We have reported previously that renal hemodynamic abnormalities exist in the prediabetic stage of type II diabetic rats. At this prediabetic stage these rats have hyperinsulinemia, insulin resistance and metabolic syndrome. It is well known that insulin resistance is frequently associated with renal abnormalities, but the mechanism underlying this association has remained speculative. Although insulin is known to modify renal hemodynamics, little is known about the roles of insulin receptor substrates (IRS1, IRS2) in the renal actions of insulin. To address this issue, the effects of insulin on renal function and renal hemodynamics were investigated in C57BL/6 (WT: wild type), insulin receptor substrate 1- knockout (IRS1–/–), and IRS2-knockout (IRS2–/–) mice. IRS2–/–mice had elevated glucose level as expected. 24-h urine collections and serum creatinine revealed that creatinine clearance did not significantly differ between these groups. Albuminuria was found in IRS1–/–and IRS2–/–groups. We examined the effects on the IRS during the administration of Losartan, which is widely used for diabetic nephropathy. After the administration of Losartan the IRS displayed improved renal hemodynamics. Moreover, the subjects were also given Pioglitazone, which improves insulin resistance. Losartan significantly reduced albuminuria in both groups. Pioglitazone also showed similar results. We assessed the autoregulatory responses of the total renal blood flow (RBF), the superficial (SBF) and the deep renal cortical blood flow (DBF) with stepwise reductions of renal perfusion pressure (RPP), which was induced by a manual clamp on the abdominal aorta. During the clamp induced reductions of the RPP by 10 to 20mm HG, RBF, SBF and the DBF fell significantly more in the IRS1 and IRS2 than in the WT mice. Furthermore micropuncture studies showded that compared to the WT tubuloglomerular feedback (TGF) responses of the stop flow pressure (Psf) were reduced in both the IRS1 -/- and IRS2 -/-. The results of the IRS1 and IRS2 mice displayed the pressence of hemodynamic abnormalities. Losartan and Pioglitazone have shown the potential to improve these abnormalities. In conclusion the results indicate that IRS plays a major role in the stimulation of renal functions and renal hemodynamics in type type II diabetes.
We have reported previously that renal hemodynamic abnormalities exist in the prediabetic stage of type II diabetic rats. At this stage these rats have insulin resistance. It is well known that insulin resistance is frequently associated with renal abnormalities, but the mechanism underlying this association has remained speculative. Although insulin is known to modify renal hemodynamics, little is known about the roles of insulin receptor substrates (IRS1, IRS2) in the renal actions of insulin. To address this issue, we investigated in wild type (WT), IRS1‐deficient (IRS1‐/‐), and IRS2‐deficient (IRS2‐/‐) mice. IRS2‐/‐ mice had elevated blood pressure and glucose level as expected. 24‐h urine collections revealed that creatinine clearance did not significantly differ between these groups. Fractional excretion of sodium was significantly lower in IRS1‐/‐ and IRS2‐/‐ compared to WT mice. Albuminuria was found in IRS1‐/‐ and IRS2‐/‐ groups. We assessed autoregulatory responses of total renal blood flow (RBF), and of superficial (SBF) and deep renal cortical blood flow (DBF) to stepwise reductions of renal perfusion pressure (RPP) induced by a manual clamp on the abdominal aorta. RBF, SBF and DBF fell significantly more in IRS1‐/‐ and IRS2‐/‐ than in WT mice. These results indicate that IRS plays a major role in the stimulation of renal functions and renal hemodynamics in type II diabetes.
Comparison of bioelectrical impedance analysis in healthy pregnant women and patient on hemodialysis
Pregnant woman undergoing dialysis face challenges such as miscarriage and stillbirth when carrying a baby to term. A complication of prenatal care is the difficulty in properly managing body fluids. We compare fluid volumes between healthy pregnant women and two pregnant women undergoing dialysis using bioelectrical impedance analysis (BIA). Data of 52 healthy pregnant women at various stages of their pregnancy were analyzed for the study. We included these many cases so as to collect sufficient data to compare them with our two cases of women undergoing dialysis who successfully completed their term deliveries. Fluid volumes were measured every week before and after dialysis using BIA. We also measured the levels of human atrial natriuretic peptide after dialysis. During dialysis, the dry weight (DW) of pregnant patients is altered based on the state of the amniotic fluid and fetus. However, evaluating body fluid and DW using radiography is difficult in pregnant women. BIA offers a mostly harmless alternative for such measurements. Using BIA, we were able to easily measure body fluid volume and change the setting of DW for dialysis. Thus, our successful example can serve as a reference for future cases of pregnant women undergoing dialysis. Nevertheless, given that the state of the fetus and amniotic fluid affect the results of dialysis, it is important that we use not only BIA but also a comprehensive evaluation to determine dialysis settings in pregnant women.
A Case of Chronic Calcium Oxalate Nephropathy due to Short Bowel Syndrome and Cholecystectomy
Background: Oxalate nephropathy is a rare disease. Especially chronic oxalate nephropathy still has many unknown aspects as compared to acute oxalate nephropathy with relatively well-known causality. Case Presentation: The patient was a 70-year-old woman who had a history of small bowel resection 25 years before, cholecystectomy 10 years before, and renal stones (calcium oxalate stones) 7 years before. She had been suffering from chronic diarrhea and had been treated by a local physician. The patient was found to have renal dysfunction (creatinine 3.09 mg/dL, eGFR 12.3 mL/min/1.73 m2, hemoglobin 7.8 g/dL) and was referred to our department. The patient was admitted to our hospital for further investigation. Renal ultrasound showed hepatorenal echo contrast in an opposite manner and clear contrast between the renal cortex and medullary pyramid. Renal biopsy was performed, and histological examination showed tubulointerstitial disorder due to deposition of calcium oxalate. Daily urinary excretion of calcium oxalate was significantly increased. The patient was encouraged to drink water and administered vitamin B6, citric acid, K and Na hydrate. Thereafter, her symptoms improved. Conclusion: Case reports of chronic oxalate neuropathy are rare in the literature, and its underlying mechanism has not been understood. Our patient had a history of small bowel resection and cholecystectomy. We considered that her short bowel syndrome had influenced the development of calcium oxalate nephropathy.
We report on how adefovir-induced membranous nephropathy related to hepatitis B was caused by lamivudine-resistant virus after a liver transplant due to Byler's disease. In 1980, a 2-year-old girl was diagnosed with Byler's disease (familial progressive familial intrahepatic cholestasis). In 1994 (at the age of 14 years) she underwent a liver transplant with her father as the donor. In 2003, hematuria and proteinuria appeared and shortly afterwards her renal function rapidly decreased. A renal biopsy showed atypical membranous nephropathy, which suggested the possibility of a secondary renal disease. The patient had suffered from chronic hepatitis type B (HBV). In 2001 she was administered lamivudine which is an antiviral drug; it was around this time that hematuria and proteinuria appeared as well as an increase of the virus titer. We believed the HBV-related membranous nephropathy was the cause of the virus titer and the renal histology. We concluded that the patient's condition had become resistant to lamivudine medication. Therefore, in February 2004 we administered adefovir, a new drug at the time, to treat the HBV. In April 2004, the HB virus titer decreased and the hematuria and proteinuria decreased. The patient's renal function also showed improvement. HBV-associated nephropathy is caused by HBV antigen deposition in the glomeruli. Generally the first choice of treatment is antivirus therapy. There are many reports demonstrating that administration of interferon and lamivudine are effective; however, there are few reports that show adefovir as an effective treatment for HBV-associated nephropathy.
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