Peter Gowland scite author profile

BACKGROUND: The risk of transfusion‐transmitted hepatitis B virus (HBV) in Switzerland by testing blood donors for hepatitis B surface antigen (HBsAg) alone has been historically estimated at 1:160,000 transfusions. The Swiss health authorities decided not to introduce mandatory antibody to hepatitis B core antigen (anti‐HBc) testing but to evaluate the investigation of HBV nucleic acid testing (NAT). STUDY DESIGN AND METHODS: Between June 2007 and February 2009, a total of 306,000 donations were screened routinely for HBsAg and HBV DNA by triplex individual‐donation (ID)‐NAT (Ultrio assay on Tigris system, Gen‐Probe/Novartis Diagnostics). ID‐NAT repeatedly reactive donors were further characterized for HBV serologic markers and viral load by quantitative polymerase chain reaction. The relative sensitivity of screening for HBsAg, anti‐HBc, and HBV DNA was assessed. The residual HBV transmission risk of NAT with or without anti‐HBc and HBsAg was retrospectively estimated in a mathematical model. RESULTS: From the 306,000 blood donations, 31 were repeatedly Ultrio test reactive and confirmed HBV infected, of which 24 (77%) and 27 (87%) were HBsAg and anti‐HBc positive, respectively. Seven HBV‐NAT yields were identified (1:44,000), two pre‐HBsAg window period (WP) donations (1:153,000) and five occult HBV infections (1:61,000). Introduction of ID‐NAT reduced the risk of HBV WP transmission in repeat donors from 1:95,000 to 1:296,000. CONCLUSIONS: Triplex NAT screening reduced the HBV WP transmission risk approximately threefold. NAT alone was more efficacious than the combined use of HBsAg and anti‐HBc. The data from this study led to the decision to introduce sensitive HBV‐NAT screening in Switzerland. Our findings may be useful in designing more efficient and cost‐effective HBV screening strategies in low‐prevalence countries.

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In‐frame triplet deletions in RHD alter the D antigen phenotype

Flegel

Eicher²,

Doescher³

et al. 2006

Transfusion

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Partial D may be caused by a single-amino-acid deletion in RhD. The altered RhD protein segments in DVL types are adjacent to the extracellular loop 4, which constitutes one of the most immunogenic parts of the D antigen. These RhD protein segments are also altered in all DV, which may explain the similarity in phenotype. At the nucleotide level, the triplet deletions may have resulted from replication slippage. A total of nine amino acid positions in an Rhesus protein may be affected by this mechanism.

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Current hepatitis E virus seroprevalence in Swiss blood donors and apparent decline from 1997 to 2016

Niederhauser

Widmer

Hotz

et al. 2018

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Background and aimHepatitis E virus (HEV) is a virus of emerging importance to transfusion medicine. Studies from several European countries, including Switzerland, have reported high seroprevalence of hepatitis E as a consequence of endemic infections. Published HEV seroprevalence estimates within developed countries vary considerably; primarily due to improved diagnostic assays. The purpose of this study was to investigate the seroprevalence of anti-HEV IgG in Swiss blood donations. Methods: We used the highly sensitive Wantai HEV IgG EIA and assessed regional distribution patterns. We analysed age- and sex-matched archive plasma dating back 20 years from canton Bern to investigate recent changes in HEV seroprevalence levels. Results: On average, 20.4% (95% confidence intervals: 19.1–21.8) of the 3,609 blood samples collected in 2014–16 were anti-HEV IgG positive; however, distinct differences between geographical regions were observed (range: 12.8–33.6%). Seroprevalence increased with age with 30.7% of males and 34.3% of women being positive donors over > 60 years old. Differences between sexes may be attributed to dissimilarities in the average age of this group. Within the specified region of the Bern canton, overall prevalence has declined over two decades from 30.3% in 1997/98 to 27.0% in 2006 and 22.3% in 2015/6. Conclusions: HEV seroprevalence in Switzerland is high, but has declined over the last decades. The result shows that primarily endemic HEV infections occur and that current blood products may pose a risk to vulnerable transfusion recipients. Nucleic acid screening of all blood products for HEV will begin in November 2018.

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Molecular and serologic tracing of a transfusion‐transmitted hepatitis A virus

et al. 2004

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Peter Gowland

Implementation of a mandatory donor RHD screening in Switzerland

Efficacy of individual nucleic acid amplification testing in reducing the risk of transfusion‐transmitted hepatitis B virus infection in Switzerland, a low‐endemic region

In‐frame triplet deletions in RHD alter the D antigen phenotype

Current hepatitis E virus seroprevalence in Swiss blood donors and apparent decline from 1997 to 2016

Molecular and serologic tracing of a transfusion‐transmitted hepatitis A virus

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