A vector-free microfluidic platform for intracellular delivery

A vector-free microfluidic platform for intracellular delivery

Intracellular delivery of macromolecules is a challenge in research and therapeutic applications. Existing vector-based and physical methods have limitations, including their reliance on exogenous materials or electrical fields, which can lead to toxicity or off-target effects. We describe a microfl...

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Main Authors: Sharei, Armon Reza (Contributor), Zoldan, Janeta (Contributor), Sim, Woo Young (Contributor), Cho, Nahyun (Contributor), Jackson, Emily L. (Contributor), Mao, Shirley (Contributor), Schneider, Sabine (Contributor), Kim, Kwang-Soo (Author), Han, Min-Joon (Author), Lytton-Jean, Abigail K. R. (Contributor), Basto, Pamela Antonia (Contributor), Jhunjhunwala, Siddharth (Contributor), Heller, Daniel A. (Contributor), Kang, Jeon Woong (Contributor), Hartoularos, George C. (Contributor), Anderson, Daniel Griffith (Contributor), Langer, Robert (Contributor), Jensen, Klavs F. (Contributor), Adamo, Andrea 1975- (Author), Lee, Jungmin, Ph. D. Massachusetts Institute of Technology (Author)
Other Authors: Harvard University- (Contributor), Massachusetts Institute of Technology. Department of Biology (Contributor), Massachusetts Institute of Technology. Department of Chemical Engineering (Contributor), Massachusetts Institute of Technology. Department of Chemistry (Contributor), Massachusetts Institute of Technology. Department of Mechanical Engineering (Contributor), Massachusetts Institute of Technology. Laser Biomedical Research Center (Contributor), Massachusetts Institute of Technology. Spectroscopy Laboratory (Contributor), Koch Institute for Integrative Cancer Research at MIT (Contributor), Adamo, Andrea (Contributor), Lee, Jungmin (Contributor)
Format: Article
Language:English
Published: National Academy of Sciences (U.S.), 2013-09-11T13:07:27Z.
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