Abstract
The investigation of the mechanical properties of embryos is expected to provide valuable information on the phenomenology of morphogenesis. It is thus believed that, by mapping the viscoelastic features of an embryo at different stages of growth, it may be possible to shed light on the role of mechanics in embryonic development. To contribute to this field, we present a new instrument that can determine spatiotemporal distributions of mechanical properties of embryos over a wide area and with unprecedented accuracy. The method relies on combining ferrule-top micro-indentation, which provides local measurements of viscoelasticity, with Optical Coherence Tomography, which can reveal changes in tissue morphology and help the user identify the indentation point. To prove the working principle, we have collected viscoelasticity maps of fixed and live HH11-HH12 chicken embryos. Our study shows that the instrument can reveal correlations between tissue morphology and mechanical behavior. Statement of Significance: Local mechanical properties of soft biological tissue play a crucial role in several biological processes, including cell differentiation, cell migration, and body formation; therefore, measuring tissue properties at high resolution is of great interest in biology and tissue engineering. To provide an efficient method for the biomechanical characterization of soft biological tissues, we introduce a new tool in which the combination of non-invasive Optical Coherence Tomography imaging and depth-controlled indentation measurements allows one to map the viscoelastic properties of biological tissue and investigate correlations between local mechanical features and tissue morphology with unprecedented resolution.
Original language | English |
---|---|
Pages (from-to) | 524-534 |
Number of pages | 11 |
Journal | Acta Biomaterialia |
Volume | 97 |
DOIs | |
Publication status | Published - 1 Oct 2019 |
Funding
This work has been financially supported by the European Research Council under the European Union’s Seventh Framework Programme (FP/20072013)/ERC grant agreement no. [ 615170 ]. BN was financially supported by ZonMW-VICI grant 918.11.635 to TS.
Funders | Funder number |
---|---|
Seventh Framework Programme | 615170 |
European Research Council | 918.11.635 |
Seventh Framework Programme | FP/20072013 |
Keywords
- Chicken embryos
- Mechanical properties
- Micro-indentation
- Optical coherence tomography
- Viscoelasticity