TY - JOUR
T1 - Acute tubular necrosis after renal allograft segmental infarction
T2 - The nephrotoxicity of necrotic material
AU - Ardalan, Mohammad Reza
AU - Nasri, Hamid
AU - Ghabili, Kamyar
AU - Shoja, Mohammadali Mohajel
PY - 2008/12
Y1 - 2008/12
N2 - Objectives: Renal allograft dysfunction can be caused by renal vessel thrombosis, acute tubular necrosis, hyper acute or acute rejection, nephrotoxicity induced by cyclosporine or tacrolimus, thrombotic microangiopathy, or urinary tract obstruction. Materials and Methods: We describe a renal transplant recipient in whom oliguria developed during the first week after transplant, although his early renal allograft function was good. Results: A Doppler ultrasonographic study revealed a lack of perfusion in the lower pole of the allograft. A perfusion defect was noted in the lower pole that was supplied by a polar artery, which had been damaged during engraftment. Light microscopy disclosed tubular cell necrosis without evidence of vascular or humoral rejection. Conclusions: We suggest that toxic molecules such as tumor necrosis factor-alpha released from a segmental infarcted area can induce tubular cell damage and necrosis leading to renal allograft dysfunction.
AB - Objectives: Renal allograft dysfunction can be caused by renal vessel thrombosis, acute tubular necrosis, hyper acute or acute rejection, nephrotoxicity induced by cyclosporine or tacrolimus, thrombotic microangiopathy, or urinary tract obstruction. Materials and Methods: We describe a renal transplant recipient in whom oliguria developed during the first week after transplant, although his early renal allograft function was good. Results: A Doppler ultrasonographic study revealed a lack of perfusion in the lower pole of the allograft. A perfusion defect was noted in the lower pole that was supplied by a polar artery, which had been damaged during engraftment. Light microscopy disclosed tubular cell necrosis without evidence of vascular or humoral rejection. Conclusions: We suggest that toxic molecules such as tumor necrosis factor-alpha released from a segmental infarcted area can induce tubular cell damage and necrosis leading to renal allograft dysfunction.
KW - Infarction
KW - Kidney
KW - Rejection
KW - Transplant
KW - Tubular necrosis
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M3 - Article
C2 - 19338495
AN - SCOPUS:65249171311
SN - 1304-0855
VL - 6
SP - 312
EP - 314
JO - Experimental and Clinical Transplantation
JF - Experimental and Clinical Transplantation
IS - 4
ER -