Molecular diagnosis of kidney transplant failure based on urine

In light of the organ shortage, there is a great responsibility to assess postmortal organs for which procurement has been consented and to increase the life span of transplanted organs. The former responsibility has moved many centers to accept extended criteria organs. The latter responsibility re...

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Veröffentlicht in:	American journal of transplantation 2020-05, Vol.20 (5), p.1410-1416
Hauptverfasser:	Wiesener, Antje, Knaup, Karl X., Büttner‐Herold, Maike, Dieterle, Anne, Stoeckert, Johanna, Riedl, Bernhard, Morath, Christian, Wald, Alexandra, Vondran, Florian, Braun, Felix, Schödel, Johannes, Schueler, Markus, Schiffer, Mario, Amann, Kerstin, Reis, André, Kraus, Cornelia, Wiesener, Michael S.
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Sprache:	eng
Schlagworte:	clinical research/practice Cysts Diagnosis DNA sequencing donors and donation: donor follow‐up genetics Graft Survival Humans Kidney kidney disease Kidney diseases Kidney Failure, Chronic - surgery Kidney transplantation Kidney Transplantation - adverse effects kidney transplantation/nephrology Kidney transplants Life span Medical diagnosis molecular biology: DNA Postoperative Complications Renal failure Tissue and Organ Procurement Tissue Donors translational research/science Transplants & implants
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creator	Wiesener, Antje Knaup, Karl X. Büttner‐Herold, Maike Dieterle, Anne Stoeckert, Johanna Riedl, Bernhard Morath, Christian Wald, Alexandra Vondran, Florian Braun, Felix Schödel, Johannes Schueler, Markus Schiffer, Mario Amann, Kerstin Reis, André Kraus, Cornelia Wiesener, Michael S.
description	In light of the organ shortage, there is a great responsibility to assess postmortal organs for which procurement has been consented and to increase the life span of transplanted organs. The former responsibility has moved many centers to accept extended criteria organs. The latter responsibility requires an exact diagnosis and, if possible, omission of the harmful influence on the transplant. We report the course of a kidney transplant that showed a steady decline of function over a decade, displaying numerous cysts of different sizes. Clinical workup excluded the most frequent causes of chronic transplant failure. The filed allocation documents mentioned the donor’s disease of oral‐facial‐digital syndrome, a rare ciliopathy, which can also affect the kidney. Molecular diagnosis was performed by culturing donor tubular cells from the recipient´s urine more than 10 years after transplantation. Next‐generation panel sequencing with DNA from tubular urinary cells revealed a novel truncating mutation in OFD1, which sufficiently explains the features of the kidney transplants, also found in the second kidney allograft. Despite this severe donor disease, lifesaving transplantation with good long‐term outcome was enabled for 5 recipients. More than a decade after deceased kidney transplantation, the donor disease and reason for progressive graft failure is clarified by molecular genetics of DNA from cultured tubular cells from the recipient´s urine.
doi_str_mv	10.1111/ajt.15738
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The former responsibility has moved many centers to accept extended criteria organs. The latter responsibility requires an exact diagnosis and, if possible, omission of the harmful influence on the transplant. We report the course of a kidney transplant that showed a steady decline of function over a decade, displaying numerous cysts of different sizes. Clinical workup excluded the most frequent causes of chronic transplant failure. The filed allocation documents mentioned the donor’s disease of oral‐facial‐digital syndrome, a rare ciliopathy, which can also affect the kidney. Molecular diagnosis was performed by culturing donor tubular cells from the recipient´s urine more than 10 years after transplantation. Next‐generation panel sequencing with DNA from tubular urinary cells revealed a novel truncating mutation in OFD1, which sufficiently explains the features of the kidney transplants, also found in the second kidney allograft. 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The former responsibility has moved many centers to accept extended criteria organs. The latter responsibility requires an exact diagnosis and, if possible, omission of the harmful influence on the transplant. We report the course of a kidney transplant that showed a steady decline of function over a decade, displaying numerous cysts of different sizes. Clinical workup excluded the most frequent causes of chronic transplant failure. The filed allocation documents mentioned the donor’s disease of oral‐facial‐digital syndrome, a rare ciliopathy, which can also affect the kidney. Molecular diagnosis was performed by culturing donor tubular cells from the recipient´s urine more than 10 years after transplantation. Next‐generation panel sequencing with DNA from tubular urinary cells revealed a novel truncating mutation in OFD1, which sufficiently explains the features of the kidney transplants, also found in the second kidney allograft. 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subjects	clinical research/practice Cysts Diagnosis DNA sequencing donors and donation: donor follow‐up genetics Graft Survival Humans Kidney kidney disease Kidney diseases Kidney Failure, Chronic - surgery Kidney transplantation Kidney Transplantation - adverse effects kidney transplantation/nephrology Kidney transplants Life span Medical diagnosis molecular biology: DNA Postoperative Complications Renal failure Tissue and Organ Procurement Tissue Donors translational research/science Transplants & implants
title	Molecular diagnosis of kidney transplant failure based on urine
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