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Electrocatalytic on-site oxygenation for transplanted cell-based-therapies

Author

Listed:
  • Inkyu Lee

    (Carnegie Mellon University)

  • Abhijith Surendran

    (Northwestern University)

  • Samantha Fleury

    (Rice University)

  • Ian Gimino

    (Carnegie Mellon University)

  • Alexander Curtiss

    (Northwestern University)

  • Cody Fell

    (Rice University)

  • Daniel J. Shiwarski

    (Carnegie Mellon University)

  • Omar Refy

    (Carnegie Mellon University)

  • Blaine Rothrock

    (Northwestern University)

  • Seonghan Jo

    (Carnegie Mellon University)

  • Tim Schwartzkopff

    (Carnegie Mellon University)

  • Abijeet Singh Mehta

    (Northwestern University)

  • Yingqiao Wang

    (Carnegie Mellon University)

  • Adam Sipe

    (The Pennsylvania State University)

  • Sharon John

    (Carnegie Mellon University)

  • Xudong Ji

    (Northwestern University
    Northwestern University)

  • Georgios Nikiforidis

    (Northwestern University)

  • Adam W. Feinberg

    (Carnegie Mellon University
    Carnegie Mellon University)

  • Josiah Hester

    (Georgia Institute of Technology)

  • Douglas J. Weber

    (Carnegie Mellon University
    Carnegie Mellon University
    Carnegie Mellon University)

  • Omid Veiseh

    (Rice University)

  • Jonathan Rivnay

    (Northwestern University
    Northwestern University
    Northwestern University)

  • Tzahi Cohen-Karni

    (Carnegie Mellon University
    Carnegie Mellon University)

Abstract

Implantable cell therapies and tissue transplants require sufficient oxygen supply to function and are limited by a delay or lack of vascularization from the transplant host. Previous exogenous oxygenation strategies have been bulky and had limited oxygen production or regulation. Here, we show an electrocatalytic approach that enables bioelectronic control of oxygen generation in complex cellular environments to sustain engineered cell viability and therapy under hypoxic stress and at high cell densities. We find that nanostructured sputtered iridium oxide serves as an ideal catalyst for oxygen evolution reaction at neutral pH. We demonstrate that this approach exhibits a lower oxygenation onset and selective oxygen production without evolution of toxic byproducts. We show that this electrocatalytic on site oxygenator can sustain high cell loadings (>60k cells/mm3) in hypoxic conditions in vitro and in vivo. Our results showcase that exogenous oxygen production devices can be readily integrated into bioelectronic platforms, enabling high cell loadings in smaller devices with broad applicability.

Suggested Citation

  • Inkyu Lee & Abhijith Surendran & Samantha Fleury & Ian Gimino & Alexander Curtiss & Cody Fell & Daniel J. Shiwarski & Omar Refy & Blaine Rothrock & Seonghan Jo & Tim Schwartzkopff & Abijeet Singh Meht, 2023. "Electrocatalytic on-site oxygenation for transplanted cell-based-therapies," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-42697-2
    DOI: 10.1038/s41467-023-42697-2
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    References listed on IDEAS

    as
    1. Qian Dang & Haiping Lin & Zhenglong Fan & Lu Ma & Qi Shao & Yujin Ji & Fangfang Zheng & Shize Geng & Shi-Ze Yang & Ningning Kong & Wenxiang Zhu & Youyong Li & Fan Liao & Xiaoqing Huang & Mingwang Shao, 2021. "Iridium metallene oxide for acidic oxygen evolution catalysis," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    2. Hong Nhan Nong & Lorenz J. Falling & Arno Bergmann & Malte Klingenhof & Hoang Phi Tran & Camillo Spöri & Rik Mom & Janis Timoshenko & Guido Zichittella & Axel Knop-Gericke & Simone Piccinin & Javier P, 2020. "Key role of chemistry versus bias in electrocatalytic oxygen evolution," Nature, Nature, vol. 587(7834), pages 408-413, November.
    Full references (including those not matched with items on IDEAS)

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