Jacquelyn Schell
Assistant Professor
BIOMEDICAL ENGINEERING
Brown University
United States of America
Biography
Dr. Jacquelyn Schell is affiliated to BIOMEDICAL ENGINEERING, Brown University . Dr. Jacquelyn Schell is currently providing services as Assistant Professor . Dr. Jacquelyn Schell has published numerous publications in various national and international peer-reviewed journals and presented scientific papers across the world. Because of the active association with different societies and academies as well as the contributions, Dr. Jacquelyn Schell is been recognized by the subject experts around the world. Dr. Jacquelyn Schell contributions are appreciated by various reputed awards. Dr. Jacquelyn Schell clinical and scientific research interests include 3D cell culture , Nanotechnology , alternative testing ,bioengineering , biomedical engineering , cell adhesion , cell aggregates , drug discovery , drug transport , fibroblasts , gene therapy , genetic modification , keratinocytes , nanomedicine , organ engineering , percutaneous , self-assembly , skin , spheroids , tissue engineering , toxicity , toxicity testing .
Research Interest
3D cell culture , Nanotechnology , alternative testing ,bioengineering , biomedical engineering , cell adhesion , cell aggregates , drug discovery , drug transport , fibroblasts , gene therapy , genetic modification , keratinocytes , nanomedicine , organ engineering , percutaneous , self-assembly , skin , spheroids , tissue engineering , toxicity , toxicity testing .
Publications
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Ip BC, Cui F, Tripathi A, Morgan JR. The bio-gripper: a fluid-driven micro-manipulator of living tissue constructs for additive bio-manufacturing. Biofabrication. 2016 May 25;8(2):025015.
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Curran S, Achilli TM, Leary E, Wilks BT, Vantangoli MM, Boekelheide K, Morgan JR. A 3D spheroid system to evaluate inhibitors of the ABCG2 transporter in drug uptake and penetration. Technology. 2015 Mar;3(01):54-63.
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Schell JY, Wilks BT, Patel M, Franck C, Chalivendra V, Cao X, Shenoy VB, Morgan JR. Harnessing cellular-derived forces in self-assembled microtissues to control the synthesis and alignment of ECM. Biomaterials. 2016 Jan 31;77:120-9.