Natural history of hepatitis C virus infection in a cohort of asymptomatic post-transfused subjects.

UNLABELLED: BACKGROUND & AIMS. Studies about the natural history of hepatitis C virus (HCV) infection report variable progression to cirrhosis depending on study design. Retrospective cross-sectional liver clinic studies overestimate the rate of fibrosis progression due to inclusion of patients with more severe disease leaving mild and asymptomatic patients underrepresented. We evaluated fibrosis progression in a group of "healthy" asymptomatic subjects, attending to a voluntary campaign for the detection of HCV infection. MATERIAL AND METHODS: A detection campaign was launched on subjects transfused before 1993. Of 1699 volunteers, 61(3.6%) had HCV infection. A liver biopsy was performed in 40 (65%). Assessed risk factors for liver fibrosis were: sex, body mass index, alcohol consumption (> 20 g/d - > 40g/d ), genotype, HLA-DRB1 alleles, present age, age at infection and duration of infection. RESULTS: 25 (62.5%) were women with a median age of 52.5 years. The median duration of infection was 21.5 years with a median age at infection of 27 years. As regards fibrosis, 25 (62.5%) had a Low Stage (F0-F1), 8 patients, 20%, had severe fibrosis, one patient (2.5%) had cirrhosis. Alcohol consumption was the only risk factor associated with fibrosis progression. CONCLUSIONS: The low progression to cirrhosis may be explained by the clinical characteristics of our population: asymptomatic middle-aged "healthy" subjects infected at young age. The progression to severe fibrosis was noticeable; hence a longer follow-up might demonstrate changes in this outcome. Significant alcohol consumption clearly worsens the natural history of HCV infection; this is no so evident for occasional or mild alcohol consumers.

Genotyping approach for non-invasive foetal RHD detection in an admixed population.

BACKGROUND: Non-invasive foetal RHD genotyping can predict haemolytic disease of the foetus and the newborn in pregnancies with anti-D alloantibodies and also avoid antenatal anti-D prophylaxis in pregnant women carrying an RHD negative foetus. Considering that the Argentine genetic background is the result of generations of intermixing between several ethnic groups, we evaluated the diagnostic performance of a non-invasive foetal RHD determination strategy to guide targeted antenatal RhD immunoprophylaxis. This algorithm is based on the analysis of four regions of the RHD gene in cell-free foetal DNA in maternal plasma and maternal and paternal RHD genotyping. MATERIALS AND METHODS: DNA from 298 serologically D negative pregnant women between 19-28 weeks gestation were RHD genotyped. Foetal RHD status was determined by real-time PCR in 296 maternal plasma samples. In particular cases, RHDΨ and RHD-CE-Ds alleles were investigated in paternal DNA. Umbilical cord blood was collected at birth, and serological and molecular studies were performed. RESULTS: Of the 298 maternal samples, 288 were D-/RHD- and 10 D-/RHD+ (2 RHD*DAR; 5 RHD-CE-Ds; 3 RHDΨ). Plasma from RHD*DAR carriers was not analysed. Real-time PCR showed 210 RHD+ and 78 RHD- foetuses and 8 inconclusive results. In this latter group, paternal molecular studies were useful to report a RHD negative status in 5 foetuses while only 3 remained inconclusive. All the results, except one false positive due to a silent allele (RHD[581insG]), agreed with the neonatal typing performed in cord blood. DISCUSSION: The protocol used for non-invasive prenatal RHD genotyping proved to be suitable to determine foetal RHD status in our admixed population. The knowledge of the genetic background of the population under study and maternal and paternal molecular analysis can reduce the number of inconclusive results when investigating foetal RHD status.

The Dc(G48)e(s) haplotype is frequent among the Dce haplotypes within a white population.

BACKGROUND: The absence of hybrid Rhesus boxes denotes an RHD homozygous status and helps to detect the presence of Dce haplotypes instead of dce. RHCE exon 1 C48, characteristic of RHC alleles, and RHCE exon 5 G733, responsible for VS antigenicity, have been noted in many RHce alleles but it was not clearly established whether they occurred in the same allele and/or cosegregate together with RHD. STUDY DESIGN AND METHODS: Samples from 148 white trios (father, mother, and child) were studied. Rh phenotype was performed by hemagglutination. Hybrid Rhesus box, RHCE exon 1 G48C, RHCE exon 5 C733G, and RHC intron 2 polymorphisms were analyzed by polymerase chain reaction. Haplotypes were determined considering serologic, molecular, and segregation data. RESULTS: RHCE exon 1 C48 and RHCE exon 5 G733 were present in RHce alleles that cosegregated with RHD forming Dce haplotypes. Both transversions were not frequently found in the same RHce allele. Of the 33 Dce haplotypes, 16 (48.5%) had a C at position 48 [Dc(C48)e], 11 (33.3%) had a G at position 48 with a G at position 733 [Dc(G48)e(s)], 5 (15.2%) had a G at position 48 [Dc(G48)e], and 1 (3.0%) had a C at position 48 with a G at position 733 [Dc(C48)e(s)]. CONCLUSIONS: The results show four molecular backgrounds for the Dce haplotype and reflect the contribution of African alleles to the genetic pool of the population under study. The molecular characterization of Dce and its frequency distribution may develop a better understanding of the phylogeny of Rh haplotypes.

Enfermedad hemolítica fetoneonatal: estudio prenatal del genotipo RHD / Feto-neonatal hemolytic disease: prenatal study of RHD genotype

El objetivo de este trabajo fue determinar la presencia del gen RHD en células fetales obtenidas de líquido amniótico por PCR. Se estudiaron 65 muestras de líquido amniótico, 11 de madres RhD negativas sensibilizadas con anti-D. Se confirmó el origen fetal del ADN analizando un locus VNTR y 3 loci STR en las muestras de ADN de líquido amniótico y sangre materna. En las muestras no contaminadas (n = 62) se realizó la genotipificación RHD utilizando una estrategia de PCR multiplex que permite la obtención de tres productos de amplificación en los fenotipos RhD positivos y sólo un fragmento de ADN en los fenotipos RhD negativos. Se genotipificaron 54 fetos RhD positivos (8 de madres RhD negativas sensibilizadas) y 8 fetos RhD negativos (3 de madres RhD negativas sensibilizadas). La genotipificación del ADN fetal permite diagnosticar con una única amniocentesis fetos en riesgo real de enfermedad hemolítica fetoneonatal y evitar la utilización de métodos invasivos en casos de fetos RhD negativos. (AU)

Enfermedad hemolítica fetoneonatal: estudio prenatal del genotipo RHD / Feto-neonatal hemolytic disease: prenatal study of RHD genotype

El objetivo de este trabajo fue determinar la presencia del gen RHD en células fetales obtenidas de líquido amniótico por PCR. Se estudiaron 65 muestras de líquido amniótico, 11 de madres RhD negativas sensibilizadas con anti-D. Se confirmó el origen fetal del ADN analizando un locus VNTR y 3 loci STR en las muestras de ADN de líquido amniótico y sangre materna. En las muestras no contaminadas (n = 62) se realizó la genotipificación RHD utilizando una estrategia de PCR multiplex que permite la obtención de tres productos de amplificación en los fenotipos RhD positivos y sólo un fragmento de ADN en los fenotipos RhD negativos. Se genotipificaron 54 fetos RhD positivos (8 de madres RhD negativas sensibilizadas) y 8 fetos RhD negativos (3 de madres RhD negativas sensibilizadas). La genotipificación del ADN fetal permite diagnosticar con una única amniocentesis fetos en riesgo real de enfermedad hemolítica fetoneonatal y evitar la utilización de métodos invasivos en casos de fetos RhD negativos.