Zhongguo shuxue zazhi (Jan 2024)

Serological and molecular biological characteristics of hepatitis B vaccinated donors with asymptomatic chronical infection in Shenzhen

  • Xianlin YE,
  • Tong LI,
  • Ruonan WANG,
  • Ran LI,
  • Heng LIU,
  • Jinfeng ZENG

DOI
https://doi.org/10.13303/j.cjbt.issn.1004-549x.2024.01.005
Journal volume & issue
Vol. 37, no. 1
pp. 26 – 31

Abstract

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Objective To investigate asymptomatic infection of hepatitis B virus(HBV) among hepatitis B vaccinated donors in Shenzhen, and analyze its serological and molecular characteristics. Methods The HBsAg ELISA positive blood samples of blood donors born after 1992 were collected. HBsAg, anti-HBs, HBeAg, anti-HBe and anti-HBc were further detected by Roche electrochemiluminescence immunoassay (ECL). BCP/PC and S regions were amplified by Nested-PCRs, HBV DNA quantification were adopted by qPCR simultaneously, and the sequences were also analyzed. Results A total of 46 632 blood samples of donors(31 612 males and 15 020 females) from December 2020 to January 2022 collected, and 99 samples with HBsAg ELISA positive were screened out. After tested by ECL, Nested-PCRs, and real-time fluorescence PCR, 61 were confirmed HBsAg positive, with the positive rate at 0.13% (61/46 632), including 49 males (0.16%, 49/31 612) and 12 females (0.08%, 12/15 020). The HBsAg positive rate of males was higher than that of females (P<0.05). 50 out of 61 sequences for S region were obtained. By phylogenetic analysis, there were 46 cases of type B (92%, 46/50, 38 males and 8 females), 4 cases of type C (8%, 4/50, 3 males and 1 female). The high frequency mutations observed in S region were N40S (8/46,17.39%), G44E (7/46,15.22%), Q129H/R(6/46,13.04%), Y161F/S(7/46, 15.22%), V179A(4/46,8.70%), S53L(2/4,50%), C69T(2/4,50%) and I126S/T(2/4,50%), including the immune escape mutations Q129R and T/I126A/N/S/T. Conclusion Hepatitis B vaccination can significantly reduce the positive rate of HBsAg and increase the safety of blood transfusion. The high frequency immune escape mutations have become a potential risk of blood safety, and need to be further explored.

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