Non-Fungible Tokens for Organoids: Decentralized Biobanking to Empower Patients in Biospecimen Research.

Blockchain in healthcare today Pub Date : 2024-04-30 eCollection Date: 2024-01-01 DOI:10.30953/bhty.v7.303
William Sanchez, Larue Linder, Robert C Miller, Amelia Hood, Marielle S Gross
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Abstract

Introduction: Scientists use donated biospecimens to create organoids, which are miniature copies of patient tumors that are revolutionizing precision medicine and drug discovery. However, biobanking platforms remove donor identifiers to protect privacy, precluding patients from benefiting from their contributions or sharing information that may be relevant to research outcomes. Decentralized biobanking (de-bi) leverages blockchain technology to empower patient engagement in biospecimen research. We describe the creation of the first de-bi prototype for an organoid biobanking use case.

Methods: We designed and developed a proof-of-concept non-fungible tokens (NFTs) framework for an organoid research network of patients, physicians, and scientists within a synthetic dataset modeled on a real-world breast cancer organoid ecosystem. Our implementation deployed multiple smart contracts on Ethereum test networks, minting NFTs representing each stakeholder, biospecimen, and organoid. The system architecture was designed to be composable with established biobanking programs.

Results: Our de-bi prototype demonstrated how NFTs representing patients, physicians, scientists, and organoids may be united in a privacy-preserving platform that builds upon relationships and transactions of existing biobank research networks. The mobile application simulated key features, enabling patients to track their biospecimens, view organoid images and research updates from scientists, and allow physicians to participate in peer-to-peer communications with basic scientists and patients alike, all while ensuring compliance with de-identification requirements.

Discussion: We demonstrate proof-of-concept for a web3 platform engaging patients, physicians, and scientists in a dynamic research community, unlocking value for a model organoid ecosystem. This initial prototype is a critical first step for advancing paradigm-shifting de-bi technology that provides unprecedented transparency and suggests new standards for equity and inclusion in biobanking. Further research must address feasibility and acceptability considering the ethical, legal, economic, and technical complexities of organoid research and clinical translation.

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器官组织的非风化代币:去中心化生物银行,在生物样本研究中为患者赋权。
导读:科学家利用捐赠的生物标本制作器官组织:科学家利用捐赠的生物标本制作器官组织,这是患者肿瘤的微型复制品,为精准医疗和药物发现带来了革命性的变化。然而,生物银行平台会删除捐赠者的身份信息以保护隐私,从而使患者无法从他们的贡献中获益,也无法分享可能与研究成果相关的信息。去中心化生物银行(de-bi)利用区块链技术增强了患者参与生物样本研究的能力。我们介绍了首个针对类器官生物银行用例的去中心化生物银行原型的创建过程:方法:我们设计并开发了一个概念验证型不可篡改代币(NFTs)框架,用于在一个以真实世界乳腺癌类器官生态系统为模型的合成数据集内建立一个由患者、医生和科学家组成的类器官研究网络。我们的实施方案在以太坊测试网络上部署了多个智能合约,铸造代表每个利益相关者、生物样本和类器官的 NFT。该系统架构旨在与现有的生物银行项目兼容:我们的去比特化原型展示了如何将代表患者、医生、科学家和类器官的 NFT 整合到一个隐私保护平台中,该平台以现有生物银行研究网络的关系和交易为基础。该移动应用程序模拟了主要功能,使患者能够跟踪他们的生物样本、查看类器官图像和科学家的研究更新,并允许医生参与与基础科学家和患者的点对点交流,同时确保符合去身份化要求:我们展示了一个网络3平台的概念验证,该平台让患者、医生和科学家参与到一个动态的研究社区中,为一个类器官模型生态系统释放价值。这个初始原型是推动改变生物银行技术模式的关键性第一步,它提供了前所未有的透明度,并为生物银行的公平性和包容性提出了新的标准。考虑到类器官研究和临床转化在伦理、法律、经济和技术方面的复杂性,进一步的研究必须解决可行性和可接受性问题。
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