Recombinant human growth hormone treatment of children following renal transplantation

Nine growth-retarded renal allograft recipients received either thrice weekly or daily subcutaneous recombinant human growth hormone (rhGH) for 6–30 months. The annualized growth velocity for the initial year of rhGH treatment was significantly greater than that of the preceding year (2.5±2.1 vs 5.7±2.7;P<0.0001). There was no advancement in bone age greater than the increase in chronological age, no significant increase in the mean fasting serum glucose or insulin levels, nor significant decrease in the calculated creatinine clearance following rhGH treatment. However, two patients experienced rejection episodes following rhGH treatment indicating the potiental adverse consequences of the treatment on allograft function. This will require further delineation in prospective controlled studies. The serum insulin-like growth factor-1 levels significantly increased at 6 months (P<0.009) and 12 months (P<0.002) following rhGH treatment compared with baseline values. These preliminary data indicate that rhGH treatment may be effective in improving the growth velocity of growth-retarded renal allograft recipients.     

Factors influencing the response to growth hormone in children with renal disease

The effects of age, height velocity over the preceding year, glomerular filtration rate (GFR) and prednisolone dose on growth response have been assessed by single and multiple linear regression analysis in 23 prepubertal children [age, mean (SD), 8.2 (2.5) years] with chronic renal failure (CRF) and 16 prepubertal children [12.1 (2.3) years] with renal transplants treated for 1 year with recombinant human growth hormone (rhGH), 30 U/m² per week. Height velocity [mean (SD), cm/year increased from 4.7 (1.3) to 9.7 (2.1) (P<0.0001) in the CRF group and 3.1 (1.6) to 7.3 (2.8) (P<0.0001) in the transplant group. In the CRF group, there was a correlation between age and height velocity, both in the pretreatment year (r=–0.755,P<0.0001) and during treatment (r=–0.421,P=0.045). There was no correlation between pretreatment height velocity or GFR and response to rhGH. In the transplanted children height velocity during the treatment year correlated with age (r=–0.647,P=0.007), prednisolone dose (r=–0.689,P=0.003), GFR (r=0.542,P=0.030) and pretreatment height velocity (r=0.655,P=0.006). Multiple regression analysis showed prednisolone dose and age to be the most important predictors of response.     

Parathyroid hormone levels in pubertal uremic adolescents treated with growth hormone

We have previously described severe hyperparathyroidism during the pubertal growth spurt in three uremic adolescents treated with recombinant human growth hormone (rhGH). Here we investigate the possible role of puberty in the genesis of hyperparathyroidism during rhGH treatment of a large cohort of patients. Data from 67 uremic patients treated with rhGH from five Italian pediatric nephrology centers were retrospectively recorded every 3 months starting 1 year before rhGH administration. The mean (±SD) rhGH treatment observation period was 19.9±5.9 months. The mean age at the start of rhGH treatment was 8.3±3.6 years. Of the 67 patients, 15 reached pubertal stage 2 during the 1st year of rhGH treatment and 12 of these 15 progressed to pubertal stage 3. The relative increase in parathyroid hormone (PTH) levels after rhGH initiation was greater in pubertal [1.95, 95% confidence interval (CI) 1.43–2.66] than in prepubertal patients (1.19, 95% CI 1.01–1.40). Increases in PTH levels were significantly different between the two groups (=1.64, 95% CI 1.16–3.19, P=0.007). Multiple regression analysis showed an inverse correlation between PTH and calcium levels and a positive correlation between PTH and pubertal stage 3. There was no correlation with phosphate levels and calcitriol dosage. In conclusion, these results suggest that in uremic adolescents treated with rhGH puberty may influence PTH levels.     

Growth hormone for children with chronic renal failure and on dialysis

We studied all children with CRF who received recombinant human growth hormone (rhGH) for more than a year (mean±SD duration of therapy 3.7±2.5 years) over an 11-year period. There were 32 children. Twenty-one children were conservatively managed, with a mean glomerular filtration rate (GFR) of 24±12 mL min^–1/1.73 m² at the start of rhGH. Their height standard deviation score improved from –2.5±1.4 to –2.1±0.7 at 1 year (P=0.3), –2.0±0.7 at 2 years (P=0.01), and –1.6±0.6 at 3 years (P=0.001). After that there was no improvement. Eleven children were on dialysis, six on haemodialysis (HD) and five on peritoneal (PD). Ht SDS improved from –2.7±0.5 to –2.3±0.5 at 1 year (P=0.02). Thereafter there was no further improvement. RhGH was stopped because of transplantation in 29 patients at a mean±SD age of 12.1±4.0 years. Mean Ht SDS was –1.8±0.8 at transplant and there was no change over the following 5 years. In conclusion, treatment with rhGH resulted in improvement in Ht SDS in conservatively managed CRF for up to 3.0 years and for 1 year in children on dialysis. Discontinuation of rhGH after transplantation resulted in little change in Ht SDS.     

Recombinant human growth hormone in infants and young children with chronic renal insufficiency

Children with chronic renal insufficiency (CRI) secondary to congenital structural abnormalities frequently have significant growth retardation by 2 years of age. In a multicenter placebo-controlled study of the use of recombinant human growth hormone (rhGH), 30 of 125 (24%) participants were<2.5 years of age at enrollment. Since the treatment arms of the study were balanced for age at randomization, data for these patients were examined for efficacy and safety. During the first 2 years of the study, approximately two-thirds of the patients (n=19) received rhGH 0.05 mg/kg per day subcutaneously and one-third (n=11) received placebo injections. At entry into the study, the mean (± SD) calculated creatinine clearance was 29.2±14.3 (range 12.0–63.7) ml/min per 1.73 m² in the rhGH-treated group and 23.3±15.1 (range 8.0–59.4) ml/min per 1.73 m² in the placebo-treated group. The 1st year growth rate was 14.1±2.6 cm/year for the rhGH-treated group and 9.3±1.5 cm/year in the placebo-treated group (P<0.00005). During the 2nd year of the study, the growth rate was 8.6±1.2 cm/year in the rhGH-treated group compared with 6.9±1.0 in the placebo groupP=0.025). The height standard deviation score was +2.0±0.7 for the rhGH-treated group compared with –0.2±1.1 in the placebo-treated group (P<0.00005) during the 2 years of the study. Minor adverse events occurred with similar frequency in both groups. These data suggest that rhGH is efficacious and safe in children with CRI under age 2.5 years. rhGH therapy may correct significant loss of growth at this age when used in conjunction with optimal medical management.     

Short dialyzed children respond less to growth hormone than patients prior to dialysis

Recombinant human growth hormone (rhGH) is a new treatment modality for short children with chronic renal failure (CRF) prior to and during dialysis. It is difficult to analyze whether dialysis patients respond less to rhGH than children with CRF on conservative treatment because they are older and often in a pubertal age range. One hundred and eight patients were treated with 28–30 IU rhGH/kg per week for at least 1 year. We analyzed the growth response to rhGH in 56 prepubertal patients aged less than 10 years at the start of rhGH treatment; 38 children with a mean age of 6.5±2.4 years were on conservative treatment (CT) and 18 patients with a mean age of 6.5±2 years on dialysis treatment (D). Mean height velocity was 4.9±2.3 cm/year in children on CT and 4.6±1.8 cm/year in children on D. During the 1 st treatment year, height velocity was 9.5±3.8 cm/year in CT patients and 7.3±1.3 cm/year in D patients (P<0.05). The change in height was +1.1±0.8 standard deviation (SD) in CT patients and +0.5±0.4 SD in D patients (P<0.005). During the 2nd treatment year, the change in height was again greater in CT patients (0.5±0.4 SD vs. 0.2±0.4 SD;P<0.05). The difference in height velocity and change in height standard deviation score was also significant when a subgroup of patients was matched for sex, age, height. Height velocity and the change in height velocity during rhGH treatment were not correlated with residual renal function, the degree of anemia, or metabolic acidosis. We conclude that short children on D respond less to rhGH than short children on CT, indicating a greater insensitivity to rhGH during D treatment.Study group members: K. Bittner (Ansbach), J. H. H. Ehrich, G. Filler, J. Gellermann (Berlin), H. Hampel (Berlin), H. Bachmann (Bremen), H. Ruder (Erlangen), K. E. Bonzel, B. Scheller (Essen), J. Dippel (Frankfurt), L. B. Zimmerhackl (Freiburg), J. Kreuder, W. Rascher (Gießen), D. Müller-Wiefel (Hamburg), D. Haffner, O. Mehls, R. Nissel, E. Wühl (Heidelberg (coordinators)), J. Misselwitz, B. Rönnefarth (Jena), U. Querfeld (Köln), H. Eichstädt, C. Greiner, E. Keller (Leipzig), H. P. Weber (Lüdenscheid), H. R. Heise, D. Wiemann (Magdeburg), R. Beetz (Mainz), D. Sasse, M. Soergel (Marburg), K. Pistor, A. Zlotkowski (Moers), B. Klare (München), R. Eife (München), E. Kuwertz-Bröking (Münster), M. Wigger, M. Mix (Rostock), O. Eichler (Suhl)     

Pubertal growth in children with chronic renal failure on conservative treatment

The pubertal growth spurt was followed for at least 3 years in 5 boys and 6 girls with chronic renal failure on conservative treatment. The peak height velocity averaged 8.6 cm/year (range 5.8–10.1 cm/year) in males and 8.2 cm/year (range 6.4–11.5 cm/year) in females. In none was the pubertal growth spurt below the 3rd percentile for chronological age. At the end of the follow-up period, all patients but 2 had stature within the normal limits of parental target. The relative variation of height averaged —0.013 standard deviation scores per year. On the whole, the pubertal growth spurt was normal in subjects with chronic renal failure on conservative treatment.     

Differential effects of recombinant human growth hormone on glomerular filtration rate and renal plasma flow in chronic renal failure

In normal subjects recombinant human growth hormone (rhGH) increases glomerular filtration rate (GFR) and effective renal plasma flow (ERPF) through the action of insulin-like growth factor-I (IGF-I). We have measured clearance of inulin and para-aminohippuric acid in 18 children with chronic renal failure (CRF) during their 1st year of rhGH treatment to look at the immediate (first 3 h), short-term (1 week) and long-term (1 year) effects of treatment. On day 1 mean (range) age was 9.1 (4.9–13.9) years, GFR 19 (9–58) and ERPF 77 (34–271) ml/min per 1.73 m². During treatment height velocity increased from 4.5 (1.7–6.5) to 9.5 (4.8–12.7) cm/year (P<0.0001). Two children required dialysis after 0.75 years and 1 child was electively transplanted after 0.5 years. There were no other serious adverse events. GFR and ERPF were unchanged in the 3 h following rhGH. GFR remained constant on day 8, 22 (6–56) and after 1 year, 20 (9–59) ml/min per 1.73 m². ERPF increased to 96 (33–276) ml/min per 1.73 m² on day 8P=0.005), and remained elevated, but not significantly so, at 99 (24–428) ml/min per 1.73 m² at 1 year. Fasting IGF-I increased from 147 (46–315) ng/ml to 291 (61–673) by day 8P<0.003), and to 341 (101–786) ng/ml at 1 year. There was no correlation between the change in IGF-I and renal function. Blood pressure, albumin excretion and dietary protein intake were unchanged by treatment. The significance of increased ERPF after 1 week of rhGH in CRF is unclear, but long-term follow-up of renal function is indicated.     

Effects of growth hormone on kidney function in pediatric transplant recipients

Recent evidence suggests that treatment with recombinant human growth hormone (rhGH) after a successful kidney transplant improves the growth rate of children with short stature. We prospectively investigated eight children (6 boys, 2 girls), focusing on acute rejection episodes and changes in serum creatinine levels during rhGH treatment. The children (mean age 11.6±3.4 years) received rhGH daily (0.04–0.05 mg/kg subcutaneously). Seven patients completed at least 12 months (20±8 months) of rhGH treatment. Their mean serum creatinine level was 1.3±0.7 mg/dl 12 months before, and increased to 3.4±4.2 mg/dl after 12 months of rhGH treatment, but did not achieve statistical significance (P=0.06). Their mean calculated glomerular filtration rate was 58±20 ml/min per 1.73 m² 12 months before, and decreased to 38±21 ml/min per 1.73 m² 12 months before, and decreased to 38±21 ml/min per 1.73 m² after 12 months of rhGH treatment, but did not achieve statistical significance (P=0.08). Of the seven patients, two developed acute rejection after 5 and 6 rejection-free years; three lost their grafts and returned to dialysis. These preliminary observations describe untoward renal events in children receiving rhGH treatment after a kidney transplant.     

Recombinant human growth hormone treatment of children with chronic renal failure: long-term (1- to 3-year) outcome

Treatment of nine boys, aged 2.8–16.3 years, with growth retardation consequent to chronic renal failure (CRF), with recombinant human growth hormone (rhGH) for 12–36 months demonstrated a significant improvement in growth velocity at each 12-month interval compared with that achieved the year prior to treatment. Despite the acceleration in growth velocity the bone age did not increase more than the increase in chronological age during the period of treatment. The mean calculated creatinine clearance did not decrease significantly during the 36 months of treatment; however, two patients required institution of dialysis at 18 and 30 months following the initiation of rhGH treatment. There was no exacerbation of the glucose intolerance of uremia following rhGH treatment. Currently, six of seven patients who have been treated for more than 24 months have achieved sufficient acceleration of growth velocity to attain a standard deviation score that was more positive than –2.00, and are above the 5th per centile for chronological age on the growth curve. These data indicate that rhGH treatment of growthretarded children with CRF results in accelerated growth velocity during the 2nd and 3rd years of treatment, and demonstrate the potential for such children to achieve normal stature for chronological age despite the continued presence of renal failure.     

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.     

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.     

Plasma growth hormone-binding activity is low in uraemic children

Plasma growth hormone-binding protein (GH-BP) activity was evaluated in two groups of prepubertal children with chronic renal failure (CRF) who had been treated with recombinant human GH (rhGH). Group 1 consisted of eight children (mean chronological age 10.8 years) with advanced renal failure; group 2 consisted of nine children (mean chronological age 6 years) presenting with end-stage renal disease, who were on dialysis. Before treatment the specific binding of (¹²⁵I)hGH to highaffinity GH-BP was low in the two groups (group 1, 17.3±1.6% of radioactivity; group 2, 14.2±1.4%) compared with the mean value obtained in normal prepubertal children (24.8±1.7%). No significant changes in GH-BP activity were found during the 1st year of GH therapy, although growth velocity and plasma levels of insulin-like growth factor-I increased significantly in both groups. The low GH-binding activity found in children with CRF supports the state of GH resistance. The reason for the absence of a GH-BP response to GH therapy has to be clarified.     

Triple immunosuppression with subsequent prednisolone withdrawal: 6 years' experience in paediatric renal allograft recipients

Thirty-four children (15 years of age) with end-stage renal failure received 39 renal allografts between 1985 and 1991 and were treated with cyclosporin A (CyA), azathioprine and low-dose prednisolone (PNL). We aimed to withdraw PNL by 6 months after transplantation. Median duration of follow-up was 2 years 4 months (range 0.1 month to 6 years, 4 months). There were no deaths. Crude graft survival for living-related grafts (n=9) was 100%, although only 1 patient has been followed for >2 years. For cadaveric grafts (n=30), 1- and 5-year actuarial graft survivals were 90% and 79% respectively. At 12 months posttransplant, the median (range) glomerular filtration rate for all patients was 63 (19–109) ml/min per 1.73 m² (n=25) and at 5 years was 48 (17–64) ml/min per 1.73 m² (_n=9). Complications observed included rejection episodes which occurred after discontinuation of PNL. Long-term (after 12 months), 28% of patients remain on PNL. Hypertension was present in more than 50% of patients. Severe CyA nephrotoxicity was not seen. Catch-up growth as determined by the change () in mean height standard deviation score (Ht-SDS) was noted at 1 year [SDS/year=+0.60;P<0.001 (n=18)] and at 2 years [SDS/year=+0.27;P<0.01 (n=16)] in pre-pubertal patients. The median Ht-SDS at 2 years for pre-pubertal children was –0.71 SD and growth velocity did not improve thereafter. In pubertal patients, the mean SDS per year at 1 year (n=7) was +0.43 and at 2 years (n=4) was +0.17. The catch-up growth in pubertal patients did not reach statistical significance. It was concluded that the use of this immunosuppression regime was associated with an excellent patient and graft survival. Catch-up growth is especially encouraging in pre-pubertal patients. However routine discontinuation of PNL may require review.     

Insulin and growth in chronic renal failure

We studied glucose metabolism using the hyperglycemic technique in a cross-section of 23 children (15 pubertal, 8 prepubertal) with stable chronic renal failure as a possible cause of their poor growth. Linear growth was expressed as growth velocity standard deviation score (GVSDS). GVSDS correlated with glucose disposal rate but not with insulin sensitivity index in the pubertal (r=0.87,P<0.001) and prepubertal (r=0.86,P<0.02) children with chronic renal failure. Thirteen children were followed longitudinally during medical suppression of hyperparathyroidism with dietary phosphate restriction and high-dose phosphate binders. Following significant suppression of serum parathyroid hormone (PTH) levels back to the normal range (932±240 ng/l to 199±50 ng/l), GVSDS, glucose disposal rate and insulin secretion all increased significantly (P<0.01), with no change in insulin sensitivity index and renal function. The changes in GVSDS correlated with the changes in glucose disposal rate (r=0.86,P<0.02) and with the changes in insulin secretion (r=0.80,P<0.01). However, the changes in GVSDS did not correlate with the changes in PTH. The hypothesis that insulin may be more important than PTH in the pathogenesis of growth failure in chronic renal disease deserves further investigation.     

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.     

Body segment lengths and arm span in healthy men and women and patients with vertebral fractures

We studied 112 healthy men and 261 healthy women aged 18–92 years, and 34 men and 73 postmenopausal women with vertebral fractures aged 45–90 years to determine (i) whether patients with vertebral fractures have shorter stature before fracture, and (ii) whether the difference between arm span and standing or sitting height can be used to identify patients with fractures. Arm span was measured by using a calibrated extended ruler. Standing height, sitting height and leg length were measured by using a Holtain stadiometer. The results were expressed in absolute term and standard deviation (SD) or Z-scores (mean±SEM). Advancing age was associated with decreased sitting height (r=–0.37 to –0.41, both P<0.01) and a trend towards decreased arm span (r=–0.12 to –0.17, P=0.06 and 0.07) in healthy men and women; leg length was independent of age in both sexes (r=–0.09 to –0.12, NS). In patients with vertebral fractures, sitting height was reduced in women (Z=–0.83±0.14 SD, P<0.01) and men (Z=–1.37±0.21 SD, P<0.01) but only the women had reduced leg length (Z=–0.46±0.15 SD, P<0.01) and arm span (Z=–0.76±0.15 SD, P<0.01). Univariate and multivariate analyses suggest that the predictive ability of the difference between arm span and standing or sitting height to identify patients with vertebral fractures is limited. We concluded that women, not men, with vertebral fractures may come from a population with short stature. The difference between arm span and standing or sitting height cannot be used to predict vertebral fracture risk.     

Post graft development of short children treated with growth hormone before kidney graft

Sixteen prepubertal patients with chronic renal failure (CRF) were given daily recombinant human growth hormone (rhGH) treatment (1.2 IU/kg per week) for 2.6±1.6 years until kidney transplant. Therapy was then discontinued and the patients followed for a further 3.5±1.4 years. During treatment, mean height increased from –3.0±0.9 standard deviation score (SDS) to –1.9±1.4 SDS (P<0.001) at the time of transplantation, corresponding to a mean height gain of +1.2±0.9 SDS. After discontinuation of rhGH therapy, prepubertal children continued a partial catch-up growth with a height gain of +0.5±0.8 SDS for the follow-up period. Conversely, negative changes of height were observed in pubertal transplanted children: –0.5±0.4 SDS in patients grafted at early stages of puberty (P2–P3) and –0.15±0.9 SDS in patients grafted at late stages of puberty (P4–P5). These data confirmed the benefit of rhGH therapy in CRF patients. Nevertheless, only early initiation of rhGH treatment led some of these patients to their target height at transplantation, thus preserving their potential growth. Reinitiation of rhGH therapy after transplantation should be considered in order to complete catch-up growth to target height in prepubertal children. Received: 23 July 1998 / Revised: 8 December 1998 / Accepted: 13 December 1998     

The immune status of uraemic children/adolescents with chronic renal failure and renal replacement therapy

In adults with chronic renal failure (CRF) and/or renal replacement therapy (RRT) various immunological abnormalities have been described, but few data are available for the paediatric age group. We performed basic in vitro immunological studies in 26 patients 10 months–19 years of age with advanced renal failure, 11 with CRF (creatinine clearance 16.8±5.2 ml/min per 1.73 m²), 15 on RRT with haemodialysis (HD;n=9) and continuous ambulatory peritoneal dialysis (CAPD;n=6) as well as in 16 healthy controls. None had clinical evidence of deranged immune function. No significant differences were found in the percentages of B- and T-cells, T-cell subsets CD3, CD4, CD8 and mitogenic responses to phytohaemagglutinin and concanavalin A (Con A) between RRT patients (HD=CAPD) and control children. Most parameters in CRF patients were also normal, although they had a low percentage of B-cells (12.1±4.1; RRT: 19.7±6.5; controls: 18.5±7.1;P<0.01), relatively low levels of serum immunoglobulin G (948.4±209.4 mg/dl; HD: 1374.7±235.2 mg/dl;P<0.01; CAPD: 966.3±430.2 mg/dl, NS) and a high normal response to Con A (34.3±13.6 cpm ×10^–3; RRT: 34.5±11.3 cpm ×10^–3; controls: 23.4±9.9 cpm ×10^–3,P<0.01). All these values were, however, well within the normal accepted range. These data indicate that children/adolescents with CRF and/or RRT have no significant basic in vitro immunological defects. This study did not test the functional immune status of the young uraemic patients.     

Cadaveric renal transplantation in children under 5 years of age

From March 1987 to August 1990 23 cadaveric renal transplants were performed in 19 children under the age of 5 years at the time of transplantation. The mean age of the recipients was 3.3 years (range 1.3–4.7) and the mean weight 13.0 kg (range 9.3–19.2). The mean donor age was 7.8 years (range 1.5–25). All children received triple immunosuppression with prednisolone, cyclosporin A and azathioprine, and 4 who had 2 grafts during this period also received antithymocyte globulin at the time of the second transplant. Patient survival is 100%. Actuarial first cadaveric graft survival was 57% at 1 year and remains unchanged at 3 years. There were 10 graft losses, 4 were associated with renal venous thrombosis without apparent rejection. Two were lost due to acute vascular rejection with associated renal venous thrombosis, and the remaining 4 losses followed cellular or chronic vascular rejection. The mean glomerular filtration rate ±SD was 51.4±23.6 ml/min per 1.73 m² (n=11) at 1 year and 43.5±25.3 at 2 years (n=6). The mean height standard deviation score improved from –2.2±1.1 at the time of transplantation to –1.3±1.0 1 year post transplant (n=11). The immunosuppression was well tolerated with a low incidence of side effects. Cadaveric renal transplantation remains a difficult but rewarding undertaking in children under 5 years of age.