Blockchain & AI for Biomedical Applications
News Nov 21, 2017 | Original story from the Biogerontology Research Foundation
Biogerontology Research Foundation Chief Science Officer (CSO) co-authored the landmark paper in the journal Oncotarget on the convergence of blockchain and AI to decentralize and galvanize healthcare and biomedical research. In the paper, Alex Zhavoronkov, PhD, alongside the collaborators from Insilico Medicine and the BitFury Group introduce a blockchain-enabled framework for empowering patients to gain more control over their own clinical data, and to profit from the licensing of their data, putting the power and profits of life science data back into the hands of patients.
"This new paper in Oncotarget does more than advocate for increased patient empowerment and more efficient and decentralized management of patient data. It also puts forward a roadmap toward how decentralized, blockchain-based patient data ecosystem can enable the development of more comprehensive clinical databases, which would serve to galvanize progress in drug discovery, biomarker development, and preventative healthcare. Patients currently have little incentive to contribute to such databases, resulting in a dearth of such databases for use in the life sciences community and industry, in comparison to what might be if patients had more incentive to contribute to such databases. By providing a system to incentivize patients by providing them with tangible compensation for the collection and use of their data, blockchain-based patient data management systems could serve to accelerate progress in biomedicine in general by increasing the quality and comprehensiveness of clinical databases for use by biomedical researchers, institutions and companies alike" said Franco Cortese, Deputy Director of the Biogerontology Research Foundation.
The paper also introduces a roadmap to how blockchain-enabled patient data ecosystems could galvanize progress in the life sciences sector in general. Secure, transparent and decentralized data marketplaces could serve to create a data-driven marketplace rather than a marketplace operating in an environment of comparative data scarcity, while simultaneously alleviating certain challenges faced by regulators and policymakers, including how to ethically use patient data for drug discovery and biomarker development.
"Blockchain technologies are rapidly decentralizing and disrupting more fields and industries with each passing day. The disruptive potential of crypto economy and blockchain technologies has become apparent to many over the past year, and the time for its decentralizing potential to impact the life sciences space is upon us. Since its inception the Biogerontology Research Foundation has strove to stay on the cutting edge of applying highly innovative and disruptive cross-disciplinary approaches to geroscience and aging research, such as through its extensive use of AI and deep learning to the problem of biological aging, and this newest paper marks the beginning of the foundation's efforts to apply blockchain technology to the life sciences arena" said Dmitry Kaminskiy, Managing Trustee of the Biogerontology Research Foundation.
This article has been republished from materials provided by Biogerontology Research Foundation. Note: material may have been edited for length and content. For further information, please contact the cited source.
Some Immune Cells May Help Tumors Instead of Destroying ThemNews
New data shows that neutrophils promote tumor progression and can actually hamper the work of immunotherapy in lung cancer.READ MORE
Agent Reverses Resistance to Targeted Drug in Some LeukemiasNews
After discovering how some hematologic cancer cells manage to elude death from a targeted therapy, Dana-Farber Cancer Institute scientists have double-crossed the cancer cells with a drug that renders them vulnerable to the targeted agent.READ MORE
Blueprints for Anti-cancer Drugs Identified in Bacterial GenomesNews
Scientists have now brought the family of LNM molecules even closer to clinical testing by “mining” the information stored in bacteria genomes. Their research suggests these hidden genes hold the blueprints for designing new, even more effective cancer-targeting compounds.READ MORE