Kidney transplantation in children and adolescents: an analysis of United Network for Organ Sharing Database.

Specific pediatric allocation schemes can not only lead to minimization of waiting time, but also to better clinical outcomes for children with end-stage renal disease. The outcome of 4125 deceased donor kidney transplants (DDKT) aged 5-35 years were compared with those of 6456 living donor kidney transplants (LDKT) using univariate and multivariate Cox regression analyses. Unadjusted graft survival rates of DDKT were significantly lower than those of LDKT (hazards ratio [HR] = 1.53; P < .001). Chronic rejection was reported in 416 (10.1%) of 4125 in the DDKT group compared with 537 (8.3%) of 6456 in the LDKT group (P < .001). Among African American recipients, 67 (3.4%) grafts were lost due to noncompliance as a contributory cause of failure compared with 126 (1.5%) among other races (P < .001). A significantly lower incidence of noncompliance was observed in children (0.9%) compared with adolescents (2.2% in ages 10-14; P < .001) and high teens (2.0% in ages 15-20; P < .001). Multivariate analysis showed that adjusted graft survival rates of LDKT were superior to DDKT (HR = 1.22; P < .001) after adjusting for recipient race, recipient age, regraft status, and HLA mismatch. The differences of long-term graft survival rates between DDKT and LDKT have not been reduced (4% at 1 year, 10% at 3 years, and 12% at 5 years for unadjusted survival rates and 3% at 1 year, 6% at 3 years, and 9% at 5 years adjusted survival rates). In our analysis presented here the difference in graft survival between LDKT and DDKT has doubled compared with earlier analysis. Therefore, we recommend LDKT whenever possible as a first choice for pediatric transplant recipients.

Determinants of GFR depression in early membranous nephropathy.

We evaluated the glomerular filtration rate (GFR) in 34 subjects with membranous nephropathy (MN) of new onset. We used physiological techniques to measure GFR, renal plasma flow, and oncotic pressure and computed a value for the two-kidney ultrafiltration coefficient (K(f)). A morphometric analysis of glomeruli in the diagnostic biopsy permitted computation of the single-nephron ultrafiltration coefficient (SNK(f)). MN subjects were divided into two groups: moderate or severe, according to whether GFR was depressed by less or more than 50%. SNK(f) was subnormal but similar in moderate and severe MN. In contrast, two-kidney K(f) was significantly more depressed in severe than in moderate MN. We estimated the total number of functioning glomeruli (N(g)) by dividing two-kidney K(f) by SNK(f). Whereas mean N(g) was similar in controls and moderate MN (1.5 and 1.4-1.7 x 10(6), respectively), it was significantly lower in severe MN (0.5 x 10(6)). This degree of glomerulopenia was not reflected in the rate of global sclerosis. We conclude that a combination of depressed SNK(f) (due to foot process broadening) and profound glomerulopenia accounts for GFR depression of >50% early in the course of MN. The cause of the glomerulopenia remains to be elucidated.

A 100% 2-year graft survival can be attained in high-risk 15-kg or smaller infant recipients of kidney allografts.

BACKGROUND: Infants make up the most high-risk, difficult to care for subgroup undergoing kidney transplantation, with the lowest 1- and 2-year graft survival rates of any other age group. The principal causes of graft loss have been graft thrombosis, primary nonfunction, technical error, and irreversible acute rejection. HYPOTHESIS: Infants undergoing kidney transplantation can achieve near 100% graft survival at 2 years following surgery, despite their very high-risk status. DESIGN: Analysis of 45 consecutive kidney transplants performed in patients weighing less than or equal to 15 kg during an 8-year period beginning August 1991. Patients included complex referrals from throughout the United States and all received transplants and were cared for by the same pediatric kidney transplantation team. RESULTS: Mean weight at transplantation was 11. 2 kg. Renal failure was due to congenital or urologic causes in the majority (53%) of cases. Size-discrepant adult-sized kidney grafts were transplanted in 80% of patients; 64% received live-donor grafts; 78% were receiving dialysis prior to transplantation; and 27% had extremely small bladders (<20 cm(3)) requiring modification of the ureteral implantation. Excluding 1 transplant-unrelated death, graft and patient survival at 2 years was 100%. Eight-year patient and graft survival rates (for our combined live and cadaver donor series) were 89.6% and 84.6%, respectively. This compares favorably with much lower graft survival in low-risk adult recipients. Delayed graft function occurred in only 1 patient (2%). Rate of incidence of rejection was 9.3% within 2 years of transplantation and the overall rejection rate was 15.5%. No graft was lost to vascular thrombosis, primary nonfunction, technical error, or acute rejection. The mean creatinine level was 53.04 micromol/L (0.6 mg/dL) and 61.9 micromol/L (0.7 mg/dL) at 1 and 2 years, respectively, and 88.4 micromol/L (1.0 mg/dL) at 3, 4, and 5 years after transplantation. CONCLUSION: One hundred percent 2-year and excellent 8-year graft survival rates can be achieved in what has historically been the highest-risk and most difficult to care for patient subgroup undergoing kidney transplantation.

Evolution of incipient nephropathy in type 2 diabetes mellitus.

BACKGROUND: We examined the course of glomerular injury in 12 Pima Indians with long-standing (>8 years) type 2 diabetes mellitus, normal serum creatinine, and microalbuminuria. They were compared with a group of 10 Pima Indians in Arizona with new-onset (<5 years) type 2 diabetes, normal renal function, and normoalbuminuria (<30 mg albumin/g creatinine on random urine specimens). METHODS: A combination of physiological and morphological techniques was used to evaluate glomerular function and structure serially on two occasions separated by a 48-month interval. Clearances of iothalamate and p-aminohippuric acid were used to determine glomerular filtration rate (GFR) and renal plasma flow, respectively. Afferent oncotic pressure was determined by membrane osmometry. The single nephron ultrafiltration coefficient (Kf) was determined by morphometric analysis of glomeruli and mathematical modeling. RESULTS: The urinary albumin-to-creatinine ratio (median + range) increased from 84 (28 to 415) to 260 (31 to 2232) mg/g between the two examinations (P = 0.01), and 6 of 12 patients advanced from incipient (ratio = 30 to 299 mg/g) to overt nephropathy (>/=300 mg/g). A 17% decline in GFR between the two examinations from 186 +/- 41 to 155 +/- 50 mL/min (mean +/- SD; P = 0.06) was accompanied by a 17% decline in renal plasma flow (P = 0.003) and a 6% increase in plasma oncotic pressure (P = 0.02). Computed glomerular hydraulic permeability was depressed by 13% below control values at both examinations, a result of a widened basement membrane and a reduction in frequency of epithelial filtration slits. The filtration surface area declined significantly, however, from 6.96 +/- 2.53 to 5.51 +/- 1.62 x 105 mm2 (P = 0.01), a change that was accompanied by a significant decline in the number of mesangial cells (P = 0.001), endothelial cells (P = 0.038), and podocytes (P = 0.0005). These changes lowered single nephron Kf by 20% from 16.5 +/- 6.0 to 13.2 +/- 3.6 nL/(minutes + mm Hg) between the two examinations (P = 0.02). Multiple linear regression analysis revealed that among the determinants of GFR, only the change in single nephron Kf was related to the corresponding change in GFR. CONCLUSION: We conclude that a reduction in Kf is the major determinant of a decline in GFR from an elevated toward a normal range as nephropathy in type 2 diabetes advances from an incipient to an overt stage.

Evaluation and management of proteinuria and nephrotic syndrome in children: recommendations from a pediatric nephrology panel established at the National Kidney Foundation conference on proteinuria, albuminuria, risk, assessment, detection, and elimination (PARADE).

OBJECTIVE: The development of this review article evolved from a National Kidney Foundation consensus conference on recent advances in the importance of evaluating and treating proteinuria. From this conference, a series of recommendations for the evaluation of adults with proteinuria was published. Because specific pediatric aspects of the problem were outside the scope of the original National Kidney Foundation publication, an ad hoc committee of 6 pediatric nephrologists who were active participants in the National Kidney Foundation conference was established to provide primary care physicians with a concise, up-to-date reference on this subject. METHODS: The recommendations that are given represent the consensus opinions of the authors. These are based on data from controlled studies in children when available, but many of the opinions are, by necessity, based on uncontrolled series in children or controlled trials performed in adults, because controlled trials in children have not been performed to evaluate many of the treatments described. RESULTS AND CONCLUSIONS: These recommendations are intended to provide primary care physicians with a useful reference when they are faced with a young child or teenager who presents with proteinuria, whether this is mild and asymptomatic or more severe, leading to nephrotic syndrome.

A new, unique and simple method for ureteral implantation in kidney recipients with small, defunctionalized bladders.

BACKGROUND: Major, almost insurmountable, deterrents exist to the use of the small capacity, defunctionalized, nonneurogenic urinary bladder in renal transplantation, namely, the technical difficulty in performing a satisfactory ureteral implantation with conventional methods and the potential secondary problems with high grade ureteral reflux and obstruction. Alternatives are less than ideal and include transplantation into a bowel-augmented urinary bladder with intermittent self-catheterization, ileal conduit urinary diversion, or avoidance of transplantation and relegating the patient to life-long dialysis. METHODS: Eight consecutive patients (ages 13 months to 29 years) with small, defunctionalized urinary bladders underwent a new method of intravesical implantation of the transplant ureter. The mean capacity of these bladders was 18.5+/-13.1 ml (range 6 to 45 ml), with the bladders defunctionalized for a mean 81.6+/-24.3% of the patients' total lifetime. The technique involved placement of the transplant ureter into a shallow, mucosa-denuded, rectangular trough extending from a superiorly placed ureteral hiatus distally to the trigone. We hypothesized that the mucosal margins on the two lateral aspects of the rectangular trough would grow over the anterior surface of the ureter until they met the advancing mucosal edges from the contralateral side to form a natural neosubmucosal tunnel. RESULTS: Posttransplantation cystoscopic examination demonstrated bladder mucosal regeneration and growth over the ureter, confirming the spontaneous development of a good length neosubmucosal tunnel. All patients demonstrated no evidence of ureteral reflux or ureteral obstruction, whereas an immediate prior cohort of four consecutive patients with bladder capacities < or =30 ml showed that three of four had ureteral reflux (P=0.02) and four of four developed hydronephrosis (P=0.002). All urinary bladders in the present cohort enlarged to expected normal or nearnormal capacities. Serum creatinines were stable throughout the entire follow-up period, with the exception of one patient who had rejection episodes. Two patients had urinary tract infections posttransplantation, but there were no episodes of acute pyelonephritis. CONCLUSIONS: This novel technique for ureteral implantation successfully capitalizes on the regenerative potential of the bladder mucosa, resulting in a physiological, anatomically natural, and very effective neosubmucosal tunnel. It appears to guarantee success against both ureteral reflux and obstruction, no matter how small the urinary bladder, and offers no hindrance to enlarging the bladder to near normal capacity posttransplantation. The implantation technique is simple and safe, and its use should eliminate the reluctance to use these bladders. Moreover, this procedure offers a major incentive for the successful rehabilitation of small, defunctionalized, nonneurogenic bladders after kidney transplantation.

The role of the podocyte in glomerulosclerosis.

Focal segmental glomerulosclerosis is a pathological hallmark of many forms of progressive renal disease. The 'classic' lesion, based on the adhesion of the capillary tuft to Bowman's capsule, results from the loss of podocytes from the capillary basement membrane. The recently described 'collapsing' variant, in contrast, has an apparent excess of extracapillary cells, which may represent dedifferentiated, 'dysregulated' podocytes.

Progression of glomerular diseases: is the podocyte the culprit?

The stereotyped development of the glomerular lesions in many animal models and human forms of progressive renal disease suggests that there are common mechanisms of disease progression. We propose the outline of such a mechanism based on following aspects: (1) The glomerulus is a complex structure, the stability of which depends on the cooperative function of the basement membrane, mesangial cells and podocytes, counteracting the distending forces originating from the high glomerular hydrostatic pressures. Failure of this system leads to quite uniform architectural lesions. (2) There is strong evidence that the podocyte is incapable of regenerative replication post-natally; when podocytes are lost for any reason they cannot be replaced by new cells. Loss of podocytes may therefore lead to areas of "bare" GBM. which represent potential starting points for irreversible glomerular injury. (3) Attachment of parietal epithelial cells to bare GBM invariably occurs when bare GBM coexists with architectural lesions, leading to the formation of a tuft adhesion to Bowman's capsule, the first "committed" lesion progressing to segmental sclerosis. (4) Within an adhesion the tuft merges with the interstitium, allowing filtration from perfused capillaries inside the adhesion towards the interstitium. The relevance of such filtration is as yet unclear but may play a considerable role in progression to global sclerosis and interstitial fibrosis.

Mechanisms of progressive glomerular injury in membranous nephropathy.

Glomerular function and structure were serially evaluated in 15 patients with membranous nephropathy who exhibited relapsing nephrosis and chronic depression of GFR. GFR declined from 56+/-8 (mean+/-SEM) at onset to 31+/-4 ml/min per 1.73 m2 after a 2- to 5-yr period of observation (P < 0.05). An analysis of filtration dynamics suggested persistent elevation of net ultrafiltration pressure. To examine a possible role for declining intrinsic glomerular filtration capacity as the basis for the observed hypofiltration, glomeruli in the baseline and a repeat biopsy (performed after a median of 28 mo) were subjected to morphometric analysis and mathematical modeling. Analysis of the baseline biopsy revealed a reduction in filtration slit frequency and thickening of the glomerular basement membrane, lowering computed hydraulic permeability by 66% compared with normal kidney donors. In contrast, filtration surface area was increased by 37% as a result of glomerular hypertrophy. The repeat biopsy revealed persistent depression of hydraulic permeability, primarily owing to foot process broadening. An additional finding was a decrease in filtration surface area from baseline in patent glomeruli, possibly due to encroachment on the capillary lumen of an increasingly widened basement membrane. Also, a striking increase in the prevalence of global glomerulosclerosis from 7+/-2% to 23+/-4% was found between the two biopsies, suggesting a significant loss of functioning nephrons. It is concluded that hypofiltration in membranous nephropathy is the consequence of a biphasic loss of glomerular ultrafiltration capacity, initially owing to impaired hydraulic permeability that is later exacerbated by a superimposed loss of functioning glomeruli and of filtration surface area.

A frequent pathway to glomerulosclerosis: deterioration of tuft architecture-podocyte damage-segmental sclerosis.

Lesions in glomerular architecture include mesangial expansion, capillary ballooning, capillary unfolding and microaneurysm formation. Such lesions appear to develop in response to mechanical overextension. A frequent pathway to segmental glomerulosclerosis starts from capillary ballooning and unfolding. Podocytes supporting those deranged capillaries are exposed to increased mechanical stress. This may lead to podocyte injury terminating in detachments from the GBM. Naked GBM areas at peripheral capillary loops allow the attachment of parietal cells to the GBM, i.e. the formation of a tuft adhesion to Bowman's capsule. An adhesion has a strong tendency to progress to segmental sclerosis.

Structure-stabilizing forces in the glomerular tuft.

The glomerular tuft is constantly exposed to considerable expansile forces resulting from high capillary pressures. Counterforces must be generated in order to maintain structural stability. This review analyzes those structures of the glomerular tuft capable of developing such stabilizing forces. Two systems are described. A basic system consists of the glomerular basement membrane (GBM) and the mesangium. The GBM represents the main skeletal element of the glomerular tuft. In general, opposing portions of the GBM are bridged by contractile mesangial cell processes, generating inwardly directed forces that balance the expansile forces resulting from pressure gradients across the GBM. A second structure-stabilizing role of the podocytes appears to be superimposed on this system. Podocytes are attached to the GBM by numerous foot processes that contain a contractile system. The foot process attachments probably stabilize small patches of the underlying GBM, counteracting local elastic distension. In addition, podocytes may contribute to the stabilization of the folding pattern of the tuft by linking neighboring capillary loops to each other.

Glomerular hypertrophy after subtotal nephrectomy: relationship to early glomerular injury.

Structural adaptations in response to approx. 70% nephrectomy were studied in male Sprague-Dawley rats. Rats developed systemic hypertension as well as progressive albuminuria after nephrectomy. At 18-26 weeks after nephrectomy (n = 6) or sham treatment (n = 6) kidneys were perfusion-fixed and examined by light and electron microscopy. Glomerular tuft volume (+140%), capillary volume (+151%) and length (+77%), mesangial volume (+115%), podocyte volume (+96%), glomerular basement membrane surface area (+107%) and filtration slit length (+85%) were all significantly greater in nephrectomized rats. The incidence of segmental glomerular sclerosis was low and variable among these rats, but was significantly higher than in controls (P = 0.037). Urinary albumin excretion was elevated in the nephrectomized rats (89 +/- 72 SD mg/day vs 11 +/- 11 mg/day in control rats, P = 0.01) and correlated significantly with the incidence of sclerosis (r = +0.8311, P < 0.05). The relationships of the level of albuminuria and the sclerosis rate to various morphometric parameters were examined by regression analysis for the nephrectomy group. A significant negative correlation was found between albuminuria and average tuft volume (r = -0.8136) and glomerular basement membrane surface area (r = -0.8168). Both sclerosis rate and albuminuria showed negative correlations with filtration slit length (r = -0.8180 and r = -0.8598). These findings suggest that under some circumstances, glomerular hypertrophy may prevent or ameliorate the early stages of glomerular injury after subtotal nephrectomy.

Glomerular size selectivity during protein overload in the rat.

Differential glomerular permeability to macromolecules as a function of their size (size permselectivity) is altered in experimental models of proteinuric renal disease. Size permselectivity during protein overload proteinuria was examined using urinary clearances of neutral dextrans in anesthetized Wistar-Furth rats. The animals were studied 3-4 h after the last of six twice-a-day intraperitoneal injections of either bovine serum albumin (BSA) or ovalbumin (OA) or of vehicle alone (controls). Glomerular filtration rates did not differ significantly among the three groups. OA-treated (n = 4) and control (n = 5) rats had virtually identical fractional dextran clearances over almost the entire molecular size range from 18 to 58 A Stokes-Einstein radius. In contrast, BSA-treated rats (n = 5) had elevated fractional clearances for medium-sized dextrans with the increases reaching statistical significance at radii of 40 A (+22.7% vs. control) and 44 A (+20.4%). Fractional clearances for BSA-treated rats returned to control values for larger dextrans. These findings demonstrate a significant size permselectivity defect in BSA overload, although not in OA overload.

The glomerular mesangium: capillary support function and its failure under experimental conditions.

We present a structural analysis of the ability of the biomechanical unit consisting of mesangium and glomerular basement membrane to maintain normal capillary architecture in the face of mechanical challenges due to high intraglomerular pressures. Capillary support function may be considered in terms of the stabilization of local form (development of wall tension against capillary dilation) and global form (centripetal fixation of capillary loops to maintain higher order form). The pathologic consequences of the loss of this support are illustrated by way of experimental models of mechanical mesangial failure. Such failure may express itself as mesangial widening, increased transmesangial macromolecule "traffic," ballooning of capillary segments, and unfolding of capillary loops. Mechanisms are described by which these structural changes may lead to segmental glomerular sclerosis.

Glomerular injury in analbuminemic rats after subtotal nephrectomy.

Progressive proteinuria has been suggested not just to reflect but also to contribute to the development of focal glomerular sclerosis. Development of proteinuria and glomerular lesions was examined up to 18 weeks after 3/4 nephrectomy in Sprague-Dawley (SDR) rats and an analbuminemic SDR variant (NAR). Nephrectomy led to a significantly lesser degree of proteinuria in NAR (42 +/- 14 SD mg/day) than in SDR (140 +/- 54 mg/day), consistent with the fact that 50-60% of urinary protein in SDR after nephrectomy is serum albumin. Nevertheless at 18 weeks NAR showed a significantly higher frequency of moderate and severe glomerular lesions than SDR. We conclude that, in this model, proteinuria itself is not a major cause of progressive glomerular injury.

Hypercalcemia, hypertension and acute renal insufficiency in an immobilized adolescent.

Immobilization hypercalcemia was initially described by Albright in 1941, and has most often been noted in adolescent males, presumably because their high rates of skeletal growth increase the likelihood that alterations in the equilibrium between bone deposition and resorption will have clinically apparent effects. The etiology of immobilization hypercalcemia is controversial, but is thought to result from normal levels of PTH acting with increased activity in the abnormal environment of immobilized bone. We describe a patient, immobilized following the resection of a large, locally invasive tumor, who developed hypercalcemia in conjunction with renal insufficiency and hypertension. The pathophysiology of immobilization hypercalcemia is discussed, as are the potential contributions of renal feedback mechanisms to the patient's hypertension and renal insufficiency.