6533b7d8fe1ef96bd1269a31
RESEARCH PRODUCT
Molecular epidemiology and forensic genetics: application to a hepatitis C virus transmission event at a hemodialysis unit.
Fernando González-candelasMaría Alma BrachoAndrés Moyasubject
Genes ViralHepacivirusHepatitis C virusComputational biologyHepacivirusmedicine.disease_causeGenomelaw.inventionDisease OutbreakslawRenal DialysismedicineImmunology and AllergyHumansPolymerase chain reactionPhylogenyCross InfectionPhylogenetic treebiologyMolecular epidemiologyGenetic VariationHepatitis Cmedicine.diseasebiology.organism_classificationVirologyHepatitis CHypervariable regionInfectious DiseasesHemodialysis Units HospitalRNA Viraldescription
Molecular phylogenetic analyses are frequently used in epidemiologic testing, although only occasionally in forensics. Their acceptability is hampered by a lack of statistical confidence in the conclusions. However, maximum likelihood testing provides a sound statistical framework for the testing of phylogenetic hypotheses relevant for forensic analysis. We present the results of applying this method to a small hepatitis C outbreak produced in a hospital hemodialysis unit that involved 6 patients. Polymerase chain reaction products from a 472-nt fragment of the E1-E2 region, including the hypervariable region, HVR-1, of the hepatitis C virus genome were cloned, and an average of 10 clones/patient and from 11 additional control patients were sequenced. The method allows a statistical evaluation that the likelihood of each sample belonging or not to a given group, a question of relevance in many forensic and epidemiological analyses of molecular sequences.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2002-07-08 | The Journal of infectious diseases |