in understanding urinary tract disorders and various nephron sparing surgical procedures. The deeper vein among the two right renal veins being reported here has double disadvantage; being looped around by the branches of the renal artery and opening into the Figure 2. Dissection of the right renal hilar region showing the arterial glomerulus formed by the branches of the right renal artery posterior surface of the inferior vena cava. Both these (AG – arterial glomerulus; RK – right kidney; RA – right renal artery; might hinder the normal blood flow in the vessel. SRV – cut end of the superficial renal vein; DRV – deep renal vein; RTA – right testicular artery; SRG – right suprarenal gland; IVC – Opening of the right testicular vein into the superficial inferior vena cava has been reflected down) renal vein in a perpendicular direction can be one of the predisposing factors for right sided varicocele. Surgical Discussion interventions which require hilar dissection need separate clamping of the vessels and renal pelvis which The abnormalities in the renal arteries are mainly due is preferred over en-bloc mass stapling of renal hilum. to the various developmental positions of the kidney (4). (13). Encountering of unusual vascular pattern as Insufficient degeneration of mesonephric arteries leads observed in the present case may cause difficulty during Acta Medica Iranica, Vol. 52, No. 5 (2014) 415 Arterial glomerulus at the hilum of kidney surgical hilar dissection, and it may result in conversion Basis of Clinical Practice. 39th ed. New York, NY: of laparoscopic operation to an open procedure. Churchill Livingstone; 2005: p. 1271-4. Testicular artery may originate from the renal artery or 2. Sinnatamby CS, editor. Last’s anatomy: regional and as a branch from a suprarenal or lumbar artery (14). With applied. 11th ed. London: Churchill Livingstone; 2006: p. the increased frequency of abnormal origins of TA, 294. Notkovich (15) classified them into three types based on 3. Datta AK, editor. Essentials of Human anatomy (Thorax their relationship with renal veins: Type I - TA arising and Abdomen) Current books international. 7th ed. from the aorta, passing behind or below the renal vein but Calcutta: Current Books International; 2006: p. 140-277. without making contact with it; Type II - TA originating 4. Moore KL, Persaud TVN, editors. The Developing from the aorta, above the renal vein and crossing in front Human: Clinically Oriented Embryology. 7th ed, of it; Type III - TA arising from the aorta and passing Philadelphia: WB Saunders; 2002: p. 180-5. behind or below the renal vein and coursing superiorly 5. Satyapal KS, Haffejee AA, Singh B, et al. Additional renal and around the renal vein. The present case report is arteries: incidence and morphometry. Surg Radiol Anat resembles Type III according to Notkovich classification. 2001;23(1):33-8. Sylvia et al., (16) have reported bilateral origin of 6. Cinman NM, Okeke Z, Smith AD. Pelvic kidney: testicular artery from accessory renal arteries. Bilateral associated diseases and treatment. J Endourol high origins of testicular arteries arising from the 2007;21(8):836-42. abdominal aorta cranial to the origin of corresponding 7.

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