Secure Organ Donation Management: Leveraging Ethereum Based Blockchain Technology for Trust and Efficiency

Abstract

The complexity of organ donation and transplantation in today's healthcare systems need specialized methods at several stages, including registration, donor-recipient matching, organ retrieval, delivery, and transplantation. In order to ensure justice, efficiency, patient happiness, and confidence, a comprehensive solution is required to address the legal, clinical, ethical, and technical difficulties. This paper proposes to use a private Ethereum blockchain to create a decentralized, secure, traceable, auditable, private, and trustworthy system. By creating smart contracts and putting six algorithms into practice, we offer comprehensive insights into validation and testing. We demonstrate the efficacy of our suggested approach using a comparative analysis with current solutions andprivacy, security, and confidentiality studies. Adopting a private Ethereum blockchain- based solution also has benefits over conventional centralized systems. Decentralization lowers the possibility of bias or manipulation by ensuring that no one party controls the entire process. Furthermore, the immutability and transparency that come with blockchain technology improve confidence between all parties involved, including regulators, donors, beneficiaries, and medical experts. KEYWORDS: Blockchain, Organ Donation, Organ Transplantation, Decentralization, Smart Contracts, Ethereum, Traceability, Data Privacy And Security.