Clinical transplantation
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Clinical transplantation · Dec 2009
ReviewA single center experience of combined liver kidney transplantation.
With advancements in the operative techniques, patient survival following liver transplantation (LTx) has increased substantially. This has led to the acceleration of pre-existing kidney disease because of immunosuppressive nephrotoxicity making additional kidney transplantation (KTx) inevitable. On the other hand, in a growing number of patients on the waiting list to receive liver, long waiting time has resulted in adverse effect of decompensated liver on the kidney function. ⋯ Shorter graft ischemia time and more effective immunosuppressive regimens can reduce the incidence of graft malfunctioning in CLKTx patients. Providing a model to reliably determine the need for CLKTx seems necessary. Such a model can be shaped based upon new and precise markers of renal function, and modification of MELD system.
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Clinical transplantation · Jan 2006
ReviewPathology of renal xenograft rejection in pig to non-human primate transplantation.
Xenotransplantation has the potential to alleviate the critical shortage of organs for transplantation in humans. Miniature swine are a promising donor species for xenotransplantation. However, when swine organs are transplanted into primates, hyperacute rejection (HAR), acute humoral xenograft rejection (AHXR), acute cellular xenograft rejection (ACXR), and chronic xenograft rejection prevent successful engraftment. ⋯ In miniature swine to baboon xenotransplantation, marked interstitial hemorrhage develops in HAR, and renal microvascular injury develops with multiple platelet-fibrin microthrombi in both HAR and AHXR. T-cell-mediated cellular immunity plays an important role in ACXR. Chronic humoral and cellular rejection may induce chronic xenograft rejection, and will be a major cause of graft loss in discordant xenotransplantation.
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Clinical transplantation · Jan 2006
ReviewLiving-donor kidney transplantation: risks of the donor--benefits of the recipient.
For patients with end-stage renal disease, kidney transplantation is the optimal therapy. Due to organ shortage, however, most patients have to wait on dialysis for a considerable period of time prior to transplantation. Living-donor kidney transplantation is a valid option to expand the organ pool and to reduce waiting time. ⋯ The potential donor, however, needs to be completely informed regarding the potential short- and long-term risks of kidney donation prior to the planned procedure. From the recipient point of view, transplantation of a kidney from a living donor is a very good if not the optimal option, as the short- and long-term outcomes seem to be favorable compared with cadaveric kidney transplantation. With donor safety being constantly monitored, it seems to be justified to further pursue living-donor kidney transplantation programs.
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Clinical transplantation · Jun 2002
ReviewShort- and long-term success of organs transplanted from acute methanol poisoned donors.
The shortage of organs for transplantation has made it necessary to extend the criteria for the selection of donors, among others including those patients who die because of toxic substances such as methanol. Methanol is a toxic which is distributed through all the systems and viscera of the organism and tends to cause a severe metabolic acidosis. It can specifically cause serious or irreversible lesions of the central nervous system (CNS) and retina, and ultimately brain death. We present our experience with 16 organ donors who died as a result of acute methanol intoxication in 10 Spanish hospitals over the last 14 yr. ⋯ Methanol intoxication is not transferred from the donor to the recipient. The survival of the graft and kidney, heart and liver recipients using organs from donors who die because of methanol does not differ in the short- and long-term from the transplants performed with organs from donors who die from other causes.
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Clinical transplantation · Apr 1999
ReviewBronchoalveolar lavage in lung transplantation. State of the art.
Fiberoptic bronchoscopy with bronchoalveolar lavage (BAL) has become a crucial tool in the management of lung transplant recipients. Detection of pulmonary infectious pathogens by culture, cytology, and histology of BAL, protected brush specimens, and transbronchial biopsies (TBB) is highly effective. Morphologic and phenotypological analyses of BAL cells may be suggestive for certain complications after lung transplantation. ⋯ However, functional studies suggest an important role of activated, alloreactive and donor-specific T lymphocytes in the pathogenesis of acute and chronic lung rejection. Investigations of soluble components in BAL have given further insight into the immunologic processes after lung transplantation. In this overview, the characteristics of BAL after lung transplantation will be summarized, and its relevance for the detection of pulmonary complications will be discussed.