Nephron sparing surgery- open or minimally invasive is the contemporary state of art for the surgical management of small renal masses providing the benefit of nephron preservation which has a protective effect from landing into downhill renal insufficiency in the long run [
4,
5]. There is an increasing application of MIPN (Minimally invasive partial nephrectomy) in more complex renal masses but at the cost of increased number of complications in recent times [
6]. Intraoperative bleeding or delayed haemorrhage caused by either pseudoaneurysm or arteriovenous fistula formation remains most common complication of the above technique. Various management options for renal artery pseudoaneurysm includes conservative management in haemodynamically stable patients [
7], angioembolization of pseudoaneurysm in unstable patients and nephrectomy in failed angioembolization cases. Renal artery pseudoaneurysm after partial nephrectomy as was first reported by Rezvani
et al. in 1973 [
8]. It can be a potentially life threatening complication, the proposed mechanism of formation of which is partial transection of the artery during tumour resection leading to bleeding into a contained perinephric hematoma, more so at the apex of the eneucleo wedge resection or during the suturing of the resected tumour bed when the underlying blood vessel is partially traumatized causing a false puncture in its wall [
9]. Intraoperatively the risk factors for pseudoaneurysm formation includes the longer operative time and ischemia time, endophytic and posterior located tumours, higher RENAL nephrometry score, renal sinus exposure and operative blood loss of > 250 ml [
10]. As in our case both the tumours were complex interpolar and both had pelvicalyceal system breach during the tumour resection with longer warm ischemia time. Selective renal artery angioembolisation (SAE) is an intervention radiological technique with high success rate of controlling postoperative haemorrhage from the pseudoaneurysm with maximal functional renal parenchymal preservation, contrary to the surgical approach for the same which can lead to almost always a total loss of the index renal unit when explored. The timing of the these clinically significant bleeding complications is usually within two weeks postoperatively [
10] similar to our case. We propose various possible reasons of pseudoaneurysm formation which are as follows: 1. Tight running suture placement during haemostasis for vessel transection at the surgical bed, 2. Unnecessary parenchymal needle punctures during haemostasis, 3. Not checking the haemostasis after pneumoperitoneum deflation at the end of surgery to expose any impending bleeders. In our cases the post SAE renal function declined slightly in both the patients however the global renal function was within the normal limit as in line with Ghoniem
et al. [
11] where in 15 patients post SAE for bleeding renal artery pseudoaneurysm showed good renal function except for 1 solitary functioning kidney with a decline in post angioembolization. The loss in renal function can be due to either the loss of normal renal parenchyma (Penumbra) due to the end arterial nature of blood supply in kidney or the effect of nephrotoxic contrast media used during the angioembolization process on the postoperative ischemia recovering kidney. With the evolution of the surgical acumen during his career and application of this minimally invasive surgery to more clinically complex renal masses as the surgeon gains experience along with strict postoperative surveillance for the complications, there will be an increasing understanding and future prevention of this lethal complication as the operating surgeon improves upon the technical surgical expertise.