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Mark Juhas

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

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Biomaterials|August 27, 2014
Roles of adherent myogenic cells and dynamic culture in engineered muscle function and maintenance of satellite cellsMark Juhas, Nenad Bursac
Current Opinion in Biotechnology|May 29, 2013
Engineering skeletal muscle repairMark Juhas, Nenad Bursac
Methods (San Diego, Calif.)|October 13, 2015
Design, evaluation, and application of engineered skeletal muscleMark Juhas, Jean Ye, Nenad Bursac
Annual Review of Biomedical Engineering|December 9, 2015
Synergizing Engineering and Biology to Treat and Model Skeletal Muscle Injury and DiseaseNenad Bursac, Mark Juhas, Thomas A Rando
Tissue Engineering. Part A|November 26, 2011
Local tissue geometry determines contractile force generation of engineered muscle networksWeining Bian, Mark Juhas, Terry W Pfeiler, et al.
Elife|January 10, 2015
Bioengineered human myobundles mimic clinical responses of skeletal muscle to drugsLauran Madden, Mark Juhas, William E Kraus, et al.
ACS Synthetic Biology|August 10, 2017
An Engineered Optogenetic Switch for Spatiotemporal Control of Gene Expression, Cell Differentiation, and Tissue MorphogenesisLauren R Polstein, Mark Juhas, Gabi Hanna, et al.
Proceedings of the National Academy of Sciences of the United States of America|April 8, 2014
Biomimetic engineered muscle with capacity for vascular integration and functional maturation in vivoMark Juhas, George C Engelmayr, Andrew N Fontanella, et al.
Nature Biomedical Engineering|December 25, 2018
Incorporation of macrophages into engineered skeletal muscle enables enhanced muscle regenerationMark Juhas, Nadia Abutaleb, Jason T Wang, et al.
Studies in Health Technology and Informatics|February 22, 2011
Toward a comprehensive hybrid physical-virtual reality simulator of peripheral anesthesia with ultrasound and neurostimulator guidanceJoseph T Samosky, Pete Allen, Steve Boronyak, et al.
Pageof 1

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

Sort By:
Pageof 1
Biomaterials|August 27, 2014
Roles of adherent myogenic cells and dynamic culture in engineered muscle function and maintenance of satellite cellsMark Juhas, Nenad Bursac
Current Opinion in Biotechnology|May 29, 2013
Engineering skeletal muscle repairMark Juhas, Nenad Bursac
Methods (San Diego, Calif.)|October 13, 2015
Design, evaluation, and application of engineered skeletal muscleMark Juhas, Jean Ye, Nenad Bursac
Annual Review of Biomedical Engineering|December 9, 2015
Synergizing Engineering and Biology to Treat and Model Skeletal Muscle Injury and DiseaseNenad Bursac, Mark Juhas, Thomas A Rando
Tissue Engineering. Part A|November 26, 2011
Local tissue geometry determines contractile force generation of engineered muscle networksWeining Bian, Mark Juhas, Terry W Pfeiler, et al.
Elife|January 10, 2015
Bioengineered human myobundles mimic clinical responses of skeletal muscle to drugsLauran Madden, Mark Juhas, William E Kraus, et al.
ACS Synthetic Biology|August 10, 2017
An Engineered Optogenetic Switch for Spatiotemporal Control of Gene Expression, Cell Differentiation, and Tissue MorphogenesisLauren R Polstein, Mark Juhas, Gabi Hanna, et al.
Proceedings of the National Academy of Sciences of the United States of America|April 8, 2014
Biomimetic engineered muscle with capacity for vascular integration and functional maturation in vivoMark Juhas, George C Engelmayr, Andrew N Fontanella, et al.
Nature Biomedical Engineering|December 25, 2018
Incorporation of macrophages into engineered skeletal muscle enables enhanced muscle regenerationMark Juhas, Nadia Abutaleb, Jason T Wang, et al.
Studies in Health Technology and Informatics|February 22, 2011
Toward a comprehensive hybrid physical-virtual reality simulator of peripheral anesthesia with ultrasound and neurostimulator guidanceJoseph T Samosky, Pete Allen, Steve Boronyak, et al.
Pageof 1