Jove
Visualize
Contact Us
JoVE
x logofacebook logolinkedin logoyoutube logo
ABOUT JoVE
OverviewLeadershipBlogJoVE Help Center
AUTHORS
Publishing ProcessEditorial BoardScope & PoliciesPeer ReviewFAQSubmit
LIBRARIANS
TestimonialsSubscriptionsAccessResourcesLibrary Advisory BoardFAQ
RESEARCH
JoVE JournalMethods CollectionsJoVE Encyclopedia of ExperimentsArchive
EDUCATION
JoVE CoreJoVE BusinessJoVE Science EducationJoVE Lab ManualFaculty Resource CenterFaculty Site
Terms & Conditions of Use
Privacy Policy
Policies

Filters

Mayur Saxena

Showing results (1-10 of 9) with videos related to

Pageof 1
Sort By:
Nano Letters|October 21, 2017
Force-Induced Calpain Cleavage of Talin Is Critical for Growth, Adhesion Development, and Rigidity SensingMayur Saxena, Rishita Changede, James Hone, et al.
Scientific Reports|October 26, 2022
Data-driven identification of heart failure disease states and progression pathways using electronic health recordsTasha Nagamine, Brian Gillette, John Kahoun, et al.
Frontiers in Cell and Developmental Biology|August 5, 2022
Tumor Suppressor DAPK1 Catalyzes Adhesion Assembly on Rigid but Anoikis on Soft MatricesRuifang Qin, Shay Melamed, Bo Yang, et al.
Scientific Reports|December 8, 2020
Multiscale classification of heart failure phenotypes by unsupervised clustering of unstructured electronic medical record dataTasha Nagamine, Brian Gillette, Alexey Pakhomov, et al.
AORN Journal|March 30, 2018
The Future of Data-Driven Wound CareJon S Woods, Mayur Saxena, Tasha Nagamine, et al.
Nature Materials|May 2, 2017
EGFR and HER2 activate rigidity sensing only on rigid matricesMayur Saxena, Shuaimin Liu, Bo Yang, et al.
Biophysical Journal|January 22, 2013
Cellular response to substrate rigidity is governed by either stress or strainAi Kia Yip, Katsuhiko Iwasaki, Chaitanya Ursekar, et al.
Nature Physics|April 1, 2021
Large and reversible myosin-dependent forces in rigidity sensingJames Lohner, Jean-Francois Rupprecht, Junquiang Hu, et al.
JAMA Network Open|May 19, 2021
Development of a Method for Clinical Evaluation of Artificial Intelligence-Based Digital Wound Assessment ToolsRaelina S Howell, Helen H Liu, Aziz A Khan, et al.
Pageof 1

Showing results (1-10 of 9) with videos related to

Sort By:
Pageof 1
Nano Letters|October 21, 2017
Force-Induced Calpain Cleavage of Talin Is Critical for Growth, Adhesion Development, and Rigidity SensingMayur Saxena, Rishita Changede, James Hone, et al.
Scientific Reports|October 26, 2022
Data-driven identification of heart failure disease states and progression pathways using electronic health recordsTasha Nagamine, Brian Gillette, John Kahoun, et al.
Frontiers in Cell and Developmental Biology|August 5, 2022
Tumor Suppressor DAPK1 Catalyzes Adhesion Assembly on Rigid but Anoikis on Soft MatricesRuifang Qin, Shay Melamed, Bo Yang, et al.
Scientific Reports|December 8, 2020
Multiscale classification of heart failure phenotypes by unsupervised clustering of unstructured electronic medical record dataTasha Nagamine, Brian Gillette, Alexey Pakhomov, et al.
AORN Journal|March 30, 2018
The Future of Data-Driven Wound CareJon S Woods, Mayur Saxena, Tasha Nagamine, et al.
Nature Materials|May 2, 2017
EGFR and HER2 activate rigidity sensing only on rigid matricesMayur Saxena, Shuaimin Liu, Bo Yang, et al.
Biophysical Journal|January 22, 2013
Cellular response to substrate rigidity is governed by either stress or strainAi Kia Yip, Katsuhiko Iwasaki, Chaitanya Ursekar, et al.
Nature Physics|April 1, 2021
Large and reversible myosin-dependent forces in rigidity sensingJames Lohner, Jean-Francois Rupprecht, Junquiang Hu, et al.
JAMA Network Open|May 19, 2021
Development of a Method for Clinical Evaluation of Artificial Intelligence-Based Digital Wound Assessment ToolsRaelina S Howell, Helen H Liu, Aziz A Khan, et al.
Pageof 1