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From mechanobiology to developmentally inspired engineering

Donald Ingber

Tensegrity mechanical organs-on-chips tissue engineering

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Key takeaways

01Physical forces play a central role in development and physiology
02Mechanobiology studies how cells sense and respond to force
03These principles can be used for organ engineering
04This knowledge may lead to new mechanical-based therapies

Understanding how physical forces shape our bodies is leading to new approaches in organ engineering and therapy.

Abstract

The field of mechanobiology emerged based on the recognition of the central role that physical forces play in development and physiology. In this article, which is based on a lecture I presented at the 2018 Royal Society meeting on Mechanics of Development, I review work from my laboratory carried out over the 40 years which helped to birth this field. I will also describe how we are leveraging the fundamental design principles that govern mechanoregulation to develop new experimental tools and organ-engineering approaches as well as novel mechanotherapeutics.This article is part of the Theo Murphy meeting issue 'Mechanics of development'.

Cite this study

APA: Donald Ingber (2018). From mechanobiology to developmentally inspired engineering. https://fasciaresearchdatabase.com/from-mechanobiology-to-developmentally-inspired-engineering/
MLA: Donald Ingber. "From mechanobiology to developmentally inspired engineering." 2018, https://fasciaresearchdatabase.com/from-mechanobiology-to-developmentally-inspired-engineering/.
Chicago: Donald Ingber. 2018. "From mechanobiology to developmentally inspired engineering.". https://fasciaresearchdatabase.com/from-mechanobiology-to-developmentally-inspired-engineering/