Mechanical changes of peripheral nerve tissue microenvironment and their structural basis during development
Rosso G, Guck J (2019)
Publication Type: Journal article
Publication year: 2019
Journal
Book Volume: 3
Article Number: 036107
Journal Issue: 3
DOI: 10.1063/1.5108867
Abstract
Peripheral nerves are constantly exposed to mechanical stresses associated with body growth and limb movements. Although some aspects of these nerves' biomechanical properties are known, the link between nerve biomechanics and tissue microstructures during development is poorly understood. Here, we used atomic force microscopy to comprehensively investigate the elastic modulus of living peripheral nerve tissue cross sections ex vivo at distinct stages of development and correlated these elastic moduli with various cellular and extracellular aspects of the underlying histological microstructure. We found that local nerve tissue stiffness is spatially heterogeneous and evolves biphasically during maturation. Furthermore, we found the intracellular microtubule network and the extracellular matrix collagens type I and type IV as major contributors to the nerves' biomechanical properties, but surprisingly not cellular density and myelin content as previously shown for the central nervous system. Overall, these findings characterize the mechanical microenvironment that surrounds Schwann cells and neurons and will further our understanding of their mechanosensing mechanisms during nerve development. These data also provide the design of artificial nerve scaffolds to promote biomedical nerve regeneration therapies by considering mechanical properties that better reflect the nerve microenvironment.
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Germany (DE)How to cite
APA:
Rosso, G., & Guck, J. (2019). Mechanical changes of peripheral nerve tissue microenvironment and their structural basis during development. APL Bioengineering, 3(3). https://doi.org/10.1063/1.5108867
MLA:
Rosso, Gonzalo, and Jochen Guck. "Mechanical changes of peripheral nerve tissue microenvironment and their structural basis during development." APL Bioengineering 3.3 (2019).
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