UMLS:C0018801 - FACTA Search

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human parvovirus B19 is a recently recognized cause of hydrops fetalis. It is a small, single-stranded DNA virus, which preferentially infects late erythroid precursors and produces red blood cell (RBC) aplasia, fetal anemia, and cardiac failure. Infection is accompanied by characteristic intranuclear inclusions in fixed and circulating RBC precursors. These inclusions have been shown to contain virus particles by electron microscopy and in situ hybridization. Infection of the fetus, mother, and newborn infant can be diagnosed by serological and molecular methods selected to match the stage of the infection. Recent work has shown that parvovirus B19 can infect cells other than erythroid precursors, and that additional mechanisms such as myocarditis may contribute to hydrops fetalis in some cases. Infected fetuses are not always hydropic. Maternal infection results in increased abortion and stillbirth even in the absence of transplacental transmission, which occurs in approximately one third of infected mothers. The overall risk of fetal loss following maternal exposure is much less than previously thought, and may be less than 3% in the first 20 weeks of gestation or approximately 10% if the mother is actually infected. Although parvoviruses are teratogenic in animals, there is no evidence that B19 is a significant teratogen in man. The long-term outlook of survivors of intrauterine infection, including those successfully treated by intrauterine blood transfusion, appears to be good, but requires further study.
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PMID:Parvovirus infection of the human fetus and newborn. 156 88

Canine parvovirus (CPV) myocarditis was diagnosed in 11 puppies during 1979. The diagnosis was made at histopathological examination on the basis of 2 characteristic lesions: a subacute to chronic fibrous myocarditis and the presence of large, basophilic intranuclear inclusions in the cardiac myofibres. The puppies varied from 31/2 to 8 weeks of age and all died suddenly without prior symptoms except for 1 pup which developed a severe respiratory dyspnoea 12 h before death. The presence of white bands or streaks of fibrosis on the endocardial or epicardial surfaces of the ventricles was a characteristic gross finding in 65% of cases. In all cases the lungs revealed a pneumonitis noted as hypercellularity and thickening of the alveolar walls. Alveolar macrophages were present within the alveolar lumens. The latter lesion was regarded to be secondary to heart failure. The clinical symptoms and pathological lesions observed are discussed and compared to these noted by various other workers both in South African and in other countries.
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PMID:Canine parvovirus myocarditis: clinical signs and pathological lesions encountered in natural cases. 727 70

The review of 15 cases of cardiac involvement demonstrate the cardiac tropism of the human parvovirus B19. Ten of these cases were collected from fetuses during second trimester of maternal-fetal infections. In situ hybridisation detects viral DNA sequences in the nucleus of infected myoblasts. Myocarditis is the most frequent histological damage. Cardiac failure, secondary to myocarditis, may occur in the absence of fetal anaemia. When the fetus is deeply anaemic, like usually in cases of hydrops, damages of the cardiac tissues might hamper the reactional increase of cardiac output; therefore, they might account for the poor prognosis of parvovirus B19 fetal hydrops in the second trimester of pregnancy, despite transfusional therapy attempts in the third trimester.
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PMID:[Cardiac involvement in fetal parvovirus B19 infection]. 853 80

A report is presented of a patient with neonatal erythema infectiosum who developed petechiae, transient thrombocytopenia and transient cardiac failure due to transplacental transmission of human parvovirus B19 (HPV B19) infection. It is suggested that the thrombocytopenia was caused by platelet-associated IgG produced by the patient, and that the cardiac failure may have been caused by direct entry of HPV B19 into the cardiac tissue.
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PMID:Neonatal erythema infectiosum. 958 10

Intrauterine human parvovirus B19 infection is related to non-immune hydrops fetalis and fetal death. First, we performed epidemiological studies to determine the critical period during which maternal infection led to hydrops fetalis. The studies showed that the hepatic period of hematopoietic activity was correlated with the critical period of maternal infection, which suggested that B19 might have affinity for erythroid lineage cells at the stage of hematopoiesis. We next established an in vitro infection experimental system of B19 using erythroid lineage cells derived from fetal liver cells. We demonstrated that the erythroid lineage cells proved to be appropriate targets for B19 virus and that B19 infection could induce apoptosis of infected cells. The massive destruction of erythroid lineage cells through apoptosis seems to cause severe anemia and to result in heart failure of the fetus. To analyze the cytotoxic mechanism in more detail, we established a stringent regulatory expression system of the NS1 protein encoded by the B19 genome and indicated that the apoptosis induced by B19 was directly caused by the NS1 protein. Experiments using mutations engineered in the ATP-binding domain of NS1 indicated that this domain played a critical role for the apoptosis induction. The present studies may contribute to a better understanding of the pathogenesis of hydrops fetalis associated with B19 infection during pregnancy.
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PMID:Pathogenesis of nonimmune hydrops fetalis caused by intrauterine B19 infection. 1077 Jun 16

Parvovirus B19 infection during pregnancy causes up to 27% cases of non-immune hydrops in anatomically normal fetuses. The virus is believed to cause arrest of maturation of red blood cell precursors at the late normoblast stage and also causes a decrease in the number of platelets. Fetal anemia is presently thought to be responsible for the development of skin edema and effusions. Myocarditis leading to heart failure may contribute to the development of fetal hydrops. We reviewed the literature regarding prevalence, transmission rates, clinical presentation, diagnostic techniques, current invasive vs. conservative management options, outcome and postmortem findings in a total of 82 studies involving 230 invasively and 435 conservatively managed pregnancies. In this non-selected population, the proportion of seronegative susceptible mothers ranged from 19 to 65%, seroconversion with an incubation time of up to 20 days occurred in 5.7-12.1%, and 188/230 (82%) who were transfused infected fetuses had a normal outcome as opposed to only 239/435 (55%) in the conservatively managed group. The average time from diagnosis to resolution in both groups was 6 weeks (range, 3-12 and 2-12 weeks, respectively). The most promising diagnostic techniques were PCR of amniotic fluid or fetal blood and electron microscopy. There are some reports of fetal abnormalities occurring (probably coincidentally) in cases of parvovirus, but the majority of postmortem findings were infection-related, in particular myocarditis and hepatic abnormalities. Although management guidelines cannot be derived from this study due to the variable degree of hydrops in the analyzed studies, the present data suggest a benefit of transfusion therapy over conservative management in infected fetuses. The only study which was corrected for severity of hydrops using ultrasound criteria showed a clear benefit of intrauterine transfusion.
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PMID:Fetal parvovirus B19 infection. 1155 63

Nonimmune hydrops fetalis (NIHF) is used to describe fetuses and newborns with generalized edema and cavity effusions. It is helpful to alert physicians about the presence of anemia, heart failure, and/or hypoproteinemia, but this diagnosis is frequently overlooked. We reviewed the autopsy files from 1990 to 2000, selected all cases with NIHF including clinical information (with maternal laboratory tests and ultrasound), and classified patients by etiology. Among 840 stillborn autopsies during the 11-year period, we found 51 with NIHF (6.07%). The clinical summary had mentioned hydrops in 14 patients and the etiology in another 7 by fetal ultrasonography, but without addressing the possibility of hydrops. In the remaining 30 cases neither hydrops nor an etiology was mentioned. Other pertinent diagnoses were maternal diabetes mellitus (4), congenital heart disease (3), and cystic hygroma (2). The following diagnoses were made in one instance each: cardiac tumor, twin transfusion syndrome, congenital adenomatoid malformation, syphilis, Turner syndrome, and cerebral arteriovenous malformation. Postmortem and placental examination confirmed the following etiologies: congenital infections (17); placental pathology significant enough to explain NIHF (10); cardiovascular diseases (8) (further classified as congenital heart disease [3], rhabdomyoma [1], and vascular malformations [4]); chromosomal abnormalities (6); uncontrolled maternal diabetes (4); intrathoracic lesions (2); prune-belly syndrome (2); and idiopathic NIHF (2). Only 3.9% of the cases studied had no identifiable etiology. The cause of hydrops was confirmed by autopsy in 47 fetuses (92%), which further supports the importance of performing an autopsy. Thirty-two cases (62.74%) had placental abnormalities helpful to the etiology (parvovirus, syphilis, Turner's syndrome, etc.). In 20 instances, the clinical summary had no mention of either hydrops or any of the diseases leading to it. The autopsy in conjunction with placental examination and fetal ultrasound represent the best combination to determine the etiology of NIHF among stillborn fetuses.
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PMID:Value of autopsy in nonimmune hydrops fetalis: series of 51 stillborn fetuses. 1201 30

A report is given on an 8-year-old boy who suddenly and unexpected died. Autopsy findings point to acute heart failure. Microscopic examination of the heart showed increased interstitial and perivasal fibrosis and myocarditis with macrophage infiltration. Polymerase chain reaction (PCR) analysis for parvovirus B19 was positive in heart samples and in the spleen. Immunostaining for parvoviral surface antigens was negative. Although the virus does not appear to have infected the cardiomyocytes, we speculate that myocarditis arose from immunological cross-reaction to epitopes shared between the virus and the myocardium.
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PMID:Fatal parvovirus B19 myocarditis in an 8-year-old boy. 1453 5

We report the case of a 34-year-old female patient who died 4 days after hospital admission of acute heart failure clinically mimicking ischemic heart disease. Microscopic examination of the heart showed severe myocarditis. Polymerase chain reaction (PCR), including quantitative real-time PCR, disclosed exclusively parvovirus B19 (PVB19), with a high viral load of 4.3x10(5) PVB19 viral genome equivalents per microg myocardial nucleic acid. Radioactive in situ hybridization detected viral genomes in endothelial cells (ECs) predominantly in the venular compartment and (to a lesser degree) in small arteries and arterioles of the heart, but not in cardiac myocytes or other tissue components. Concomitant with EC infection, marked expression of the adhesion molecule E-selectin was noted, accompanied by margination, adherence, penetration, and perivascular infiltration of T lymphocytes. We speculate that, due to the high viral load in cardiac ECs, PVB19 infection of endothelial cells was sufficient to induce impaired coronary microcirculation with secondary cardiac myocyte necrosis.
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PMID:Fatal parvovirus B19-associated myocarditis clinically mimicking ischemic heart disease: an endothelial cell-mediated disease. 1260 72

Endomyocardial biopsy (EMB) is often performed in patients presenting with sudden onset of heart failure to identify myocarditis. The introduction of immunohistochemical techniques for the detection and differentiation of infiltrating immune cells, specific adhesion molecules and MHC class I and II molecules increased the prognostic value of EMB in the diagnosis of myocarditis considerably. A major breakthrough in the understanding of pathogenetic mechanisms in myocarditis was achieved by diagnostic use of molecular biological methods. By application of in situ hybridization and PCR, enteroviruses, and more recently, parvovirus B19 (PVB19) have been identified as relevant agents of myocarditis. The different cell tropism of these viruses implicates distinct pathogenic principles, which, at present, are not completely understood. Whereas enteroviruses damage the heart primarily via direct lysis of infected myocytes, PVB19 does not infect myocytes, but endothelial cells of small intracardiac arterioles and venules, resulting in impairment of myocardial microcirculation with secondary myocyte necrosis during acute infection. Histological and immunohistological stainings combined with molecular biological approaches in EMB will help us to resolve the question of whether patients with myocarditis should be treated by specific antiviral agents or by immunosuppressive therapies.
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PMID:Molecular pathology of inflammatory cardiomyopathy. 1292 May 83

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