Literature DB >> 33459593

Global and local tension measurements in biomimetic skeletal muscle tissues reveals early mechanical homeostasis.

Arne D Hofemeier1, Tamara Limon1, Till Moritz Muenker1, Bernhard Wallmeyer1, Alejandro Jurado1, Mohammad Ebrahim Afshar2,3, Majid Ebrahimi2,3, Roman Tsukanov4, Nazar Oleksiievets4, Jörg Enderlein4,5, Penney M Gilbert2,3,6, Timo Betz1,4,5.   

Abstract

Tension and mechanical properties of muscle tissue are tightly related to proper skeletal muscle function, which makes experimental access to the biomechanics of muscle tissue formation a key requirement to advance our understanding of muscle function and development. Recently developed elastic in vitro culture chambers allow for raising 3D muscle tissue under controlled conditions and to measure global tissue force generation. However, these chambers are inherently incompatible with high-resolution microscopy limiting their usability to global force measurements, and preventing the exploitation of modern fluorescence based investigation methods for live and dynamic measurements. Here, we present a new chamber design pairing global force measurements, quantified from post-deflection, with local tension measurements obtained from elastic hydrogel beads embedded in muscle tissue. High-resolution 3D video microscopy of engineered muscle formation, enabled by the new chamber, shows an early mechanical tissue homeostasis that remains stable in spite of continued myotube maturation.
© 2021, Hofemeier et al.

Entities:  

Keywords:  human; mouse; muscle development; physics of living systems; reconstituted muscle; regenerative medicine; stem cells; tension sensor

Mesh:

Year:  2021        PMID: 33459593      PMCID: PMC7906603          DOI: 10.7554/eLife.60145

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


  58 in total

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