Abstract. Renal transplant recipients are at risk of developing bone abnormalities that result in bone loss and bone fractures. These are related to underlying renal osteodystrophy, hypophosphatemia, and immunosuppressive treatment regimen. Although bisphosphonates are useful in ameliorating bone mineral loss after transplantation, it is not known whether their use in renal transplant patients leads to excessive suppression of bone turnover and increased incidence of adynamic bone disease. A randomized, prospective, controlled, clinical trial was conducted using the bisphosphonate pamidronate intravenously in patients with new renal transplants. Treatment subjects (PAM) received pamidronate with vitamin D and calcium at baseline and at months 1, 2, 3, and 6. Control (CON) subjects received vitamin D and calcium only. During months 6 to 12, the subjects were observed without pamidronate treatment. Biochemical parameters of bone turnover were obtained monthly and, bone mineral density (BMD) was obtained at baseline and months 6 and 12. Bone biopsies for mineralized bone histology were obtained at baseline and at 6 mo in a subgroup of subjects who underwent scheduled living donor transplantation. PAM preserved bone mass at 6 and 12 mo as measured by bone densitometry and histomorphometry. CON had decreased vertebral BMD at 6 and 12 mo (4.8 Ϯ 0.08 and 6.1 Ϯ 0.09%, respectively). Biochemical parameters of bone turnover were similar in both groups at 6 and 12 mo. Bone histology revealed low turnover bone disease in 50% of the patients at baseline. At 6 mo, all of PAM had adynamic bone disease, whereas 50% of CON continued to have or developed decreased bone turnover. Pamidronate preserved vertebral BMD during treatment and 6 mo after cessation of treatment. Pamidronate treatment was associated with development of adynamic bone histology. Whether an improved BMD with adynamic bone histology is useful in maintaining long-term bone health in renal transplant recipients requires further study.
Ischemia-reperfusion injury in CAD kidney transplants is associated with a duration-dependent increase in tubular cell apoptosis, mediated at least in part by activation of mitochondrial pathways.
The incidence of End Stage Renal Disease (ESRD) is approximately 50% higher in men than women. In order to understand the molecular basis of this gender disparity, we examined sex specific gene expression patterns in control and diseased, human and murine kidney samples. Using the Affymetrix platform we performed comprehensive gene expression analysis on 42 microdissected human kidney samples (glomeruli and tubules). We identified 67 genes with gender biased expression in healthy human kidneys and 24 transcripts in diseased male and female human kidneys. Similar analysis performed in mice using male and female control and doxorubicin induced nephrotic syndrome kidneys identified significantly larger number of differentially expressed transcripts. The majority of genes showing gender biased expression either in diseased human and murine kidneys were different from those differentially expressed in healthy kidneys. Only 9 sexually dimorphic transcripts were common to healthy human and murine kidneys and five showed differential regulation in both human and murine diseased kidneys. In humans, sex biased genes showed statistical enrichment only to sex chromosomes while in mice they were enriched to sex chromosomes and various autosomes. Thus we present a comprehensive analysis of gender biased genes in the kidney. We show that sexually dimorphic genes in the kidney show species specific regulation. Our results also indicate that male and female kidneys respond differently to injury. These studies could provide the basis for the development of new treatment strategies for men and women with kidney disease.
Recurrence of focal segmental glomerulosclerosis (FSGS) in pediatric renal allografts is associated with a poor graft survival. This study reports on plasmapheresis for the treatment of recurrent FSGS in pediatric renal transplant recipients. The records of 100 consecutive pediatric (age <21 years) renal transplants were reviewed. Twenty patients had FSGS as the cause of renal failure. Eight of these (40%) had a recurrence (proteinuria >1 g/m2 per day) within 1 month of transplantation. Five of six patients treated with plasmapheresis went into remission (<0.2 g/m2 per day), receiving a total of 42+/-26 (12-73) sessions, with the mean number of sessions required to achieve a remission being 24+/-17 (8-51). One patient had a second recurrence 1 year following cessation of plasmapheresis and responded to another course of plasmapheresis. The 1 patient who did not respond to plasmapheresis had a delay in initiation of therapy of 42 days. Plasmapheresis initiated within 48 h of recurrence resulted in earlier remissions and improved graft survival among our patients. Plasmapheresis appears to be effective in treating recurrent FSGS following kidney transplantation and should be started as soon as possible. The number of plasmapheresis sessions used to achieve remission should be adjusted according to response rather than adhering to a fixed protocol.
Plasmapheresis (PP) and intravenous immunoglobulin (IVIg) remove donor-specific antibodies, a cause of acute humoral rejection (AHR). We describe the use of PP and IVIg as rescue therapy for AHR. The records of 143 renal transplants performed between October 1, 2000 and April 1, 2002 were reviewed. Patients who underwent PP and IVIg therapy for AHR were identified. The data reviewed included age, sex, source of transplant, number of human leukocyte antigen mismatches, transplant number, number of PP and IVIg treatments, dose of IVIg, time of AHR, serum creatinine (SCr) level at AHR, SCr level after PP and IVIg at 3 months, days to achieve 30% decline in SCr, and graft survival. Immunosuppression included basiliximab induction, tacrolimus, and prednisone (+/- sirolimus or mycophenolate mofetil [CellCept, Roche Pharmaceutical, Nutley, NJ]). PP was followed by IVIg infusion. Nine patients were treated for AHR with PP and IVIg. All nine patients demonstrated biopsy-proven AHR. One graft was lost. Mean 3-month and 1-year SCr levels were 1.9 and 1.8, respectively, in the remaining eight patients. AHR in renal transplantation can be effectively treated with PP and IVIg.
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