Recurrence of Hemolytic Uremic Syndrome After Renal Transplantation (original) (raw)
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Clinical Journal of the American Society of Nephrology, 2005
More than 50% of patients with non-Shiga toxin-associated hemolytic uremic syndrome (non-Stx-HUS) progress to ESRD. Kidney transplant failure for disease recurrence is common; hence, whether renal transplantation is appropriate in this clinical setting remains a debated issue. The aim of this study was to identify possible prognostic factors for renal transplant outcome by focusing on specific genetic abnormalities associated with the disease. All articles in literature that describe renal transplant outcome in patients with ESRD secondary to non-Stx-HUS, genotyped for CFH, MCP, and IF mutations, were reviewed, and data of patients who were referred to the International Registry of Recurrent and Familial HUS/TTP and data from the Newcastle cohort were examined. This study confirmed that the overall outcome of kidney transplantation in patients with non-Stx-HUS is poor, with disease recurring in 60% of patients, 91.6% of whom developed graft failure. No clinical prognostic factor that could identify patients who were at high risk for graft failure was found. The presence of a factor H (CFH) mutation was associated with a high incidence of graft failure (77.8 versus 54.9% in patients without CFH mutation). Similar results were seen in patients with a factor I (IF) mutation. In contrast, graft outcome was favorable in all patients who carried a membrane co-factor protein (MCP) mutation. Patients with non-Stx-HUS should undergo genotyping before renal transplantation to help predict the risk for graft failure. It is debatable whether a kidney transplant should be recommended for patients with CFH or IF mutation. Reasonably, patients with an MCP mutation can undergo a kidney transplant without risk for recurrence.
Portuguese Journal of Nephrology & Hypertension
Atypical hemolytic uremic syndrome (aHUS) is one of the most challenging diseases for a nephrologist, with high rates of progression to end- -stage kidney disease (ESKD) and post-transplant recurrence. Complement dysregulation has been found in up to 70% of cases, which can be hereditary or acquired. Over the last few years, knowledge of the pathogenesis of aHUS has greatly increased, with the unravelling of the complement’s role, providing not only the chance for individualized post-transplant recurrence risk assessment, but also the possibility of a highly effective treatment through pharmacological C5-9 blockade with eculizumab. The overall outcome and prognosis of patients with aHUS has dramatically improved since the approval of this drug in 2011, allowing renal transplant to be a much safer option for these patients. Our aim was to present a proposal for the management of patients with aHUS, candidates for renal transplantation, in the light of the most recent studies.
Atypical relapse of hemolytic uremic syndrome after transplantation
Pediatric Nephrology, 2004
Atypical hemolytic uremic syndrome (HUS) frequently leads to end-stage renal failure and can relapse after transplantation. A 12-year-old girl presenting with familial atypical HUS with a factor H mutation was successfully transplanted 6 years after a first transplant that had failed because of immediate recurrent HUS. Prophylactic plasma exchange before and after transplantation was used. Two months after transplantation, concomitant with a reduction in plasma exchange frequency, the plasma creatinine increased from 70 mol/l to 194 mol/l in 2 weeks without thrombocytopenia or signs of hemolytic anemia. The patient had minimal clinical symptoms and a presumptive diagnosis of graft rejection was made. Despite treatment with six daily pulses of methylprednisolone, plasma creatinine continued to increase and a graft biopsy was therefore undertaken. This showed the typical appearance of a thrombotic microangiopathy without any evidence of rejection. Despite daily plasmapheresis and replacement of cyclosporine with tacrolimus, there was no improvement and transplant nephrectomy was undertaken. This patient demonstrates that HUS can recur in a kidney transplant without the diagnostic hematological features and emphasizes the need for early transplant biopsy in such patients showing a decline in transplant function.
Journal of the American Society of Nephrology, 2019
BackgroundAtypical hemolytic uremic syndrome (HUS) is associated with high recurrence rates after kidney transplant, with devastating outcomes. In late 2011, experts in France recommended the use of highly individualized complement blockade–based prophylaxis with eculizumab to prevent post-transplant atypical HUS recurrence throughout the country.MethodsTo evaluate this strategy’s effect on kidney transplant prognosis, we conducted a retrospective multicenter study from a large French nationwide registry, enrolling all adult patients with atypical HUS who had undergone complement analysis and a kidney transplant since January 1, 2007. To assess how atypical HUS epidemiology in France in the eculizumab era evolved, we undertook a population-based cohort study that included all adult patients with atypical HUS (n=397) between 2007 and 2016.ResultsThe first study included 126 kidney transplants performed in 116 patients, 58.7% and 34.1% of which were considered to be at a high and mode...
Post-transplantation outcome of patients with hemolytic-uremic syndrome: update
Pediatric Nephrology, 1991
The outcome of renal transplantation in patients with hemolytic-uremic syndrome (HUS) is variable in reported cases. An update of the previously published series of patients from the University of Minnesota is reported. Seventeen patients with HUS received a renal transplant. Seven patients had recurrent HUS based on strict clinical and histological features and in 4 of these patients grafts were loss from recurrent HUS, with 1 patient losing three successive grafts. Three patients had histological features consistent with HUS but lacked some of the clinical features. Seven patients had no evidence of recurrent HUS post transplantation. The incidence of recurrence of HUS post transplantation in this updated report remains high (7/17 patients). There was no difference in the allografts used (living-related donor grafts were more common in all groups) or in the irmnunosuppression in the different groups of patients; only i patient with recurrent HUS received cyclosporine. The published cases of transplantation in patients with HUS show a variable recurrence rate of 0-25% in different centers with a poor graft outcome in patients with recurrence; a higher incidence of early chronic vascular rejection with decreased graft survival is also reported in patients without recurrence. Patients with HUS post renal transplant are at a variable risk of recurrence of HUS or decreased graft survival, and the factors responsible for this outcome are not known.
Recurrence of Hemolytic-Uremic Syndrome in Renal Transplant Recipients
Transplantation, 1998
Background. Recurrence of hemolytic-uremic syndrome (HUS) in the allograft is associated with a very poor renal prognosis. Meta-analysis of previous trials may allow us to better estimate its real frequency, to identify risk factors for recurrence, and to predict the outcome of patients with definite recurrence.
Hemolytic uremic syndrome: An updated review
Yemen Journal of Medicine
Hemolytic uremic syndrome (HUS) is a microangiopathic thrombotic disease. HUS is classified into typical, secondary, and atypical types. All types are characterized by thrombocytopenia, acute kidney impairment, and hemolysis. Infection with Shiga toxin from Escherichia coli causes typical HUS. Atypical HUS is frequently caused by abnormal complement activation via the alternative pathway because of gene mutations or autoantibodies synthesis. Secondary HUS accompanies post-transplantation, autoimmunity, cancer, etc. Endothelial cell injury initiates cells destruction stimulates procoagulant state, which activates platelet and thrombus generation, producing ischemic tissue injury. HUS pathogenesis is the result of an ineffective complement activation cycle that causes endothelial cells damage, activating platelet and thrombus formation. In some atypical HUS cases, interrupting the pathogenesis cycle of HUS by inhibiting complement activation might be beneficial, but not in those with ...
American Journal of Transplantation, 2009
Kidney transplantation in patients with atypical hemolytic uremic syndrome (aHUS) carrying mutations in the soluble complement regulators factor H (CFH) or factor I (CFI) is associated with elevated risk of disease recurrence and almost certain graft loss. In contrast, recurrence is unusual in patients with mutations in the membrane-associated complement regulator membrane cofactor protein (MCP) (CD46). Therefore, a panel of experts recently recommended the combined liver-kidney transplantation to minimize aHUS recurrence in patients with mutations in CFH or CFI. There was, however, very limited information regarding transplantation in patients carrying mutations in both soluble and membrane-associated complement regulators to support a recommendation. Here, we report the case of an aHUS patient with a heterozygous mutation in both CFI and MCP who received an isolated kidney transplant expressing normal MCP levels. Critically, the patient suffered from a severe antibodymediated rejection that was successfully treated with plasmapheresis and IvIgG. Most important, despite the complement activation in the allograft, there was no evidence of thrombotic microangiopathy, suggesting that the normal MCP levels in the grafted kidney were sufficient to prevent the aHUS recurrence. Our results suggest that isolated kidney transplantation may be a good first option for care in aHUS patients carrying CFI/MCP combined heterozygous mutations.
Autosomal dominant hemolytic uremic syndrome: variable phenotypes and transplant results
Pediatric Nephrology, 2000
Autosomal dominant hemolytic uremic syndrome (ADHUS) is a rare disorder with a poor prognosis that was considered to present mainly in adults. Recurrent episodes of ADHUS were also thought to be uncommon. However, increasing reports suggest that children are often affected, that recurrent episodes may occur pretransplantation, and that post-transplant recurrences occur in about 50% of cases. We describe the occurrence of ADHUS in two unrelated families with different outcomes. It is apparent that there are several types of ADHUS (with and without serum complement abnormalities) and that there may be variable expression of the phenotype. There was variable penetration of HUS in four (possibly five) adults and two children in four generations of one kindred. There was also one definite unaffected carrier. Two patients had successful renal transplants without recurrences; the HUS recurred in a third patient soon after transplantation. In a second family, the father had three episodes of HUS at 18, 26 and 29 years of age; his son had one episode of HUS at 5 years of age. Both recovered completely. Evaluation of these patients, previous reports, and follow-up contacts of previous reports suggests that post-transplant recurrence of ADHUS is more common than previously reported and may not be prevented by prior nephrectomy of native kidneys.