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Research Interests
Biomaterials; Bioprinting; neuroscience; Regeneration; Scaffold; spinal cord injury; Stem cell; Tissue engineering
How can we restore function to diseased or damaged tissue? The field of tissue engineering can meet this demand by producing replacements for tissue and organs that no longer function properly. Regenerating simple tissues or repairing defects, such as in skin, can be accomplished using biomaterial scaffolds alone. The current challenge is how to develop engineered tissues for replacing more complex organs such as the spinal cord. Dr. Willerth’s research program addresses this challenge and its complexities. These complexities include finding how to replace the variety of cell types present in tissue while also achieving the necessary arrangements of these cells. In particular, her work has focused on the use of pluripotent stem (iPS) cells, which can differentiate into any type of cell found in the body. Her research group analyzes the behaviour of stem cells inside three-dimensional biomaterial scaffolds with the goal of engineering complex tissues.
Biomaterials; Bioprinting; neuroscience; Regeneration; Scaffold; spinal cord injury; Stem cell; Tissue engineering
How can we restore function to diseased or damaged tissue? The field of tissue engineering can meet this demand by producing replacements for tissue and organs that no longer function properly. Regenerating simple tissues or repairing defects, such as in skin, can be accomplished using biomaterial scaffolds alone. The current challenge is how to develop engineered tissues for replacing more complex organs such as the spinal cord. Dr. Willerth’s research program addresses this challenge and its complexities. These complexities include finding how to replace the variety of cell types present in tissue while also achieving the necessary arrangements of these cells. In particular, her work has focused on the use of pluripotent stem (iPS) cells, which can differentiate into any type of cell found in the body. Her research group analyzes the behaviour of stem cells inside three-dimensional biomaterial scaffolds with the goal of engineering complex tissues.
研究兴趣
论文共 125 篇作者统计合作学者相似作者
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Wendy Balestri,Ruchi Sharma, Victor A. da Silva,Bianca C. Bobotis,Annabel J. Curle, Vandana Kothakota, Farnoosh Kalantarnia, Maria V. Hangad,Mina Hoorfar,Joanne L. Jones,Marie-Ève Tremblay,Jehan J. El-Jawhari,
Journal of Neuroinflammationno. 1 (2024): 32-32
Logan M. O'Reilly,Stephanie M. Willerth
FRONTIERS IN MARINE SCIENCE (2024)
Frontiers in Molecular Neuroscience (2024): 1371733-1371733
Cell stem cellno. 2 (2024): 151-152
Wendy Balestri,Ruchi Sharma, Victor A. da Silva, Bianca C. Bobotis,Annabel J. Curle, Vandana Kothakota, Farnoosh Kalantarnia, Maria V. Hangad, Mina Hoorfar,Joanne L. Jones,Marie-Eve Tremblay,Jehan J. El-Jawhari,
JOURNAL OF NEUROINFLAMMATIONno. 1 (2024)
Victor A da Silva,Bianca C Bobotis, Felipe F Correia, Théo H Lima-Vasconcellos, Gabrielly M D Chiarantin, Laura De La Vega,Christiane B Lombello,Stephanie M Willerth,Sônia M Malmonge,Vera Paschon,Alexandre H Kihara
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Bioelectronic Medicineno. 1 (2023): 10-20
Biomaterials scienceno. 10 (2023): 3512-3523
BIO-PROTOCOLno. 9 (2023): e4663-e4663
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