Journal
ADVANCED SCIENCE
Volume 6, Issue 1, Pages -Publisher
WILEY
DOI: 10.1002/advs.201801039
Keywords
biomaterials; cell engineering; organs-on-chips; personalized devices; personalized implants
Categories
Funding
- National Institutes of Health [5R01AR057837-06, 1R01EB021857-02, 1R01AR066193-03, 1U01CA214411-01A1, 1R01HL137193-01, 1R01EB024403-01, 1R01EB023052-01A1, 1R01HL140618-01, 1R01GM126831-01, 1R01GM126571-01, 1R01AR073135-01A1, 1R01HL140951-01A1, 1R01AR074234-01A1, 5R01AR069564-02]
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Advances in genomic sequencing and bioinformatics have led to the prospect of precision medicine where therapeutics can be advised by the genetic background of individuals. For example, mapping cancer genomics has revealed numerous genes that affect the therapeutic outcome of a drug. Through materials and cell engineering, many opportunities exist for engineers to contribute to precision medicine, such as engineering biosensors for diagnosis and health status monitoring, developing smart formulations for the controlled release of drugs, programming immune cells for targeted cancer therapy, differentiating pluripotent stem cells into desired lineages, fabricating bioscaffolds that support cell growth, or constructing organs-on-chips that can screen the effects of drugs. Collective engineering efforts will help transform precision medicine into a more personalized and effective healthcare approach. As continuous progress is made in engineering techniques, more tools will be available to fully realize precision medicine's potential.
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