Analysis of patients with inherited hypokalaemic alkalosis resulting from salt-wasting has proved fertile ground for identification of essential elements of renal salt homeostasis and blood-pressure regulation. We now demonstrate linkage of this phenotype to a segment of chromosome 1 containing the gene encoding a renal chloride channel, CLCNKB. Examination of this gene reveals loss-of-function mutations that impair renal chloride reabsorption in the thick ascending limb of Henle's loop. Mutations in seventeen kindreds have been identified, and they include large deletions and nonsense and missense mutations. Some of the deletions are shown to have arisen by unequal crossing over between CLCNKB and the nearby related gene, CLCNKA. Patients who harbour CLCNKB mutations are characterized by hypokalaemic alkalosis with salt-wasting, low blood pressure, normal magnesium and hyper- or normocalciuria; they define a distinct subset of patients with Bartter's syndrome in whom nephrocalcinosis is absent. These findings demonstrate the critical role of CLCNKB in renal salt reabsorption and blood-pressure homeostasis, and demonstrate the potential role of specific CLCNKB antagonists as diuretic antihypertensive agents.
Renal transplantation is the therapy of choice for children with end-stage renal disease. Despite excellent patient survival, long-term graft survival is poor, especially in the African-American (AA) population. This article addresses non-compliance as a major cause of late-term graft loss in the pediatric population. Between July 1995 and September 2002, a total of 50 pediatric kidney transplants were performed at our institution. We have analyzed data for 44 of these kidney transplants. Twelve recipients were AA, 14 Caucasian (C) and 18 Hispanic (H). The remaining six patients of different racial origin were not included in this analysis. The mean age of the recipients was 10.9 yr (range 1.7-17.8). Thirty-one were cadaveric and 13 were living donor transplants. We analyzed creatinine level and graft and patient survival at 1, 3 and 5 yr post-transplant. Compliance was evaluated based on trends in cyclosporine levels, attendance to clinic visits, individual interviews and unexplained late graft dysfunction. One- and 3-yr patient survival rates were 100% for all racial groups, except the 3-yr patient survival rate for C, which was 86%. One and 3-yr graft survival rates for AA, C and H were 92 and 67%, 86 and 79% and 100 and 100%, respectively. However, at 5 yr, we found that AA recipients had a significantly higher rate of graft loss when compared to both H and C recipients (42 vs. 95 vs. 71%, respectively). Non-compliance was the main factor, accounting for 71% of cases of late graft loss. In conclusion, non-compliance is a problem of great importance in the pediatric transplant population, particularly in AA recipients, where it plays a major role in late-term graft loss.
In pediatric kidney transplantation, steroid induced growth retardation and cushingoid features are of particular concern. In children, gradual steroid withdrawal late after kidney transplantation increases the risk of rejection. In this pilot study, we investigated the outcome of pediatric renal transplantation with an early steroid withdrawal protocol. This is a retrospective case-control study of pediatric renal transplants with age-matched historical control. Groups were comparable in terms of HLA matching, donor type and graft ischemia time. In the steroid withdrawal group (SWG, n = 13), induction therapy included mycophenolate mofetil (MMF) and a 5-day course of steroids with Thymoglobulin in 11 and basiliximab in two other patients. In the steroid group (SG, n = 13), in addition to steroids, four patients were given basiliximab, eight were given Thymoglobulin, and one OKT3. Maintenance therapy included tacrolimus (SWG n = 11, SG n = 3) or cyclosporine (SWG n = 2, SG n = 10). Azathioprine was given to all the patients in the SG, except the last two patients of this series who were prescribed MMF. MMF was given to all in the SWG. Patient and graft survival rates were 100% in both groups. In the SWG, no acute rejection episode was detected. In the steroid group, three patients (25%) presented with an acute rejection episode. All but one patient in either group showed immediate graft function. Patients in the steroid-withdrawal group exhibited a significantly higher creatinine clearance at 6 and 12 months post-transplant (95.8 +/- 23.3 vs. 71.3 +/- 21.9, p = 0.03; and 91.3 +/- 21.6 vs. 69.6 +/- 28.6, p = 0.04). In the SWG delta BMI was significantly lower and delta height Z score was significantly higher, and we observed significantly less hyperlipidemia, body disfigurement, and need for anti-hypertensive medication. Early steroid withdrawal in pediatric renal transplant recipients is efficacious and safe and does not increase risk of rejection, preserving optimal growth and renal function, and reducing cardiovascular risk factors.
The newborn infant is in a state of renal insufficiency with a glomerular filtration rate (GFR) as low as 20 ml/min per 1.73 m2 at term, and 10 ml/min per 1.73 m2 at 28 weeks of gestation. While the immature "insufficient" kidney can cope with most of the normal demands, its reserve is limited, and often overwhelmed by commonly occurring neonatal stresses. Various vasoactive systems such as the renin-angiotensin system, intrarenal adenosine, the prostaglandins and the atrial natriuretic peptide, are hyperactive in the neonatal period. Some of these systems appear crucial for the maintenance of GFR. Overstimulation of both angiotensin II and adenosine by an hypoxaemic stress can further impair the GFR, eventually leading to established renal failure. Inhibition of angiotensin II formation by the administration of angiotensin converting enzyme inhibitors can, on the other hand, also lead to renal failure. Prevention of these renal risks requires a precise knowledge of the newborn kidney physiology, physiopathology and pharmacology.
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