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Yuan Gao

ORCID: 0000-0002-1762-0121
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About
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A5000860056
Research Areas
  • 3D Printing in Biomedical Research
  • Advanced Drug Delivery Systems
  • Innovative Microfluidic and Catalytic Techniques Innovation
  • Microfluidic and Capillary Electrophoresis Applications
  • Vagus Nerve Stimulation Research
  • Nanoparticle-Based Drug Delivery
  • Advancements in Transdermal Drug Delivery
  • Infant Health and Development
  • Lipid Membrane Structure and Behavior
  • Viral gastroenteritis research and epidemiology
  • Microfluidic and Bio-sensing Technologies
  • Photoreceptor and optogenetics research
  • Advanced biosensing and bioanalysis techniques
  • RNA Interference and Gene Delivery
  • Cancer Cells and Metastasis
  • Pharmacological Effects of Natural Compounds
  • Pancreatic function and diabetes
  • Drug Solubulity and Delivery Systems

Massachusetts Institute of Technology
 2017-2022

Harvard University
 2017

Harvard–MIT Division of Health Sciences and Technology
 2017

Brigham and Women's Hospital
 2017

Innovation Research Center
 2017

Women's Hospital
 2017

 An ingestible self-orienting system for oral delivery of macromolecules
OPENALEX - Publications 
Alex Abramson Ester Caffarel–Salvador Minsoo Khang David Dellal David M. Silverstein and 18 more Yuan Gao Morten Revsgaard Frederiksen Andreas Vegge František Hubálek Jorrit J. Water Anders V. Friderichsen Johannes Josef Fels Rikke Kaae Kirk Cody Cleveland Joy Collins Siddartha Tamang Alison Hayward Tomas Landh Stephen T. Buckley Niclas Roxhed Ulrik L. Rahbek Róbert Langer Giovanni Traverso

Delivering fragile drugs to the gut Oral delivery is simplest and least invasive way deliver many pharmaceuticals, but medications, including insulin, cannot survive passage through stomach or gastrointestinal tract. Abramson et al. developed an ingestible vehicle that could self-reorient from any starting position so as attach gastric wall. Encapsulation of a spring in sugar casing allowed for triggered actuation biomolecules. The approach successfully provided active insulin pigs. Science...

10.1126/science.aau2277 article EN Science 2019-02-08
 A luminal unfolding microneedle injector for oral delivery of macromolecules
OPENALEX - Publications 
Alex Abramson Ester Caffarel–Salvador Vance Soares Daniel Minahan Ryan Yu Tian and 17 more Xiaoya Lu David Dellal Yuan Gao So-Young Kim Jacob Wainer Joy Collins Siddartha Tamang Alison Hayward Tadayuki Yoshitake Hsiang‐Chieh Lee James G. Fujimoto Johannes Josef Fels Morten Revsgaard Frederiksen Ulrik L. Rahbek Niclas Roxhed Róbert Langer Giovanni Traverso

10.1038/s41591-019-0598-9 article EN Nature Medicine 2019-10-01
 Oral mRNA delivery using capsule-mediated gastrointestinal tissue injections
OPENALEX - Publications 
Alex Abramson Ameya R. Kirtane Yunhua Shi Grace Zhong Joy Collins and 16 more Siddartha Tamang Keiko Ishida Alison Hayward Jacob Wainer Netra Unni Rajesh Xiaoya Lu Yuan Gao Paramesh Karandikar Chaoyang Tang Aaron Lopes Aniket Wahane Daniel Reker Morten Revsgaard Frederiksen Brian Jensen Róbert Langer Giovanni Traverso

10.1016/j.matt.2021.12.022 article EN publisher-specific-oa Matter 2022-01-31
 Surface acoustic waves induced micropatterning of cells in gelatin methacryloyl (GelMA) hydrogels
OPENALEX - Publications 
Shahid Mohammad Naseer Amir Manbachi Mohamadmahdi Samandari Philipp Walch Yuan Gao and 7 more Yu Shrike Zhang Farideh Davoudi Wesley Wang Karen Abrinia Jonathan M. Cooper Ali Khademhosseini Su Ryon Shin

Acoustic force patterning is an emerging technology that provides a platform to control the spatial location of cells in rapid, accurate, yet contactless manner. However, very few studies have been reported on usage acoustic for rapid arrangement biological objects, such as cells, three-dimensional (3D) environment. In this study, we report bio-acoustic technique, which uses surface waves (SAWs) within extracellular matrix-based hydrogel gelatin methacryloyl (GelMA). A proof-of-principle was...

10.1088/1758-5090/aa585e article EN cc-by Biofabrication 2017-02-14
 Bioprinted 3D vascularized tissue model for drug toxicity analysis
OPENALEX - Publications 
Solange Massa Mahmoud A.S. Sakr Jungmok Seo Praveen Bandaru Andrea Arneri and 13 more Simone Bersini Elaheh Zare‐Eelanjegh Elmira Jalilian Byung Hwa Hyun Silvia Antona Alessandro Enrico Yuan Gao Shabir Hassan Juan Pablo Acevedo Mehmet R. Dokmeci Yu Shrike Zhang Ali Khademhosseini Su Ryon Shin

To develop biomimetic three-dimensional (3D) tissue constructs for drug screening and biological studies, engineered blood vessels should be integrated into the to mimic administration process in vivo. The development of perfusable vascularized 3D studying through an endothelial layer remains area intensive research. Here, we report a simple liver model study toxicity incorporation layer. Using sacrificial bioprinting technique, hollow microchannel was successfully fabricated construct...

10.1063/1.4994708 article EN publisher-specific-oa Biomicrofluidics 2017-07-01
 Ingestible transiently anchoring electronics for microstimulation and conductive signaling
OPENALEX - Publications 
Alex Abramson David Dellal Yong Lin Kong Jianlin Zhou Yuan Gao and 11 more Joy Collins Siddartha Tamang Jacob Wainer Rebecca McManus Alison Hayward Morten Revsgaard Frederiksen Jorrit J. Water Brian Jensen Niclas Roxhed Róbert Langer Giovanni Traverso

An ingestible device injects probes into stomach tissue for electrical stimulation and potential treatment of gastroparesis.

10.1126/sciadv.aaz0127 article EN cc-by Science Advances 2020-08-28
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