H. J. Baluarte

Response to measles-mumps-rubella vaccine in children on dialysis

Ten children receiving maintenance dialysis were immunized with the standard dose of measles-mumps-rubella vacine between 15 and 33 months of age. Immune responses to vaccination were determined using commercially available enzyme-linked immunosorbent assays for measles, mumps, and rubella viruses. Eight children responded to measles vaccine, 5 to mumps vaccine, 8 to rubella vaccine, and only 3 children to all three vaccines, compared with a seroconversion rate of over 90% to all three vaccines in healthy children (P<0.0001). We contend that the relatively poor immunocompetence of our dialysis patients explains their less than optimal vaccine response and suggest that children vaccinated while undergoing dialysis be tested to confirm serological evidence of immunity.

Effects of growth hormone administration in pediatric renal allograft recipients

The efficacy of recombinant human growth hormone (rGH) was assessed in five pediatric allograft recipients with severe growth retardation despite successful renal transplants. rGH 0.05 mg/kg per dose was given six times weekly by subcutaneous injection to five prepubertal children (mean age 15.2±2.0 years) all of whom had bone ages less than or equal to 12 years (10.0±1.4 years), a height standard deviation score of less than −2.5 (−4.9±1.5), no evidence of catch-up growth, a calculated glomerular filtration rate (GFR) of more than 40ml/min per 1.73 m2 (51±6.8 ml/min per 1.73 m2), and stable renal function on alternate-day prednisone (16.7±2.6 mg/m2 per dose). Growth hormone profiles were abnormal in all children before treatment. rGH administration led to a significant increase in both growth rate (3.5±1.6 cm/year pre therapy, 8.5±1.4 cm/year post therapy,P<0.001) and percentage of expected growth velocity for bone age (67±31% pre therapy, 163±27% post therapy,P<0.001) with evidence of true catch-up growth. During the study period, three children had the appearance of secondary sexual characteristics, and one had premature advancement of his bone age. GFR decreased in three children, and in one rGH was discontinued due to a steady rise in serum creatinine. No significant changes were seen in serum calcium, phosphorus, cholesterol, triglycerides, glucose, or thyroid function, although a significant increase in alkaline phosphatase was found. In summary, growth-retarded pediatric renal allograft recipients may have abnormal endogenous GH production and respond favorably to rGH. The potential risk of deterioration in renal function due to rGH-induced hyperfiltration must be investigated.

Growth of children following the initiation of dialysis: a comparison of three dialysis modalities

Maintenance dialysis usually serves as an interim treatment for children with end-stage renal disease (ESRD) until transplantation can take place. Some children, however, may require dialytic support for an extended period of time. Although dialysis improves some of the problems associated with growth failure in ESRD (acidosis, uremia, calcium, and phosphorus imbalance), many children continue to grow poorly. Therefore, three different dialysis modalities, continuous ambulatory peritoneal dialysis (CAPD), cycler/intermittent peritoneal dialysis (CPD), and hemodialysis (HD), were evaluated with regard to their effects on the growth of children initiating dialysis and remaining on that modality for 6–12 months. Growth was best for children undergoing CAPD when compared with the other two modalities with regard to the following growth parameters: incremental height standard deviation score for chronological age [−0.55±2.06 vs. −1.69±1.22 for CPD (P<0.05) and −1.80±1.13 for HD (P<0.05)]; incremental height standard deviation score for bone age [−1.68±1.71 vs. −2.45±1.43 for CPD (P=NS) and −2.03±1.28 for HD (P=NS)]; change in height standard deviation score during the dialysis period [0.00±0.67 vs. −0.15±.29 for CPD (P=NS) and −0.23±.23 for HD (P=NS)]. The reasons why growth appears to be best in children receiving CAPD may be related to its metabolic benefits: lower levels of uremia, as reflected by the blood urea nitrogen [50±12 vs. 69±16 mg/dl for CPD (P<0.5) and 89±17 for HD (P<0.05)], improved metabolic acidosis, as indicated by a higher serum bicarbonate concentration [24±2 mEq/l vs. 22±2 for CPD (P<0.05) and 21±2 for HD (P<0.05)]. In addition, children undergoing CAPD receive significant supplemental calories from the glucose absorbed during dialysis. CAPD, and possibly, other types of prolonged-dwell daily peritoneal dialysis appear to be most beneficial for growth, which may be of particular importance for the smaller child undergoing dialysis while awaiting transplantation.

Calcineurin activity in children with renal transplants receiving cyclosporine.

BACKGROUND The major immunosuppressive effect of cyclosporine is through the inhibition of calcineurin, an enzyme important in the activation of T lymphocytes. In children, neither calcineurin activity nor its inhibition by cyclosporine (CsA) has been investigated. METHODS Calcineurin activity, was measured in stable pediatric renal transplant patients, with healthy children used as controls. Whole blood CsA concentrations were measured by monoclonal radioimmunoassay. Simultaneous calcineurin and CsA levels were measured before and 1, 2, 3.5, 5, and 12 hr after their routine morning CsA dose. RESULTS Calcineurin activity was approximately 50% inhibited at trough blood concentrations (148 microg/L); moreover, inhibition increased as CsA concentrations rose and declined as concentrations fell. Maximum calcineurin inhibition was about 70% at concentrations of about 431 microg/L. Linear regression analysis revealed a significant correlation between mean CsA blood concentration and the mean degree of inhibition of calcineurin activity (P=0.005, one-tailed). CONCLUSION We conclude that inhibition of calcineurin activity by CsA in pediatric renal transplant recipients correlates with CsA blood concentrations.

Pharmacokinetics of cyclosporine after renal transplant in children.

The pharmacokinetics of cyclosporine and the relationship between blood levels and average drug concentration were prospectively evaluated in 18 children 1 month after renal transplantation. All children had normal renal function and no hepatic or gastrointestinal dysfunction. Cyclosporine was administered after an overnight fast, and serial blood samples were drawn over a 24‐hour period. Analysis of cyclosporine levels was performed by means of monoclonal radio immunoassay on whole blood. Children were divided into three age groups for comparison: 2–5 years, 5–10 years, and >10 years. There were no differences between age groups in serum protein, serum lipids, or hemoglobin levels, or in the pharmacokinetic parameters of cyclosporine except as follows: significant differences were noted in cyclosporine dose based on body weight, apparent steady‐state volume of distribution, and apparent blood clearance, with the youngest children (2–5) requiring higher doses, a relative greater distribution, and exhibiting more rapid drug clearance than those > 10 years of age. In addition, we observed diurnal variation in trough levels, with morning levels (0 hr) significantly higher than those obtained in the evening (12 hours after administration of cyclosporine). Trough levels demonstrated a fair correlation with area under the concentration‐time curve (AUC) and average concentration (Cav), but an abbreviated kinetic profile using cyclosporine levels 1 and 3.5 hours after administration accurately predicted AUC.

Treatment of steroid-resistant post-transplant nephrotic syndrome with cyclophosphamide in a child with congenital nephrotic syndrome

A child with congenital nephrotic syndrome underwent renal transplantation, was treated for acute rejection, and then developed nephrotic syndrome and renal failure. He was felt to have minimal change disease on allograft biopsy, but failed to respond to therapy with corticosteroids. Cyclophosphamide was substituted for cyclosporine and rapidly induced a complete remission of his nephrotic syndrome. We feel that this case not only represents an important example of a useful therapeutic approach to the child with congenital nephrotic syndrome who develops nephrotic syndrome post transplantation, and also raises questions concerning the pathogenesis of congenital nephrotic syndrome.

Growth after conversion to alternate-day corticosteroids in children with renal transplants: a single-center study.

During the 1980s all children with growth potential and stable/adequate renal function at 6–9 months after kidney transplantation underwent conversion to alternate-day corticosteroids in an attempt to maximize growth. Conversion was attempted in 79 of 160 children who received allografts during this decade and was considered successful if they remained on alternate-day prednisone for more than 1 year, with a calculated creatinine clearance of at least 75% of the pre-conversion baseline value. Conversion succeeded in 55 children but failed in 24. Growth was markedly improved among those successfully converted when compared with the failure group, as measured by standard deviation score for growth velocity based on chronological age (+0.94±1.58 vs. −0.86±1.53,P<0.001) and bone age (+0.49±0.61 vs. −1.24±1.47,P<0.001). The improved growth among the successfully converted patients is believed to have been related to the combined effects of lower corticosteroid dose (0.36±0.16 vs. 0.48±0.21 mg/kg per day,P<0.02) and better renal function (calculated creatinine clearance 87±32 vs. 47±21 ml/min per 1.73 m2,P<0.001) at 1 year post conversion. Two factors appeared to improve the likelihood of successful conversion: the use of cyclosporine and receiving a live-related rather than cadaver transplant. Cyclosporine was associated with improvement in the overall rate for successful conversion in all recipients, from 59% to 83% (P<0.05). Recipients of allografts from live-related donors underwent successful conversion in 90% of cases compared with 58% receiving cadaver allografts (P<0.05). Successful conversion to alternate-day corticosteroid therapy is of significant benefit for linear growth, but may be associated with a risk of rejection and loss of renal function. The risk is small in live-related recipients and has been made safer for cadaver recipients with the introduction of cyclosporine.

Response to the varicella vaccine in children with nephrotic syndrome

Varicella vaccine was administered to seven children with corticosteroid-sensitive nephrotic syndrome. Immunization was not associated with any significant reactions or with increased frequency of relapse. The antibody response was, however, variable and a second dose was necessary before seroconversion was achieved in four patients. The findings indicate that immunization with varicella vaccine is safe in children with nephrotic syndrome in remission, but that a two-dose vaccine schedule should be considered.

Natural history and etiology of hyperuricemia following pediatric renal transplantation

A retrospective review was conducted to determine the incidence, etiology, natural history and complications of hyperuricemia after pediatric renal transplantation. Of 81 active transplant recipients aged 10.1±4.8 (mean±SD) years being followed by St. Christopers Hospital for Children, 57 (70%) were males and 59 (73%) Caucasian. Their immunosuppression consisted of azathioprine, cyclosporine A and prednisone. Mean serum uric acid concentrations peaked at 6 months post transplantation (6.2±2.6 mg/dl), when 39% of the patients had hyperuricemia and 60% were receiving diuretics, and decreased thereafter. At 30 months, 23% of the patients had hyperuricemia and 17% required diuretics. When we compared 42 normouricemic (group A) with 24 hyperuricemic (group B) patients at 18 months post transplantation, we found that patients in group B were older (11.6±4.2 vs. 8.6±5.2 years,P=0.01), had worse renal function (77±25 vs. 96±36 ml/min per 1.73 m2,P=0.03) and required diuretics more frequently (63% vs. 21%,P=0.001), but had identical blood levels of cyclosporine A (82±28 vs. 84±35 ng/ml,P=0.78). A family history of gout did not affect the prevalence of hyperuricemia after transplantation. Asymptomatic hyperuricemia is common following pediatric renal transplantation and is more likely attributable to reduced renal function and diuretic therapy than to the known hyperuricemic effect of cyclosporine A. Of these variables, only diuretic therapy is readily controllable and should be closely regulated following pediatric renal transplantation.

Pleural effusion complicating acute peritoneal dialysis in hemolytic uremic syndrome.

Abstract. Hemolytic uremic syndrome (HUS) is a leading cause of acute renal failure (ARF) in children, and one for which treatment with peritoneal dialysis (PD) is often necessary. Between January 1982 and December 1996, 176 children received PD for ARF at St. Christopher’s Hospital for Children; 34 (19%) of whom had HUS. Of these 34, 7 (20%) developed pleural effusions (PE) while receiving PD, whereas none of the remaining 142 children with other causes of ARF did so. The mean age of the 7 affected children was 5.2 (range 0.4–17) years; none had heart failure or nephrotic syndrome, nor had any of them undergone thoracic surgery. PE were diagnosed by chest radiograph at an interval of 2 (range 1–3) days after starting PD. Thereafter, 4 (57%) patients were successfully maintained on a modified PD prescription; 2 others were converted to hemodialysis and 1 to continuous venovenous hemodiafiltration. Although PE are a known complication of PD, none of the patients so treated for non-HUS related ARF developed them. Whether they represent a purely mechanical complication of PD, or are in some way attributable to HUS itself, is not entirely clear. Regardless, when children with HUS require PD, physicians should monitor for the development of this potential complication to minimize the risk of serious respiratory compromise.