CASE 11969 Published on 11.08.2014

Type II retro aortic left renal vein

Section

Uroradiology & genital male imaging

Case Type

Anatomy and Functional Imaging

Authors

Ammor H, Boujarnija H, Jaffal M, Lamrani M, Boubbou M, Kamaoui I, Maaroufi M, Tizniti S

Department of radiology,
CHU Hassan II Fes.
Email:ammor_hicham@hotmail.com

Patient

53 years, female

Categories

Area of Interest Veins / Vena cava, Abdomen ; Imaging Technique CT, Image manipulation / Reconstruction

Procedure Diagnostic procedure ; Special Focus Congenital ;

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Clinical History

A 53-year-old woman, with a clinical history of cervical cancer under chemotherapy, benefited from a thoraco-abdomino-pelvic CT for the evaluation of response to treatment.

Imaging Findings

Besides the radiological anomalies for which she was followed-up, we have incidentally found a retro-aortic left renal vein joining the Inferior Vena Cava in the orthotopic position at the level of L4-L5 vertebras.

Discussion

Variant anatomy of arteries and veins are seen more commonly in abdomen than in any other part of the body [1].
A recognition of variations represented by renal and suprarenal veins is important in study and treatment of renal transplantation, renal trauma, renovascular aneurysm and renal surgery [2–4].
A retroaortic left renal vein (RLRV) is a vein passing behind the abdominal aorta, and this anomaly is relatively rare [5].
Left renal vein (LRV) abnormalities were divided into four types [6, 7]:
Type I: the RLRV joins the inferior veina cava (IVC) in the orthotopic position.
Type II: it joins the IVC at level L4-5.
Type III: it joins at the circumaortic or collar left renal vein.
Type IV: it joins the left common iliac vein.
The incidences of RLRV type I, II, III and IV are 0.3-1.9%, 0.4-0.9%, 1.5-8.7% and 0.16%, respectively [5].
Embryologically, the anterior part of the circumaortic venous plexus continues to exist as a normal LRV. The absence of the anterior part with persistence of posterior component leads to the formation of RLRV [8].
RLRV may sometimes cause symptoms such as haematuria and abdominal or flank pain [9].
Radiological modalities (Colour Doppler US, angiography, MRI and CT) can be used to explore LRV.
MDCT has replaced conventional angiography and venography in most cases; it is a reliable, easily applicable, and noninvasive means for exploration of abdominal organs and vascular structures [5].
Type II is due to the obliteration of the ventral preaortic limb of the LRV, and the remaining dorsal limb becomes the RLRV. The LRV lies at the level of L4 to L5 and joins the gonadal and ascending lumbar veins before joining the IVC [5].
It is supposed that the compression of the LRV leads to haematuria because of elevated pressure in this vein, engendering congestion of the left kidney and the venous communications [5].
Diagnosis of renal vein anomalies is important in retroperitoneal surgery; the ignorance of this variant can result in bleeding, nephrectomy, and even death [10].
Surgeons prefer the LRV in renal transplantation because of its length. So, it is important to notice the route of the LRV and whether it is pre-aortic or not.

Before the renal surgery, attentive reading of the preoperative RLRV imaging modalities helps to prevent fatal complications during the operation.

Differential Diagnosis List

Type II retro-aortic left renal vein

Type I retro-aortic left renal vein

Type IV retro-aortic left renal vein

Final Diagnosis

Type II retro-aortic left renal vein

References

[1] Singla et al. (2010) Retro-aortic left renal vein with left suprarenal vein draining into inferior vena cava. International Journal of Anatomical Variations 3: 134–137.

[2] Sampaio FJ, Aragao AH. (1990) Anatomical relationship between the renal venous arrangement and the kidney collecting system. J Urol 144: 1089–1093. (PMID: 2231877)

[3] Satyapal KS, Kalideen JM, Haffejee AA, Singh B, Robbs JV. (1999) Left renal vein variations. Surg Radiol Anat 21: 77–81. (PMID: 10370998)

[4] Senecail B, Bobeuf J, Forlodou P, Nonent M (2003) Two rare anomalies of the left renal vein. Surg Radiol Anat 25: 465–467. (PMID: 13680187)

[5] Nam et al. (2010) The Clinical Significance of a Retroaortic Left Renal Vein. Korean J Urol 51:276-280. (PMID: 20428432)

[6] Karaman B, Koplay M, Ozturk E, Basekim CC, Ogul H, Mutlu H, et al. (2007) Retroaortic left renal vein: multidetector computed tomography angiography findings and its clinical importance. Acta Radiol 48:355-60. (PMID: 17453511)

[7] Shindo S, Kubota K, Kojima A, Iyori K, Ishimoto T, Kobayashi M, et al. (2000) Anomalies of inferior vena cava and left renal vein: risks in aortic surgery. Ann Vasc Surg 14:393-6. (PMID: 10943793)

[8] Alper Dilli. (2011) Retroaortic Left Renal Vein in a Case of Left Adrenal Adenoma: Radiological Findings. Case Reports in Medicine 2011:867895 (PMID: 21559245)

[9] Cheng-Lin Hsieh . (2012) Retroaortic Left Renal Vein: Three Case Reports. Journal of Medical Ultrasound 20(2):115–118

[10] Karkos CD, Bruce IA, Thomson GJ, Lambert ME. (2001) Retroaortic left renal vein and its implications in abdominal aortic surgery. Ann Vasc Surg 15:703-8. (PMID: 11769156)

Case information

URL:	https://www.eurorad.org/case/11969
DOI:	10.1594/EURORAD/CASE.11969
ISSN:	1563-4086

Figure 1

Thoraco-abdominal CT

Thoraco-abdominal CT: VR reconstruction anterior view: a retro-aortic LRV joining the IVC in the orthotopic position at the level of L4-L5 vertebras.

Thoraco-abdominal CT: VR reconstruction inferior view: a retro-aortic LRV joining the IVC in the orthotopic position at the level of L4-L5 vertebras.

Thoraco-abdominal CT: VR reconstruction anterior view: a retro-aortic LRV joining the IVC in the orthotopic position at the level of L4-L5 vertebras.

Thoraco-abdominal CT: coronal reformation: a retro-aortic LRV (blue arrow) joining the IVC (black arrow) at the level of L4-L5 vertebras. Note the thrombosis of the left gonadal vein (red arrow).

Thoraco-abdominal CT: axial view: a retro-aortic LRV (blue arrow) joining the IVC at the level of L4-L5 vertebras. Note the thrombosis of the left gonadal vein (red arrow).