BTD treatment results in less damage from endotoxin shock and increased life span in AKI goats. These results suggest that BTD may be a useful component of bioartificial kidneys and should be considered in the next generation of renal replacement therapies.
Given the advances in medical technologies related to kidney transplantation, the post-transplant graft survival rate and quality of life have improved dramatically. Nevertheless, post-transplant mortality rate still remains high as compared to the general population due to the development of cardiovascular events. It has recently been widely recognized that chronic kidney disease-mineral and bone disorders (CKD-MBD) significantly contribute to such poor prognosis at least in part. In the majority of kidney recipients, abnormal serum parameters for mineral and bone disorder (MBD), such as phosphorus, calcium, 1,25-dihydroxyvitamin D, parathyroid hormone and fibroblast growth factor 23, gradually return toward acceptable levels following the re-establishment of kidney function after transplantation; however, some irreversible abnormalities, developed as the result of long-term dialysis, persist, require treatment, or even progress after kidney transplantation. Thus, better management of CKD-MBD during pre-dialysis and dialysis period as well as after kidney transplantation is highly appreciated.
A 6-month observational study was conducted in 61 patients (33 men and 28 women, mean age 54.8 Ϯ 12.4 years) treated with cinacalcet in whom parathyroid intervention was indicated. Thirty-seven patients had baseline intact parathyroid hormone (iPTH) levels of >500 pg/mL, but only five still had levels this high after 6-month cinacalcet therapy. No patients had phosphorus (P), calcium (Ca), or iPTH levels within the target range at baseline, but six patients (9.8%) reached all three target ranges after treatment. The stratum with many patients who had 2-4 enlarged parathyroid glands shifted toward the low PTH groups (iPTH < 300 pg/mL) with treatment. There was less of a tendency for patients with more enlarged glands, that is, 10 mm or larger at baseline, to have a higher PTH level after cinacalcet treatment. There was no significant difference in the total volume of parathyroid glands after treatment, since some glands enlarged while others shrank. These findings indicate cinacalcet to be a potentially useful treatment. Our results suggest that 80% of cases indicated for parathyroid intervention could avoid such interventional therapies with cinacalcet administration. However, the variability in the gland-shrinking effect of cinacalcet on parathyroid glands merits further study.
Background/Aims:TSPAN8 encoding tetraspanin-8 was identified as a candidate gene for immunoglobulin A nephropathy (IgAN) by a genome-wide association study using microsatellites in the Japanese population. Tetraspanin-8 is a cell surface protein that contributes to the migration and invasion of epithelial cells. Methods: We performed immunohistochemistry for tetraspanin-8 on human renal biopsy specimens associated with IgAN, antineutrophil cytoplasmic antibody-associated nephropathy and interstitial nephritis, as well as normal renal tissue. Furthermore, to study the potential function of tetraspanin-8, we performed cell migration and invasion assays using human renal tubule cells transfected with tetraspanin-8. Results: Tetraspanin-8 was often expressed in vascular smooth muscle cells and occasionally in tubule cells in normal kidney. In the kidneys of all types of nephropathy, tetraspanin-8 staining in the arteries was unaffected, but that in the tubules was enhanced. The degree of tubular staining negatively correlated with the estimated glomerular filtration rate, independently of the type of nephropathy. Tetraspanin-8-expressing tubule cells were found predominantly in distal and collecting tubules, identified by cytokeratin 7 or aquaporin 2 staining. In vitro studies using cultured tubule cells revealed that tetraspanin-8 promoted migration by 2.7-fold without laminin, by 2.8-fold with laminin and invasion into Matrigel by 3.5-fold, suggesting that enhanced tetraspanin-8 may be involved in the repair of tubules. Conclusion: The obtained findings indicate that tetraspanin-8 expression is enhanced in injured distal tubules, which may be involved in the repair of tubules by facilitating migration and invasion.
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