Title :
Mechanical property characterization of spatially-ordered laser-fabricated alginate microbead arrays
Author :
Kingsley, D.M. ; Spain, C.J. ; Lee, K.L. ; Cooper, J.A. ; Cooper, James A. ; Corr, D.T.
Author_Institution :
Rensselaer Polytech. Inst., Troy, NY, USA
Abstract :
The mechanical properties of alginate microbeads affect resistance to loading, degradation kinetics, and cell behavior. At present, techniques are only available for analyzing single microbead constructs, which requires machinery with μN-level resolution. Herein, we utilize micro-compression technology, with mN-level resolution, to mechanically characterize laser-fabricated, spatially-ordered arrays of alginate microbeads. This novel technique provides Young´s modulus values on the order of kPa; typical of alginate microbeads [1]. This method may be applied further to study the effects of tunable parameters on the mechanical properties of microbeads, or microcapsules.
Keywords :
Young´s modulus; biochemistry; biomechanics; cellular biophysics; laser materials processing; microfabrication; micromechanics; molecular biophysics; polymers; proteins; reaction kinetics; μN-level resolution; Young´s modulus; cell behavior; degradation kinetics; mN-level resolution; mechanical property characterization; microcapsules; microcompression technology; single microbead constructs; spatially-ordered laser-fabricated alginate microbead arrays; Arrays; Fabrication; Force; Lasers; Substrates; Tissue engineering;
Conference_Titel :
Biomedical Engineering Conference (NEBEC), 2015 41st Annual Northeast
Conference_Location :
Troy, NY
Print_ISBN :
978-1-4799-8358-2
DOI :
10.1109/NEBEC.2015.7117103
