Non-heart-beating Donors Group Research Articles

Functional assessment of non-heart-beating donor lungs: prediction of post-transplant function

To enable an increase in the numbers of donor lungs using organs from non-heart-beating donors (NHBD). To develop an isolated ventilation and perfusion technique to assess the degree of warm ischaemic organ injury suffered prior to retrieval, thereby enabling identification of lungs with predictably good post-transplant function. Lungs from Landrace-Yorkshire White cross pigs were retrieved after 1 (NHBD(1)), 2 (NHBD(2)) or 4 h (NHBD(4)) post-hypoxic death induced by cessation of ventilation. Control organs were retrieved using standard techniques for each group from matched animals immediately following aortic cross-clamping (Control(1) and combined Control(2,4)). Modified Euro-Collins pulmoplegia was used in all groups, prior to ventilating a single lung with 100% oxygen and perfusion with neutrophil-depleted and deoxygenated blood. For all of the lungs in the NHBD(2) and combined Control(2,4) groups, and one of the successfully perfused NHBD(4), the contralateral lung was then transplanted with post-transplant function assessed for 12 h. All animals were anaesthetized throughout and euthanased without regaining consciousness. On assessment, oxygenation after 5 min of perfusion did not differ between NHBD(1) (n=4) vs. Control(1) (n=5; analysis of variance (ANOVA), P=0.152). However, oxygenation had deteriorated significantly in the NHBD(2) group (n=6) vs. Control(2,4) (n=8; ANOVA, P<0.0005) and was significantly poorer than initial values after 8 min (unpaired t-test with Bonferroni correction, P<0.03). In NHBD(4) (n=6), four lungs failed assessment due to the development of gross pulmonary oedema, although the remaining pair functioned as well as Control(2,4). Post-transplantation, NHBD(2) (n=6) contralateral lungs showed significantly poorer overall oxygenation, (mean+/-SD, 46+/-22 kPa) when compared with Control(2,4) (n=6; 59+/-16 kPa; ANOVA, P=0.001), although oxygenation was satisfactory. The contralateral organ from one successfully perfused NHBD(4) lung functioned well post-transplantation. The significant deterioration in oxygenating performance seen during assessment after 2 h warm ischaemia and the idiosyncratic function after 4 h warm ischaemia indicates the importance of functional testing of NHBD lungs. The similar deterioration in oxygenating performance seen post-transplantation in the contralateral lungs suggests that this method detects functional warm ischaemic lung injury.

Pulmonary graft function after long-term preservation of non-heart-beating donor lungs

Background. Critical organ shortage in lung transplantation could be attenuated by the use of non-heart-beating donor (NHBD) lungs. In addition, prolonged ischemic tolerance of the organs would contribute to the alleviation of organ shortage. The aim of this study was to investigate pulmonary graft function of NHBD lungs after long-term hypothermic storage.Methods. Twelve native-bred pigs (bodyweight 20 to 30 kg) underwent left lung allotransplantation. In the heart-beating donor (HBD) group, lungs were harvested immediately after cardiac arrest. In the NHBD group, lungs were subjected to a warm ischemic period of 90 minutes before harvesting. After a total ischemic time of 19 hours, pulmonary grafts in both groups were reperfused and pulmonary graft function was assessed. All values were compared with a sham-operated control group.Results. Pulmonary graft function in the HBD group was excellent. In the NHBD group, pulmonary gas exchange was impaired, but still provided good graft function compared with the excellent graft function in the HBD group. Pulmonary vascular resistance was even lower in the NHBD group. In the NHBD group, calculated intrapulmonary shunt fraction (Qs/Qt) was significantly increased compared with the sham-group. Histologic alteration and wet-to-dry ratio did not differ significantly between the HBD and NHBD group.Conclusions. We conclude that NHBD lungs (90 minutes of warm ischemic time) have the potential to alleviate organ shortage in lung transplantation even after an extended total ischemic time.

NON-HEART-BEATING ORGAN DONORS

The shortage of organ donors relative to the number of patients on transplant waiting lists has led to a renewed interest in the use of non-heart-beating (NHB) organ donors in many centers. The lack of donors is also a problem for islet transplantation. The disparity between donor organs and potential recipients is further exacerbated by the requirement to transplant a large number of islets to increase the chance of success and the high level of variability in islet isolation yield. Non-heart-beating (NHB) donors have not previously been assessed as a source of islets for transplantation, and it is unknown what affects the additional factor of warm ischemic injury associated with NHB organs may have on the success of islet isolation. This study assesses the yield and function of islets from NHB donors and compares the results with islets obtained from heart-beating brain-dead (HB) donors. There were no differences in the yield of islets per gram of pancreas, 1788 (0-4620) NHB vs. 1580 (26-2544) HB (median, range). The secretory function was also similar in both groups, with stimulation indices of 0.71-3.49 for NHB vs. 0.30-3.57 for HB (overall range). There was no correlation between islet yield and warm ischemia time in the NHB donor group. In conclusion, the study has demonstrated that it is possible to isolate large numbers of islets from NHB donor pancreata and that, where NHB donor programs exist, these could provide a significant addition to the number of potentially transplantable islets.

Transplantation of kidneys harvested from non-heart-beating donors: early and long-term results

Abstract The purpose of this retrospective study was to evaluate results of non-heart-beating donor (NHBD) kidney transplantation. Between Jan 1986 and Dec 1994,80 out of 582 cadaveric kidneys were harvested from NHBD (31.9 min ± 24 after cardiac arrest). The results in the NHBD group (76 recipients) were compared with those obtained after transplantation of kidneys harvested from heart-beating donors (HBD) with respect to early graft function, and the graft and recipient's survival. Both groups were matched for sex, age, PRA level, number of HLA mismatches, and cold ischemia time. Triple immunosuppression therapy was used in both groups. Acute tubular necrosis (ATN) was observed significantly more frequently in the NHBD group (50 of 76 recipients vs 33 of 100 in the HBD group). The striking finding of this study was that the occurrence of primary non-function was the same in both groups and that the main cause of it was acute rejection. The 1-year patient and graft survival rates were 98.7 % and 81.6 % for the NHBD group and 99 % and 90 % for the HBD group, respectively. There was also no statistical difference in the serum creat-inine concentration in both groups. We concluded that despite an increased incidence of ATN in the NHBD kidney recipients, the long-term results are good and comparable with those in the HBD group.

Transplantation of kidneys harvested from non-heart-beating donors: early and long-term results.

The purpose of this retrospective study was to evaluate results of non-heart-beating donor (NHBD) kidney transplantation. Between Jan 1986 and Dec 1994, 80 out of 582 cadaveric kidneys were harvested from NHBD (31.9 min +/- 24 after cardiac arrest). The results in the NHBD group (76 recipients) were compared with those obtained after transplantation of kidneys harvested from heart-beating donors (HBD) with respect to early graft function, and the graft and recipient's survival. Both groups were matched for sex, age, PRA level, number of HLA mismatches, and cold ischemia time. Triple immunosuppression therapy was used in both groups. Acute tubular necrosis (ATN) was observed significantly more frequently in the NHBD group (50 of 76 recipients vs 33 of 100 in the HBD group). The striking finding of this study was that the occurrence of primary non-function was the same in both groups and that the main cause of it was acute rejection. The 1-year patient and graft survival rates were 98.7% and 81.6% for the NHBD group and 99% and 90% for the HBD group, respectively. There was also no statistical difference in the serum creatinine concentration in both groups. We concluded that despite an increased incidence of ATN in the NHBD kidney recipients, the long-term results are good and comparable with those in the HBD group.