Nontraditional sites for vascular anastomoses to enable kidney transplantation in patients with major systemic venous thromboses

Successful renal transplantation requires low‐pressure venous drainage to permit adequate outflow from the allograft. We report here a series of three patients in whom the inferior vena cava as well as bilateral iliac veins were thrombosed, making it necessary to explore less traditional vessels for venous drainage of the renal allograft. We utilized the splanchnic vasculature in two cases and the native left renal vein in another. The resulting atypical intra‐abdominal locations of these allografts also presented difficulties for arterial anastomoses and for urinary drainage. Arterial conduits were utilized in two cases to facilitate anastomosis to the common iliac artery or the aorta, and in the third case, the splenic artery was used for arterial inflow. A traditional ureterocystostomy was technically feasible for only one patient. In another, ureteroureterostomy to the native ureter was performed, and in the third case, the creation of an ileal conduit was necessary. All three patients had antibodies to human leukocyte antigens and two required desensitization. All three kidneys had immediate graft function and continued to function at 1 year post‐transplant. With a combination of planning, creativity, and persistence, patients with IVC thrombosis can enjoy the benefits of renal transplantation.     

Successful renal transplantation in high-risk small children with a completely thrombosed inferior vena cava

BACKGROUND: Inferior vena cava (IVC) thrombosis is generally a contraindication to renal transplantation in small children because of the technical difficulty and limitations in allograft venous outflow drainage that risk graft thrombosis. METHODS: The records of six consecutive children (9.9-27.4 kg) with end-stage renal disease and thrombosed IVCs were reviewed. Small deceased donor renal allografts were utilized in all cases where immediate posttransplant venous renal outflow would theoretically not exceed the drainage capacity of the iliac or adjacent pelvic collateral veins. RESULTS: There is 100% patient survival with two patients returning to dialysis at seven and three years posttransplantation. There were no surgical complications or delayed graft function. Postoperatively, progressive renal vein and simultaneous iliac venous enlargement was observed in five of six recipients concomitant with renal allograft enlargement. In these patients, maximum renal volume achieved was between 152 and 275 ml and last recorded Schwartz glomerular filtration rates ranged from 67 to 118 ml/min. The sixth allograft had an early, severe rejection episode that limited renal growth and attainment of good renal function. All patients demonstrated resumption of growth rates commensurate with age but without significant catch-up growth. CONCLUSION: A small deceased donor kidney can provide freedom from dialysis and better quality of life for small children with IVC thrombosis during an age when dialysis treatment is difficult and the complications of the thrombosed IVC may compromise life. Good renal function was attained in patients without rejection episodes. In those with rejection, our approach allowed for patient growth during allograft function, providing a bridge for a repeat transplant.     

Successful Urgent Transplantation of an Adult Kidney into a Child with Inferior Vena Cava Thrombosis

Poor venous drainage options following inferior vena cava (IVC) thrombosis have been considered to complicate or preclude renal transplantation of adult kidneys into pediatric patients. We describe urgent renal transplantation in a 5-year-old (15.3 kg) male with IVC thrombosis using an adult living donor. Preoperative magnetic resonance venography revealed a patent infrahepatic/suprarenal vena cava and portal system. In surgery, the right liver lobe was mobilized sufficiently to anastomose the graft renal vein to the native IVC at the confluence of the native left renal vein and proximal vena cava. Graft function has remained excellent with serum creatinine of 0.5 mg/dL at 36 months. IVC thrombosis need not preclude successful transplantation of adult-sized kidneys into children.     

Balloon control of the suprahepatic inferior vena cava: a novel technique for renal cell carcinoma tumor thrombus

Renal cell carcinoma has a tendency to extend via the renal vein into the inferior vena cava (IVC), and we describe a novel approach to this situation. A 64-year-old male presented with metastatic right renal cell carcinoma and tumor thrombus extending into the retrohepatic IVC. Preoperative imaging revealed a large hemangioma adjacent to the IVC, potentially complicating hepatic mobilization. Instead, we used a compliant balloon to occlude the suprahepatic IVC, securing the wire in the right hepatic vein. With the infrarenal IVC and left renal vein occluded, the thrombus was extracted via a right renal venotomy/partial cavotomy with minimal bleeding. Balloon occlusion of the suprahepatic IVC offers a safe alternative to surgical control of this vessel in difficult situations. In addition, it allows for nephrectomy through a conventional, small retroperitoneal incision rather than the extended exposure needed for the IVC. Hepatic vein positioning of the wire prevents thrombus manipulation during balloon placement.     

Living Donor Liver Transplantation in Budd-Chiari Syndrome: A Single-Center Experience

Budd-Chiari syndrome (BCS), which is characterized by hepatic venous outflow obstruction due to occlusion of the major hepatic vein and/or the inferior vena cava (IVC), is rare. Traditionally, a caval resection is advocated for these patients; however, such a manenver renders living donor liver transplantation (LDLT) impossible. We encountered BCS in 4/377 LDLT patients during a 5-year period (January 2003 to December 2007). This report examine the various surgical modifications in these 4 patients, who underwent to LDLT for BCS. Resection of right hepatic vein (RHV) with an adjacent fibrotic part of the IVC with direct anastomosis of the graft RHV to the IVC was performed in 2 patients. One patient underwent retrohepatic IVC excision and reconstruction with a cryopreserved autologous IVC graft. The fourth patient, with a preexisting mesoatrial shunt for BCS, underwent conversion of this to a RHV atrial shunt. Graft and patient survivals were 100%. There were few complications in either donors or recipients. LDLT for BCS can be performed safely with adequate venous drainage techniques and with anticoagulant therapy and good follow-up for early diagnosis and treatment of recurrence leading to excellent long-term results.     

Outflow block secondary to stenosis of the inferior vena cava following living-donor liver transplantation?

Although it is well known that outflow block is caused by stenosis or occlusion of hepatic vein anastomoses following living donor liver transplantation (LDLT), there have been few reports on inferior vena cava (IVC) stenosis following LDLT. In this paper, we report two cases of IVC stenosis and hepatic vein outflow block following right hepatic LDLT in the absence of stenosis of any of the anastomoses. Both patients presented with liver dysfunction, an ascitic fluid volume of approximately 2000 mL, and congestion in their biopsy specimens, and venocavography demonstrated IVC stenosis with gradients of more than 10 mmHg in patients with a dominant inferior right hepatic vein (IRHV) anastomosis. After a Gianturco expandable metallic stent successfully implanted in the IVC, the patient's liver function recovered and the volume of ascitic fluid decreased. The pathogenesis of hepatic vein outflow block secondary to IVC stenosis following LDLT may involve the anastomosis with the IRHV, which is the dominant draining vein of the graft and larger than the RHV, caudal to the IVC stenosis and a significant IVC pressure gradient that results in increased IRHV pressure. In conclusion, it is important to include hepatic vein outflow block in the differential diagnosis when patients who have undergone right hepatic LDLT in which anastomosis of the large IRHV has been performed develop manifestations of liver dysfunction.     

Changes in venous hemodynamics after renal transplantation

Abstract To explain an occasionally observed transient swelling of the ipsilateral leg in renal transplant recipients in the absence of deep vein thrombosis, we took serial measurements of venous outflow resistance and duplex examinations of both legs. Fourteen recipients of a living related donor kidney graft were submitted to strain gauge plethysmography and duplex examination before transplantation and 1 and 6 weeks thereafter. Venous outflow resistance and venous flow were measured and the veins were assessed for thrombosis. Strain gauge plethysmography showed a significant increase in venous outflow resistance in the leg on the side of the renal transplant 1 week after transplantation [0.28 ± 0.13 vs 0.40 ± 0.15 mmHg.s (ml/100 ml)^-1; P < 0.05]. Six weeks later, the venous outflow resistance had returned to preoperative values [0.30 ± 0.11 mmHg.s (ml/100 ml)^-1; P = NS]. On the contralateral side, no significant differences were found. Duplex examinations showed no signs of thrombosis. Venous flow measurements in the common femoral vein showed no significant differences. We conclude that the additional blood supply to the iliac veins results in an increase in venous outflow resistance in the ipsilateral leg, which can explain the observed swelling of this leg and may have implications for the preferred method of diagnosis of venous thrombosis after renal transplantation.     

Utilization of autologous vein graft for replacement of the inferior vena cava in living-donor liver transplantation for obliterative hepatocavopathy

Obliterative hepatocavopathy (OHC) is a subtype of Budd-Chiari syndrome in which stenosis or obstruction of the retrohepatic inferior vena cava (IVC) is observed. Although IVC replacement is necessary in OHC patients, there are hardly any graft vessels available for IVC reconstruction during living-donor liver transplantation (LDLT). Here, we describe a novel technique of IVC reconstruction using only the autologous blood vessels in an OHC patient during LDLT. In this case, sufficient drainage of the hepatic outflow and reconstruction of the venous return from the lower half of the body were simultaneously required. Therefore, we substituted the retrohepatic IVC with the suprarenal IVC of the recipient, and we reconstructed the IVC continuity by using the autologous internal jugular vein and external iliac vein. The operation was safe, and the postoperative venous drainage from the hepatic tributaries was in good condition. This procedure might be an option for IVC replacement during LDLT.     

Hepatectomy with total vascular exclusion. Anatomical principles based on 64 dissections

Intra-operative hemorrhage is the main surgical risk during liver resections. Nowadays hepatectomies for large or posterior liver tumors close to the hepatocaval junction can benefit from total hepatic vascular exclusion (HVE) involving portal triad exclusion and clamping of the inferior vena cava (IVC) below and above the liver. Anatomical aspects of HVE have been studied in 64 subjects by segmental occlusive phlebographies of the IVC, injection of corrosive substances into the hepatocaval network, biometry of the retrohepatic IVC and serial sections of injected livers. A total HVE should exclude the right suprarenal and phrenic veins. Clamping of the suprahepatic IVC depends on the termination of the left inferior phrenic vein. Clamping of the subhepatic IVC must be retrohepatic: the right lobe of the liver has to be mobilized to free the right border of the retrohepatic IVC into which flows the right suprarenal vein 40 +/- 20 mm above the right renal vein and under the superior right hepatic vein. Both suprahepatic and retrohepatic clamps excluding the retrohepatic portion of the IVC (46.6 +/- 13 mm) and the hepatocaval junction should come in contact behind the IVC without overlapping.     

Replacement of the retrohepatic vena cava in segmental liver transplantation

Reduced grafts represent an important technical development in paediatric liver transplantation. The use of a left lateral segment graft has required preservation of the native inferior vena cava to “piggy-back” the graft onto it. We report four children who underwent left lateral segment transplantation with caval replacement using the donor iliac vein because the native retrohepatic inferior vena cava was small, friable or difficult to preserve. There were no caval or hepatic vein complications post-transplant and the donor iliac vein proved to be a satisfactory interpositional graft. The technique offers the advantages of a wider retrohepatic cava avoiding venous outflow or caval obstruction, provides good tissue to suture and is well suited for the triangulation technique of the left hepatic vein. Received: 24 January 1997 Received after revision: 20 June 1997 Accepted: 30 June 1997     

Hepatic venous outflow reconstruction in adult living donor liver transplants without portal hypertension

Graft congestion is one of the causes of poor graft function in segmental liver transplantation. Three factors are implicated in segmental graft congestion: graft size, hepatic venous outflow and portal inflow. The graft size must be matched to the body weight, which is conventionally done by using graft to body weight ratio. Hepatic blood outflow must be optimized by hepatic vein reconstruction, which can be complicated. High portal blood flow has been shown to be detrimental to small-for-size grafts. These factors are strictly connected to each other. They can all contribute to graft congestion and poor function, while one factor can compensate for the others and decrease congestion. Ideally, all the accessory veins should be reconstructed, if possible, to maximize the outflow. In the absence of portal hypertension and with an adequate sized graft, complex venous reconstruction may not be necessary. We present a case report of an adult living donor liver transplant with the favorable conditions of normal portal pressure and a large sized graft, but complicated by the presence of several accessory hepatic veins. A simple hepatic vein anastomosis was sufficient for adequate outflow and prompt graft function.     

Interrupted Inferior Vena Cava Combined with Partial Anomalous Pulmonary Venous Return Drainage to the IVC in a 67‐Year‐Old Adult

A 67‐year‐old woman presented with lower body edema and was found to have a suprarenal inferior vena cava (IVC) obstruction without hepatic vein obstruction and partial anomalous pulmonary venous return (PAPVR) draining the right pulmonary veins to the IVC below the obstructed IVC on CT angiography. The patient underwent retrohepatic cavoatrial bypass with a polytetrafluoroethylene (PTFE) 16‐mm ringed graft via a posterolateral thoracotomy and retroperitoneal approach.     

New Left Lobe Transplantation Procedure with Caval Reconstruction Using an Inverted Composite Graft for Chronic Budd-Chiari Syndrome in Living-Donor Liver Transplantation—A Case Report

When the Budd-Chiari syndrome (BCS) lesion extends to the inferior vena cava (IVC) or the orifices of the hepatic vein, the thickened IVC and/or hepatic vein wall must be removed and IVC reconstruction is required in living-donor liver transplantation (LDLT). In various reports about IVC resection in LDLT for BCS, there are none about left lobe liver transplantation with reconstruction of the retrohepatic IVC (rhIVC). To overcome removal and reconstruction of the rhIVC in LDLT for BCS, we introduced a composite IVC graft that is applicable to both right and left lobe partial liver grafts for LDLT for BCS. Pathogenic IVC was removed together with the native liver between the lower edge of the right atrium and 5 cm above the renal vein junction with the use of venovenous bypass. The e-polytetrafluoroethylene graft was anastomosed to the suprarenal intact IVC. Then the native part was detached at the level of just above the renal junction. The composite graft was inverted and a half rim of the native part of the graft was anastomosed to the posterior wall of the right atrium. Next, the common venous orifice of the left lobe graft was anastomosed to the wall defect which was composed of the anterior wall of the right atrium and the distal end of the native part of the composite graft. In conclusion, our inverted composite graft technique will overcome the weak points of LDLT for BCS, such as incomplete removal of the pathogenic caval wall and reconstruction of the rhIVC.     

Techniques of reconstruction of hepatic veins in living-donor liver transplantation, especially for right hepatic vein and major short hepatic veins of right-lobe graft

Living-donor liver transplantation (LDLT) is now widely accepted as a therapeutic option for adult patients with acute and chronic end-stage liver disease. In the early period, the left lobe was the major liver graft used in adult LDLT to ensure donor safety, especially in Eastern countries. However, the frequent extremes of graft-size insufficiency in left-lobe LDLT represented a greater risk of small-for-size graft syndrome in the recipient, which has focused attention on transplantation of the right lobe from a living donor. The major concern of right-lobe LDLT has focused on its safety for the donor and the necessity for including the middle hepatic vein (MHV) in the graft to avoid congestion of the right anterior segment. The MHV carries out important venous drainage for the right anterior segment and is essential for perfect graft function. The decision of whether to take the MHV with the liver graft (extended right lobe graft) or whether to retain it in the donor, with reconstruction of the MHV tributaries in the liver graft (modified right lobe graft) has been extensively discussed in numerous studies. However, adequate right hepatic vein and major short hepatic vein (middle and inferior right hepatic vein [RHV]) drainage of the liver graft is perhaps equally important as MHV outflow drainage for the integrity of right-lobe graft function. Herein, the author describes various techniques of venoplasty of the right hepatic vein (RHV) and the major short hepatic veins to obviate venous outflow obstruction in these veins.     

背驮式肝移植静脉回流道重建的改进和血流动力学探讨

目的 探讨合理的背驮式肝移植（PBLT）静脉回流道重建方式。方法 将74例PBLT按不同的静脉回流道重建方式分为5组：肝上下腔静脉－肝静脉端端吻合（A组）、肝上下腔静脉－肝后下腔静脉端侧吻合（B组）、肝后下腔静脉－肝后下腔静脉侧侧吻合（C组）、肝上下腔静脉－右心房端侧吻合（D组）、肝后下腔静脉、肝后下腔静脉全口吻合（E组）。比较各组受者的中心静脉压（CVP）、肝后下腔静脉压（RHIVC）及供者肝上下腔静脉靠近吻合口部压力（GIVC），并观察术中布加氏综合征发生情况。结果 C组无论是CVP、RHIVC、GIVC，还是压力差均较A组与B组为小，D组与E组血流动力学测定与C组相似。说明该种术式的供肝静脉回流通畅度令人满意，其术中布加氏综合征发生率也较低。结论 供肝静脉回流道重建方式改进后，供肝静脉回流更通畅，布加氏综合征等并发症发生机率减小。故推荐使用供肝肝后下腔静脉与受者肝后下腔静脉侧侧吻合术式。     

Successful renal transplantation in children in the presence of thrombosis of the inferior vena cava

Thrombosis of the inferior vena cava (IVC) has previously been considered to be a contraindication to renal transplantation in children because of the technical difficulties associated with surgery and the increased risk of graft thrombosis. We report three children with previous IVC thrombosis who underwent renal transplantation at our institution over the last 5 years. The pretransplant imaging of these patients included direct venography or magnetic resonance venography to evaluate venous outflow. Two children (19 kg and 36 kg) received deceased donor renal allografts with no surgical complications or delayed graft function. At the latest follow-up 3.0 and 4.6 years posttransplantation, respectively, they were well, with estimated glomerular filtration rates of 52 and 64 ml/min per 1.73 m(2), respectively. The third child underwent a live-related-donor renal transplant at the age of 4.9 years (weight 13.5 kg). There was primary graft nonfunction. Renal vein thrombosis was noted on postoperative day 12, with subsequent graft loss. Children with previous IVC thrombosis can be successfully transplanted with adult-sized kidneys provided detailed evaluation of the venous drainage has been performed. There is substantial risk of graft thrombosis, and detailed counselling regarding the specific risks of the procedure is essential.     

Reconstruction of middle hepatic vein of a living-donor right lobe liver graft with recipient left portal vein.

Venous outflow problems in right lobe, living-donor liver transplantation are uncommon, but devastating when they occur. We describe the successful use of the recipient's left portal vein as an interposition graft to drain a dominant middle hepatic vein in a right lobe liver transplant. Two weeks after transplantation, the vein graft accounted for 56% of the total venous outflow of the liver.     

肝后隧道手术高危区的解剖特点及临床应用研究

目的:探讨肝后隧道及手术高危区的解剖特点及临床应用价值。方法:解剖20具成人尸体肝脏标本,收集经前入路绕肝提拉法右半肝切除术27例患者的临床资料,分别统计汇入肝后下腔静脉和肝后隧道路径上肝短静脉总数。结果:解剖研究中发现,肝短静脉主要从左右两侧汇入肝后下腔静脉,且较多集中于中、下1/3段;在肝后隧道路径上,汇入肝后下腔静脉的肝短静脉主要集中在下1/3段前方,平均(2.90±1.07)支,上1/3段仅有1例出现1支肝短静脉,中1/3段20例中仅4例出现1支肝短静脉;肝右后下静脉多出现在肝后下腔静脉的中、下1/3段,出现率达85.0%(17/20)。临床手术中发现,在肝后隧道路径上,汇入肝后下腔静脉肝短静脉主要集中在下1/3段,平均(3.21±1.67)支,多数病例此区域上下距离约3～4 cm,同时此区域中肝右后下静脉出现率达85.2%(23/27);27例中仅1例有1支肝短静脉汇入中段肝后下腔静脉前方。结论:肝后隧道手术高危区位于肝后下腔静脉下段前方3～4 cm区域,有较多肝短静脉伴随肝右后下静脉汇入。准确把握此区域的解剖特点并进行解剖分离是成功建立肝后隧道的关键。     

The inferior vena caval conduit — a neglected technique in transplantation of the right cadaveric kidney?

Abstract A short right renal vein may reduce access or compromise optimal positioning during transplantation of the right cadaveric kidney. This difficulty could be overcome by using the inferior vena cava (IVC) as a venous conduit to lengthen the short right renal vein. This manoeuvre would also facilitate training by ensuring safe tension‐free vascular anastomoses since the kidney can be lifted up a comfortable distance, thus improving exposure of the operative field. In a postal survey, only a third of UK renal transplant units utilised the IVC conduit. Despite 81.5 % of units claiming that they harvest the IVC during organ retrieval, a 2‐year retrospective audit revealed that only 4.3 % of imported right kidneys had the IVC. The IVC remains a much under‐utilised resource in the UK despite its potential benefit as a venous conduit in transplanting the right cadaveric kidney. We urge all retrieving surgeons to routinely harvest the IVC with right cadaveric kidneys during organ procurement.     

Experience with recipient's superficial femoral vein as conduit for middle hepatic vein reconstruction in a right-lobe living donor liver transplant procedure

Middle hepatic vein reconstruction during the right-lobe living donor liver transplant procedure has been recognized to be a significant factor. We initially reconstructed only a single middle hepatic vein orifice draining into segment 8. In cases where the right-lobe liver graft has several major middle hepatic vein tributaries, including veins draining segment 5 that are remote from the right hepatic vein orifice, a long and thick interposition conduit is necessary for reconstruction. Among 11 consecutive adult patients who received a right-lobe liver graft without a middle hepatic vein at our institution, 8 underwent reconstruction of all major middle hepatic vein tributaries using a vein graft from the recipient's superficial femoral vein. The remaining 3 patients had no major middle hepatic vein tributaries. Posttransplant-computed tomography imagings showed increased liver mass with a patent superficial femoral vein graft in 8 patients. In the absence of a venous system from a deceased donor, a recipient superficial femoral vein offers an excellent size match to maintain the venous outflow of middle hepatic vein tributaries. Reconstruction with recipient superficial femoral vein plays an important role in maximizing liver function and minimizing morbidity in the early posttransplant period.