UMLS:C0002878 - FACTA Search

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Query: UMLS:C0002878 (hemolytic anemia)
7,530 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hemolytic-uremic syndrome (HUS) is a microvasculature disorder leading to microangiopathic hemolytic anemia, thrombocytopenia, and acute renal failure. Most cases of HUS are associated with epidemics of diarrhea caused by verocytotoxin-producing bacteria, but atypical cases of HUS not associated with diarrhea (aHUS) also occur. Early studies describing the association of aHUS with deficiencies of factor H suggested a role for this complement regulator in aHUS. Molecular evidence of factor H involvement in aHUS was first provided by Warwicker et al., who demonstrated that aHUS segregated with the chromosome 1q region containing the factor H gene (HF1) and who identified a mutation in HF1 in a case of familial aHUS with normal levels of factor H. We have performed the mutational screening of the HF1 gene in a novel series of 13 Spanish patients with aHUS who present normal complement profiles and whose plasma levels of factor H are, with one exception, within the normal range. These studies have resulted in the identification of five novel HF1 mutations in four of the patients. Allele HF1 Delta exon2, a genomic deletion of exon 2, produces a null HF1 allele and results in plasma levels of factor H that are 50% of normal. T956M, W1183L, L1189R, and V1197A are missense mutations that alter amino acid residues in the C-terminal portion of factor H, within a region--SCR16-SCR20--that is involved in the binding to solid-phase C3b and to negatively charged cellular structures. This remarkable clustering of mutations in HF1 suggests that a specific dysfunction in the protection of cellular surfaces by factor H is a major pathogenic condition underlying aHUS.
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PMID:Clustering of missense mutations in the C-terminal region of factor H in atypical hemolytic uremic syndrome. 1117 Aug 95

Factor H is a 150 kDa single chain plasma glycoprotein that plays a pivotal role in the regulation of the alternative pathway of complement. Primary sequence analysis reveals a structural organization of this plasma protein, in 20 homologous units, called Short Consensus Repeats (SCRs), each about 60 amino acids long. Biochemical and genetic studies show an association between factor H deficiency and human diseases, including Systemic Lupus Erythematosus, susceptibility to pyogenic infection and a form of membranoproliferative glomerulonephropathy. More recently, factor H deficiency has also been associated with susceptibility to Hemolytic Uremic Syndrome (HUS), a disease consisting of microangiopathic hemolytic anemia, thrombocytopenia and acute renal failure, caused by platelet thrombi which mainly, but not exclusively, form in the microcirculation of the kidney. In this review, we summarize recent genetic and biochemical data, which indicate a critical role for factor H in the pathogenesis of HUS and suggest an important role of the most C-terminal domain, i.e. SCR 20, in the disease. In addition, we discuss the physiological consequences of these findings, as novel functional data show a particular essential role of SCR 20 of factor H as the central discriminatory and regulatory site of this multidomain, multifunctional plasma protein.
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PMID:Complement factor H and hemolytic uremic syndrome. 1136 30

Hemolytic uremic syndrome is characterized by microangiopathic hemolytic anemia, thrombocytopenia and acute renal failure. Data from recent genetic analyses reveal a clear association between the complement regulator factor H and the atypical form of this fatal human disease. The clustering of the identified mutations in the C-terminus of factor H identifies a "hot spot" that is central to the pathogenesis of the disease. What are the possible biological and functional consequences of the identified mutations for the disease process and mechanisms of disease progression?
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PMID:Hemolytic uremic syndrome: how do factor H mutants mediate endothelial damage? 1142 11

This review summarizes the state of the art of apheresis in hemolytic uremic syndrome (HUS) and in thrombotic thrombocytopenic purpura (TTP). Both entities are characterized by thrombotic microangiopathy, hemolytic anemia, and thrombocytopenia. While HUS often presents with renal insufficiency, cerebral involvement is more common in TTP. Recently, in TTP, a primary or secondary lack of activity of a von Willebrand factor (vWF) degrading enzyme was made responsible for the presence of unusually large vWF multimers causing platelet aggregation and thrombus formation in the microvasculature. In contrast, in familial HUS, a factor H deficiency with uninhibited complement activation seems to play a role. Therapeutic plasma exchange (TPE) using fresh frozen plasma or cryosupernatant as the substitution fluid is indicated in acute TTP and atypical HUS without antecedent diarrhea. As a rule, it will show good effectiveness, especially in the former entity. HUS in pregnancy should be treated by instant delivery whereas postpartum HUS may resolve using protracted courses of TPE. In contrast, in thrombotic microangiopathy after bone marrow transplantation as well as in HUS due to cancer, mitomycin C, or after renal transplantation, TPE is of questionable value and indicated only as a last resort treatment.
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PMID:Extracorporeal plasma treatment in thrombotic thrombocytopenic purpura and hemolytic uremic syndrome: a review. 1146 54

Thrombotic microangiopathies (TMA) encompass various severe diseases characterized by microangiopathic hemolytic anemia and peripheral thrombocytopenia, associated with fever, neurological signs and renal involvement. Microvascular thrombosis is the typical lesion, and results in tissue ischemia. Thrombotic thrombocytopenic purpura (TTP) and hemolytic uremic syndrome (HUS) are the two most classical forms. These two entities are clinically and histopathologically closely related. There is a body of evidence suggesting that endothelial cell injury is the initial event in TTP and HUS, and that it may be related to a large number of triggering factors, such as infection, connective tissue disease, drugs, cancer and chemotherapy, transplantation, and pregnancy. Endothelial cell injury enhances the release of ultra large forms of von Willebrand factor (ULvWF) multimers and other prothrombotic agents, such as plasminogen activator inhibitor and platelet activating factor, whereas it decreases the release of prostaglandin-I2, a strong inhibitor of platelet aggregation. Recently however, it has been shown that TTP and HUS were pathophysiologically distinct. Actually, TTP is associated with a deficiency in von Willebrand factor-cleaving protease, an enzyme involved in cleavage of ULvWF into circulating 200 kDa and 350 kDa fragments. This deficiency may be either congenital or acquired, and then related to an IgG inhibitory autoantibody. This protease deficiency may account for the high amounts of plasmatic ULvWF in TTP patients. In HUS, vWF-cleaving protease activity is found normal. HUS encompasses two distinct entities. Epidemic, or diarrhea-associated HUS, is associated with verotoxin or Shiga toxin-associated enterobacteriaceae. These toxins are directly responsible for endothelial cell injury. Sporadic HUS (also termed atypical HUS in children) is closely related to TTP, and shares the same triggering factors. Familial HUS has been associated in some cases with hypocomplementemia and factor H dysfunction, the pathophysiological role of which remains unclear. The study of the different triggering factors and predisposing factors may be useful to define different subsets of TMA, that may be characterized by their course and prognosis.
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PMID:[Pathophysiology of thrombotic microangiopathies: current understanding]. 1221 98

The term thrombotic microangiopathy (TMA) encompasses syndromes of thrombocytopenia, microangiopathic haemolytic anaemia, neurologic deficits, renal dysfunction and variable signs of organ impairment. Childhood cases of TMA with predominant renal failure are usually referred as Haemolytic Uremic Syndrome (HUS), and adult cases with major neurological involvement as Thrombotic Thrombocytopenic Purpura (TTP). Exotoxins, produced in most cases by E. Coli O 157:H7, have been related to diarrhea associated HUS(D + HUS). Anticancer (mitomycin), immunosuppressive drugs (cyclosporin, tacrolimus and OKT3) and as well as some antiplatelet agents (ticlopidine, clopidrogel) have been associated with both HUS and TTP. Defective factor H or vWF protease activity have been found with familiar and recurrent forms. Endothelial damage and dysfunction is most likely the initial event of the pathogenic process that eventually leads to platelet aggregation, microvascular thrombosis and tissue ischemia. TMA may occur de novo in the native kidneys of patients who received a non-kidney transplant or in the transplanted kidney of patients who progressed to ESRD because of a disease other than HUS. Calcineurin inhibitors and vascular rejection are most often involved in these cases. The disease may also recur on the transplanted kidney in patients who progressed to ESRD because of HUS/TTP. The risk of postransplant recurrence is negligible for D + HUS but is close to 100% in familial/recurrent forms associated with low C3 and decreased factor H bioavailability or activity. Withdrawal or treatment of precipitating factors are the most effective approach. Plasma therapy is usually attempted with the rationale to limit the microangiopathic process, but its efficacy for improving graft survival is unproven. The outcome of recurrent forms is almost invariably poor.
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PMID:Thrombotic microangiopathy in renal transplantation. 1222 1

Hemolytic uremic syndrome (HUS) is a disease characterized by microangiopathic hemolytic anemia, thrombocytopenia, and acute renal failure. Recent studies have identified a factor H-associated form of HUS, caused by gene mutations that cluster in the C-terminal region of the complement regulator factor H. Here we report how three mutations (E1172Stop, R1210C, and R1215G; each of the latter two identified in three independent cases from different, unrelated families) affect protein function. All three mutations cause reduced binding to the central complement component C3b/C3d to heparin, as well as to endothelial cells. These defective features of the mutant factor H proteins explain progression of endothelial cell and microvascular damage in factor H-associated genetic HUS and indicate a protective role of factor H for tissue integrity during thrombus formation.
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PMID:Mutations in factor H reduce binding affinity to C3b and heparin and surface attachment to endothelial cells in hemolytic uremic syndrome. 1269 37

We report a patient with continuously recurring hemolytic-uremic syndrome due to factor H deficiency. First at the age of 3 months he showed signs of hemolytic anemia, thrombocytopenia and renal insufficiency, often recurring concomitantly with respiratory tract infections, despite weekly to twice weekly plasma substitution (20 ml/kg body weight). Now at the age of 3.5 years glomerular filtration rate is approximately 50 ml/min/1.73 m(2) and psychomotoric development is normal. Since factor H is mainly synthesized in the liver, hepatic transplantation has been proposed as curative treatment. Before justification of liver transplantation as the ultimate treatment for these patients, an international registry should be developed to optimize and standardize therapeutic alternatives.
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PMID:Successful (?) therapy of hemolytic-uremic syndrome with factor H abnormality. 1283 93

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 micro mol/l to 194 micro 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.
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PMID:Atypical relapse of hemolytic uremic syndrome after transplantation. 1530 Apr 78

Hemolytic-uremic syndrome (HUS) is the most common cause of acute renal failure in children below 3 years of age. It is defined by a triad of symptoms which associates hemolytic anemia with fragmented erythrocytes, thrombocytopenia and acute renal failure. Three types of HUS can be distinguished: typical HUS, also called diarrhoea-associated (D+HUS), very rare atypical HUS (D-HUS) and secondary HUS (drug induced, C+HUS, in patients receiving marrow transplantation, etc.). The common event among these entities appears to be vascular endothelial cell injury, which induces mechanical destruction of erythrocytes, activation of platelet aggregation and local intravascular coagulation, especially in the renal microvasculature. D+HUS represents 90% of HUS in children. Evidence of exposure to verotoxin (VT), shiga toxin (ST) producing Escherichia coli (VTEC or STEC) has been demonstrated in many countries in about 85% of cases. Serotype O157:H7 is the most frequent. Early and accurate supportive treatment and early start of dialysis is the major importance and allows a current mortality rate below 5%-10%. Vital prognosis is compromized in cases with multivisceral involvement. After 15 years or more of apparent recovery, 20 to 60% of patients have residual renal symptoms, with up to 20% having chronic renal insufficiency (CRI) or end-stage renal disease (ESRD). Atypical HUS represents less than 10% of HUS in children. Some of these cases (familial) are associated with low C3 levels, hereditary deficiency of factor H or with mutations in factor H gene. The deficiency of von Willebrand factor cleaving protease, as reported in adults with thrombotic thrombocytopenic purpura (TTP), is not present in D+HUS.
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PMID:[Hemolytic-uremic syndrome]. 1532 59

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