Kerstin Benz

An Outbreak of Shiga Toxin–Producing Escherichia coli O104:H4 Hemolytic Uremic Syndrome in Germany: Presentation and Short-term Outcome in Children

BACKGROUND In May and June 2011 the largest known outbreak of hemolytic uremic syndrome (HUS) occurred in northern Germany. Because, quite unusually, a large number of adults was affected and the causative Escherichia coli strain, serotype O104:H4, showed an atypical virulence factor pattern, it was speculated that this outbreak was associated with an aggressive course and an unfavorable prognosis also in children. METHODS Retrospective analysis of medical records of 90 children and comparison to previous outbreak and sporadic case series. RESULTS Median age was unusually high (11.5 years) compared with that in historical series. Only 1 patient (1.1%) died in the acute phase. Most patients (67/90 [74%]) received supportive care only. Renal replacement therapy was required in 64 of 90 (71%) of the children. Neurological complications, mainly seizures and altered mental stage, were present in 23 of 90 (26%) patients. Ten patients received plasmapheresis, 6 eculizumab, and 7 a combination of both. After a median follow-up of 4 months, renal function normalized in 85 of 90 (94%) patients, whereas 3 patients had chronic kidney disease stage 3 or 4, and 1 patient (1.1%) still requires dialysis. Complete neurological recovery occurred in 18 of 23 patients. Mild to moderate and major residual neurological changes were present in 3 patients and 1 patient, respectively, although all patients were still improving. CONCLUSIONS E. coli O104:H4 caused the largest HUS outbreak in children reported in detail to date and most patients received supportive treatment only. Initial morbidity, as well as short-term outcome, due to this pathogen, is comparable to previous pediatric series of Shiga toxin-producing E. coli HUS.

Thrombotic microangiopathy: new insights

Purpose of reviewIn the following study new aspects and insights into the epidemiology, pathogenesis and typical morphology of kidney involvement in thrombotic microangiopathy (TMA) are discussed. TMA comprises a spectrum of microvascular thrombosis syndromes associated with multiple pathogenetic factors, that is, typical and atypical haemolytic uraemic syndrome (HUS), thrombotic thrombocytopenic purpura (TTP), malignant hypertension, drugs or systemic autoimmune diseases or antibody-mediated rejection. Recent findingsThe present article will put particular emphasis on new pathophysiological insights into the development of TMA in the various settings. In addition, new options in the therapeutic management of TMA in atypical HUS are discussed. The pathogenesis of TMA in atypical HUS primarily involves hereditary or acquired deficiencies and disturbances of the complement system. Eculizumab is a promising new therapeutic option that has been discovered recently. SummaryIn HUS/TTP the kidney shows characteristic vascular changes due to endothelial damage, that is, TMA, which should be clinically and morphologically differentiated from other diseases. Recent genetic and molecular studies have shed more light on the pathogenesis of TMA in atypical HUS, that is, disturbances of various aspects of the complement system, and in TTP, that is, von Willebrand factor regulation by ADAMTS13, which are also helpful in the differential diagnosis.

Structural Renal Changes in Obesity and Diabetes

Overweight, obesity, and associated diseases represent an emerging problem, not only in Western countries but also in the developing world. They are now characterized as epidemic diseases. Obesity is particularly serious because its incidence in children and adolescents increased dramatically: it is estimated that in the United States every eighth adolescent suffers from obesity, which in the long run may reduce life expectancy in the population. Apart from cardiovascular disease (ie, blood pressure, stroke, and coronary heart disease), kidney diseases also have been shown to be associated with obesity. Epidemiologic studies have indicated that obesity can be a risk factor of chronic kidney disease irrespective of the presence or absence of diabetes, arterial hypertension, and other comorbidities. More evidence is accumulated on the link between chronic kidney disease in obesity and abnormalities in adipokine secretion (hyperleptinemia, lack of adiponectin), activation of the renin-angiotensin system, chronic inflammation, endothelial dysfunction, lipid accumulation, impaired renal hemodynamics, and diminished nephron number related to body mass. In general, obesity is known to aggravate the course of many primary renal diseases such as glomerulonephritides, but also impairs renal function after kidney transplantation. Microalbuminuria, proteinuria, hyperfiltration, and impaired renal function are associated with obesity. Histologically, secondary focal segmental sclerosis has been shown to be caused particularly by obesity. Of practical purpose for clinical nephrology, loss of body weight either by lifestyle modification or bariatric surgery improves albuminuria and hyperfiltration in obese patients, making renal disease in obesity accessible for prevention programs. This review specifically addresses the pathogenesis and morphology of renal functional and particularly structural changes in obesity and associated renal disease such as diabetic nephropathy.

Pathological aspects of membranoproliferative glomerulonephritis (MPGN) and haemolytic uraemic syndrome (HUS) / thrombocytic thrombopenic purpura (TTP).

In this paper, epidemiology, pathogenesis and typical morphological aspects of all three types of membranoproliferative glomerulonephritis (MPGN), of the haemolytic uraemic syndrome (HUS) as well as of thrombotic thrombopenic purpura (TTP) will be reviewed on the light microscopical, immunohistological or immunofluorescence and electron microscopical level. In particular, differences in the pathogenesis of these diseases are discussed. Important recent molecular and genetic insights into the pathogenesis of the three types of MPGN, of typical and atypical HUS and of TTP, i.e. dysregulation of the complement system, distinct molecular defects in C3 and factor H, the major regulatory protein of the alternative pathway of complement activation, and deficiency of a von Willebrand factor (VWF) -cleaving protease, i.e. ADAMTS13, are highlighted. Finally, particular emphasis will be put on differences in glomerular and vascular morphology in the three types of MPGN and in thrombotic microangiopathy (TMA), which is the characteristic morphological alteration of the kidney in HUS and TTP, respectively.

The Proteasome Inhibitor Bortezomib Prevents Lupus Nephritis in the NZB/W F1 Mouse Model by Preservation of Glomerular and Tubulointerstitial Architecture

Background/Aims: Crucial steps in the initiation of lupus nephritis are the deposition of (auto-)antibodies and consequent complement activation. In spite of aggressive treatment patients may develop terminal renal failure. Therefore, new treatment strategies are needed. In extension to our previously published data we here analyzed the potential renoprotective mechanisms of bortezomib (BZ) in experimental lupus nephritis by focusing on morphological changes. Methods: Female NZB×NZW F1 mice develop lupus-like disease with extensive nephritis that finally leads to lethal renal failure. Treatment with 0.75 mg/kg BZ i.v. or placebo (PBS) twice per week started at 18 or 24 weeks of age. Antibody production was measured with ELISA and kidney damage was determined by quantitative morphological and immunohistochemical methods. Results: BZ treatment completely inhibited antibody production in both BZ-treated groups and prevented the development of nephritis in comparison to PBS-treated animals. Glomerular and tubulointerstitial damage scores, collagen IV expression, mean glomerular volume as well as tubulointerstitial proliferation and apoptosis were significantly lower after BZ treatment. Glomerular ultrastructure and in particular podocyte damage and loss were prevented by BZ treatment. Conclusions: BZ effectively prevents the development of nephritis in the NZB/W F1 mouse model. Specific protection of podocyte ultrastructure may critically contribute to renoprotection by BZ, which may also represent a potential new treatment option in human lupus nephritis.

Hemofiltration of Recombinant Hirudin by Different Hemodialyzer Membranes: Implications for Clinical Use

Recombinant hirudin (lepirudin) is a potent direct thrombin inhibitor that is used particularly for treatment of immune-mediated heparin-induced thrombocytopenia. Because hirudin is almost exclusively eliminated by the kidneys, its half-life is markedly prolonged in patients with severe renal insufficiency. Therefore, these patients are at risk for bleeding, particularly because no antidote is available. To use hirudin safely in patients who are on renal replacement therapy, knowledge of hirudin-sieving characteristics of different hemodialyzers is required. Data on this issue are sparse and in part contradictory. Eight different conventional low-flux and high-flux hemodialyzers were tested in an in vitro circuit with ultrafiltrate reinfusion. In each experiment, lepirudin concentration was repetitively measured during 3 h in the prefilter, the postfilter, and the filtration line using a chromogenic assay. On the basis of these data, sieving coefficients were calculated. All high-flux hemodialyzers tested allowed filtration of hirudin yet with marked differences in steady-state sieving (sieving coefficients in whole blood: polysulfone [PS] 0.97 +/- 0.03; polymethylmethacrylate [PMMA] 0.75 +/- 0.02; polyarylethersulfone 0.73 +/- 0.02; polyamide 0.49 +/- 0.02). None of the low-flux hemodialyzer membranes tested (cuprophane, hemophane, PS, and PMMA) showed significant hirudin filtration. Owing to marked differences in hirudin-sieving characteristics, choice of the appropriate hemodialyzer membrane is an important determinant of bleeding risk in dialysis-dependent patients who are treated with hirudin. In case of overdosage or bleeding complications, hemofiltration via PS membranes is recommended to reduce plasma hirudin concentration. Hirudin dosage should be adapted not only to the clinical situation but also to the hirudin-sieving characteristics of the assigned dialyzer.

High-Dose Enalapril Treatment Reverses Myocardial Fibrosis in Experimental Uremic Cardiomyopathy

Aims Patients with renal failure develop cardiovascular alterations which contribute to the higher rate of cardiac death. Blockade of the renin angiotensin system ameliorates the development of such changes. It is unclear, however, to what extent ACE-inhibitors can also reverse existing cardiovascular alterations. Therefore, we investigated the effect of high dose enalapril treatment on these alterations. Methods Male Sprague Dawley rats underwent subtotal nephrectomy (SNX, n = 34) or sham operation (sham, n = 39). Eight weeks after surgery, rats were sacrificed or allocated to treatment with either high-dose enalapril, combination of furosemide/dihydralazine or solvent for 4 weeks. Heart and aorta were evaluated using morphometry, stereological techniques and TaqMan PCR. Results After 8 and 12 weeks systolic blood pressure, albumin excretion, and left ventricular weight were significantly higher in untreated SNX compared to sham. Twelve weeks after SNX a significantly higher volume density of cardiac interstitial tissue (2.57±0.43% in SNX vs 1.50±0.43% in sham, p<0.05) and a significantly lower capillary length density (4532±355 mm/mm3 in SNX vs 5023±624 mm/mm3 in sham, p<0.05) were found. Treatment of SNX with enalapril from week 8–12 significantly improved myocardial fibrosis (1.63±0.25%, p<0.05), but not capillary reduction (3908±486 mm/mm3) or increased intercapillary distance. In contrast, alternative antihypertensive treatment showed no such effect. Significantly increased media thickness together with decreased vascular smooth muscles cell number and a disarray of elastic fibres were found in the aorta of SNX animals compared to sham. Both antihypertensive treatments failed to cause complete regression of these alterations. Conclusions The study indicates that high dose ACE-I treatment causes partial, but not complete, reversal of cardiovascular changes in SNX.

Blood pressure-independent effect of long-term treatment with the soluble heme-independent guanylyl cyclase activator HMR1766 on progression in a model of noninflammatory chronic renal damage.

Nitric oxide formation is impaired in chronic renal failure. The renoprotective effects of a nonhypotensive dose of HMR1766, a direct activator of the heme enzyme soluble guanylyl cyclase was studied in comparison to an ACE-i in the remnant kidney model. Male Sprague-Dawley rats were subtotally nephrectomized (SNX) or sham operated (sham) and left untreated or started on treatment with HMR1766 or ACE-i in non-hypotensive doses. BP, albumin excretion and parameters of renal damage were analyzed. After a 12-week study, urinary albumin excretion was significantly higher in untreated SNX than in sham; this increase was prevented by ACE-i and ameliorated by HMR1766. Relative kidney and left ventricular weight were significantly higher in untreated SNX compared to sham; these changes were completely prevented by HMR1766. In untreated SNX, glomerulosclerosis (1.02 ± 0.13) was significantly higher than in sham (0.12 ± 0.04), SNX+HMR1766 (0.27 ± 0.04) and SNX+ACE-i (0.46 ± 0.06). Tubulointerstitial changes went in parallel. Increased glomerular cell number after SNX (71.5 ± 14 vs. 60 ± 7.3 in sham) was prevented by HMR1766 (55.7 ± 7.3), but not by ACE-i (66.6 ± 9). The results document beneficial BP-independent HMR1766 effects on kidney structure and urinary albumin excretion in a noninflammatory model of renal failure and may argue for a novel therapeutic principle.

Characterisation of renal immune cell infiltrates in children with nephrotic syndrome

There is increasing evidence that not only T cells but also B cells may play an important role in the pathogenesis of idiopathic nephrotic syndrome (NS). We have evaluated the infiltrating immune cells found in renal biopsies from 38 children with NS using immunohistochemistry techniques involving antibodies against T cells (CD3, CD4, CD8, FoxP3), B cells (CD20), macrophages (CD68) and follicular dendritic cells (CD21). Kidney biopsies with thin basement membrane disease were used as controls. We found higher numbers of interstitial CD3-positive T cells and macrophages in patients with focal segmental glomerulosclerosis (FSGS) than in those with minimal change glomerulopathy (MCGN) and in the controls, and significantly lower FoxP3-positive cells in patients with FSGS, MCGN and steroid-dependent NS than in the controls. Significantly higher numbers of glomerular B cells were found in FSGN patients than in MCGN patients and controls. Of note, in three patients who were later successfully treated with anti-CD20 antibody rituximab, the number of renal B cells was negligible in the preceding biopsy. In conclusion, the higher numbers of interstitial CD3-positive T cells in renal biopsies of pediatric patients with FSGS argue for a higher inflammatory activity. The significantly higher number of glomerular B cells in FSGS patients may indicate a particular pathogenetic role or epiphenomenon in this disease. However, patients with no interstitial or glomerular B cells could also benefit from rituximab treatment.

Clinical and Molecular Characterization of Patients with Heterozygous Mutations in Wilms Tumor Suppressor Gene 1

BACKGROUND AND OBJECTIVES The Wilms tumor suppressor gene 1 (WT1) plays an essential role in urogenital and kidney development. Genotype/phenotype correlations of WT1 mutations with renal function and proteinuria have been observed in world-wide cohorts with nephrotic syndrome or Wilms tumor (WT). This study analyzed mid-European patients with known constitutional heterozygous mutations in WT1, including patients without proteinuria or WT. DESIGN, SETTING, PARTICIPANTS & MEASUREMENTS Retrospective analysis of genotype, phenotype, and treatment of 53 patients with WT1 mutation from all pediatric nephrology centers in Germany, Austria, and Switzerland performed from 2010 to 2012. RESULTS Median age was 12.4 (interquartile range [IQR], 6-19) years. Forty-four of 53 (83%) patients had an exon mutation (36 missense, eight truncating), and nine of 53 (17%) had an intronic lysine-threonine-serine (KTS) splice site mutation. Fifty of 53 patients (94%) had proteinuria, which occurred at an earlier age in patients with missense mutations (0.6 [IQR, 0.1-1.5] years) than in those with truncating (9.7 [IQR, 5.7-11.9]; P<0.001) and splice site (4.0 [IQR, 2.6-6.6]; P=0.004) mutations. Thirteen of 50 (26%) were treated with steroids and remained irresponsive, while three of five partially responded to cyclosporine A. Seventy-three percent of all patients required RRT, those with missense mutations significantly earlier (at 1.1 [IQR, 0.01-9.3] years) than those with truncating mutations (16.5 [IQR, 16.5-16.8]; P<0.001) and splice site mutations (12.3 [IQR, 7.9-18.2]; P=0.002). Diffuse mesangial sclerosis was restricted to patients with missense mutations, while focal segmental sclerosis occurred in all groups. WT occurred only in patients with exon mutations (n=19). Fifty of 53 (94%) patients were karyotyped: Thirty-one (62%) had XY and 19 (38%) had XX chromosomes, and 96% of male karyotypes had urogenital malformations. CONCLUSIONS Type and location of WT1 mutations have predictive value for the development of proteinuria, renal insufficiency, and WT. XY karyotype was more frequent and associated with urogenital malformations in most cases.