AI Article Synopsis
- PH type 2 results from low GRHPR enzyme activity, which can lead to end-stage renal disease (ESRD) and systemic oxalosis.
- An Iranian pediatric patient diagnosed at age five underwent isolated kidney transplantation at nine due to early ESRD caused by recurrent calcium oxalate stones and elevated oxalate levels.
- Post-transplant complications included increased serum creatinine and renal tubular obstruction, ultimately leading to graft nephrectomy, suggesting that a combined liver-kidney transplant might be a better option for similar patients with PH2.
Article Abstract
PH type 2 is caused by decreased activity of GRHPR enzyme that eventually leads to ESRD and systemic oxalosis. Here, we describe an Iranian pediatric patient with PH2 and early ESRD development who received recommended treatment by undergoing isolated kidney transplantation. Diagnosis criteria included a history of reoccurring calcium oxalate renal stones and elevated oxalate levels combined with liver biopsy and decreased enzymatic activity at age five. ESRD prompted transplantation and was performed at age nine. On Day 12 post-op, his serum creatinine level increased. A graft biopsy showed calcium oxalate crystal deposits in renal tubes with no evidence of acute rejection, which resolved with intensive hydration and administration of a potassium citrate solution. Subsequent biopsies confirmed results found in first biopsy. Despite the immunosuppressive therapy, his serum creatinine level increased again after 11 months. Renal tubular obstruction then led to graft nephrectomy. Pathological analysis of tissue confirmed findings of past biopsies. This was a very rare case of early ESRD in PH2 resulting in a failed isolated kidney transplant. As the GRHPR enzyme is predominantly expressed in liver, we suggest a combined liver-kidney transplant may be beneficial in patients with PH2.
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| http://dx.doi.org/10.1111/petr.12240 | DOI Listing |
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