Bioactive Materials (Feb 2023)

A breakthrough trial of an artificial liver without systemic heparinization in hyperbilirubinemia beagle models

  • Yilin Wang,
  • Shanshan Wang,
  • Xueqin He,
  • Yupei Li,
  • Tao Xu,
  • Lin Xu,
  • Bo Yang,
  • Xinnian Fan,
  • Weifeng Zhao,
  • Changsheng Zhao

Journal volume & issue
Vol. 20
pp. 651 – 662

Abstract

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The development of wearable artificial livers was restricted to device miniaturization and bleeding risk with water-soluble anticoagulants. Herein, a double-deck column filled with solid anticoagulant microspheres and Kevlar porous microspheres (KPMs, bilirubin adsorbents) was connected with the principle machine of wearable artificial liver (approximately 9 kg) to treat hyperbilirubinemia beagles for the first time. With the initial normal dose of heparin, the double-deck column could afford 3 h hemoperfusion in whole blood without thrombus formation. The removal efficiency of the double-deck column for total bilirubin (TBIL) was 31.4%. Interestingly, the excessive amounts of hepatocyte metabolites were also decreased by approximately 25%. The “anticoagulant + column” realized safe and effective whole blood hemoperfusion without the plasma separation system and heparin pump; however, the proposed principle machine of wearable artificial liver and “anticoagulant + column” cannot completely replace the bio-liver now. The intelligence of the device and the versatility of the adsorbent need to be improved; moreover, advanced experimental techniques need to be developed to validate the survival rates in animals. Overall, this study is a meaningful trial for the development of wearable artificial livers in the future.

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