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Warm Ischemic Time (warm + ischemic_time)

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Medical Sciences	100%

Selected Abstracts

Evaluation of renal function after laparoscopic partial nephrectomy with renal scintigraphy using 99mtechnetium-mercaptoacetyltriglycine

INTERNATIONAL JOURNAL OF UROLOGY, Issue 11 2006
KOBAYASHI YASUYUKI
Aim: We evaluated the functions of an affected kidney after laparoscopic partial nephrectomy (LPN) using renal scintigraphy with 99mtechnetium-mercaptoacetyltriglycine (99mTc-MAG3). Methods: Split renal function of 10 patients who underwent LPN for renal tumors was assessed using renal scintigraphy with 99mTc-MAG3 before surgery, and 1 week and 3 months post-surgery. Results: Median operating time was 196.5 min, median tumor diameter was 2.3 cm, mean blood loss was 64 mL and mean ischemic time was 38.5 min. Median change in serum creatinine level pre- to post-surgery was 0.15 mg/dL. Median contribution of the affected kidney to total renal function (calculated using 99mTc-MAG3) was 50.0%, 41.7% and 36.1% before surgery, 1 week and 3 months after LPN, respectively. In one patient, the tumor was resected after cooling of the affected kidney with ice slush for 15 min, and the split renal function ratio remained as high as 50% at 3 months post-operatively despite a total ischemic time of 61 min. Conclusions: This paper evaluated renal function on the affected side before and after surgery by measuring split renal function with renal scintigraphy using 99mTc-MAG3. Risk factors for renal dysfunction in the affected kidney after LPN include age over 70 years with more than 30 min warm ischemic time, re-clamping of the renal artery procedure, and a warm ischemic time greater than 60 min. We believe that renal cooling with slush ice prevents renal dysfunction of the affected kidney after LPN with longer warm ischemic times. However, an easier renal cooling technique should be sought for regular use of cooling procedures in LPN. [source]

Alternatives to the double vena cava method in partial liver transplantation

LIVER TRANSPLANTATION, Issue 1 2005
Yoji Kishi
Minimizing graft congestion in partial liver transplantation is important, especially when the graft weight is marginal for the recipient metabolic demand. We prefer the double vena cava technique for reconstructing middle hepatic vein tributaries with thick, short hepatic veins because the technique can reduce the warm ischemic time of the graft and make a wide anastomosis. This technique requires a cryopreserved superior or inferior vena cava. We devised an alternative double vena cava method using iliac or femoral vein grafts and applied it to two right liver transplantation patients. There was no postoperative hepatic venous outflow block in either patient. In conclusion, application of this technique, even in the absence of a suitable vena cava, can help to minimize graft congestion. (Liver Transpl 2005;11:101,103.) [source]

Outcome of the use of pediatric donor livers in adult recipients

LIVER TRANSPLANTATION, Issue 1 2001
Motohiko Yasutomi
The prolonged waiting time caused by the lack of donor livers leads to an increasing number of terminally ill patients waiting for lifesaving liver transplantation. To rescue these patients, transplant programs are accepting donor organs from the expanded donor pool, using donors of increasingly older age, as well as from the pediatric age group, often despite significant mismatch in liver size. We investigated the outcome of 102 consecutive liver transplantations using pediatric donor livers in adult recipients. One-year graft survival using donors aged 12 years or younger (group 1, n = 14) and donors aged 12 to 18 years (group 2, n = 88) was compared. In addition, risk factors for graft loss and vascular complications were analyzed. The 1-year graft survival rate in adult transplant recipients in group 1 was 64.3% compared with 87.5% in those in group 2 (P = .015). The main cause of graft loss was arterial complications, occurring in 5 of 16 transplant recipients (31.3%). Major risk factors for graft loss and vascular complications were related to the size of the donor: age, height and weight, body surface area of donor and recipient, and warm ischemic time. We conclude that the outcome of small pediatric donor livers in adult recipients is poor, mainly because of the increased incidence of arterial complications. When a pediatric donor is used in an adult recipient, ischemic time should be kept to a minimum and anticoagulative therapy should be administered in the immediate postoperative period to avoid arterial complications. However, because small pediatric donors are the only source of lifesaving organs for the infant recipient, the use of small pediatric donor livers in adults should be avoided. [source]

An In Vivo Autotransplant Model of Renal Preservation: Cold Storage Versus Machine Perfusion in the Prevention of Ischemia/Reperfusion Injury

ARTIFICIAL ORGANS, Issue 7 2009
Gaetano La Manna
Abstract There is increasing proof that organ preservation by machine perfusion is able to limit ischemia/reperfusion injury in kidney transplantation. This study was designed to compare the efficiency in hypothermic organ preservation by machine perfusion or cold storage in an animal model of kidney autotransplantation. Twelve pigs underwent left nephrectomy after warm ischemic time; the organs were preserved in machine perfusion (n = 6) or cold storage (n = 6) and then autotransplanted with immediate contralateral nephrectomy. The following parameters were compared between the two groups of animals: hematological and urine indexes of renal function, blood/gas analysis values, histological features, tissue adenosine-5,-triphosphate (ATP) content, perforin gene expression in kidney biopsies, and organ weight changes were compared before and after preservation. The amount of cellular ATP was significantly higher in organs preserved by machine perfusion; moreover, the study of apoptosis induction revealed an enhanced perforin expression in the kidneys, which underwent simple hypothermic preservation compared to the machine-preserved ones. Organ weight was significantly decreased after cold storage, but it remained quite stable for machine-perfused kidneys. The present model seems to suggest that organ preservation by hypothermic machine perfusion is able to better control cellular impairment in comparison with cold storage. [source]

Evaluation of renal function after laparoscopic partial nephrectomy with renal scintigraphy using 99mtechnetium-mercaptoacetyltriglycine

Hand-assisted laparoscopic and open living donor nephrectomy in Korea

INTERNATIONAL JOURNAL OF UROLOGY, Issue 5 2005
JA HYEON KU
Abstract Background: We compared the results of hand-assisted laparoscopic living donor nephrectomy (LLDN) and conventional open living donor nephrectomy (OLDN). Methods: The clinical data on 49 hand-assisted LLDN and 21 OLDN on the left side performed at two institutions in Korea from January 2001 to February 2003 were reviewed. Demographic data of donors and recipients were similar in the two groups. Results: There was one conversion to an open procedure due to bleeding in the LLDN group. The median operation times (180 min in LLDN versus 170 min in OLDN) and warm ischemic times (2.5 min in LLDN versus 2.0 min in OLDN) in the two groups were similar. The estimated mean blood loss, duration of hospital stay and complication rate was also similar in the two groups. The LLDN group reported less pain (visual analog scale) postoperatively (4.1 versus 5.3), but this was not significant (P = 0.058). The time to oral intake in the LLDN group was significantly longer by an average of 1 day (P = 0.001). Return to work was sooner in the LLDN group (4.0 weeks versus 6.0 weeks; P = 0.026). The recipient graft function was equivalent between the two groups. Hand-assisted LLDN appears to be a safe and effective alternative to OLDN. Conclusion: Our findings suggest that this technique may give the ability provide grafts of similar quality to OLDN, while extending to the donors the advantages of a traditional LLDN procedure. [source]

Liver transplantation in patients with portal vein thrombosis

LIVER TRANSPLANTATION, Issue 2 2001
Gerardo Manzanet MD
The aim of this study is to analyze the incidence, risk factors, management, and follow-up of patients with portal vein thrombosis (PVT) undergoing primary orthotopic liver transplantation (OLT). Four hundred fifteen OLTs were performed in 391 patients. In 62 patients, partial (group 1; n = 48) or complete (group 2; n = 14) PVT was found at the time of surgery. Portal flow was reestablished by venous thrombectomy. In this study, we compare 62 primary OLTs performed in patients with PVT at the time of OLT with a group of 329 primary OLTs performed in patients without PVT (group 3) and analyze the incidence of PVT, use of diagnostic methods, surgical management, and outcome. We found no significant differences among the 3 groups for length of surgery, cold and warm ischemic times, and postoperative stay in the intensive care unit. With the piggyback technique, groups 1 and 2 had greater blood losses and required more blood transfusions than group 3. The early reoperation rate was greater in group 2. The incidence of rethrombosis was 4.8% (group 1, 2%; group 2, 14.3%). Reexploration and thrombectomy (2 patients) and retransplantation (1 patient) had a 100% mortality rate. In particular, the mortality rate of patients with complete PVT with extension into the splanchnic veins is high (33%). Three-month and 4-year patient survival rates were statistically similar in the 3 groups. The presence of PVT at the time of OLT is not a contraindication for OLT. However, if PVT extends into the splanchnic veins, the outcome is guarded. [source]

The cadaveric kidney and the organ shortage , a perspective review

CLINICAL TRANSPLANTATION, Issue 6 2001
L Brasile
Despite the technical and logistical hurdles that must be overcome with the reintroduction of non-heartbeating donor kidneys, the potential of these organs represents the only near-term solution for effectively alleviating the growing disparity between demand and supply. This review provides an argumentative overview of the history of cadaveric kidney transplantation. During the early years of transplantation retrieval of kidneys from non-heartbeating donors necessitated a prolonged period of warm ischemic exposure, with a corresponding minimal ex vivo period since organ preservation was in its infancy. Today we have the inverse situation where warm ischemic times are quite limited and hypothermic preservation times average 24 h because organs are shipped to remote centers due to mandated organ sharing algorithms. The recent experience with the reintroduction of non-heartbeating donors has necessitated combining the worst aspects from both eras: substantial warm ischemia with prolonged hypothermic preservation. Nevertheless, recent results from several transplant groups poignantly highlight the potential of this approach in expanding the organ donor pool. [source]