期刊
MACROMOLECULAR MATERIALS AND ENGINEERING
卷 307, 期 9, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/mame.202200187
关键词
artificial muscles; contractile units; liquid crystal elastomers; mini-LEDs; smart materials
资金
- European Union [952166]
- MIUR-Italy (Progetto Dipartimenti di Eccellenza) [2018-2022]
- Department of Chemistry Ugo Schiff
- Universita degli Studi di Firenze within the CRUI-CARE Agreement
Loss of muscular mechanical function is common in various diseases, and no current treatments can restore muscular contractility. This study introduces a light-stimulated biomimetic contractile unit (BCU) that can mimic the mechanical dynamics of native muscles. The integration of specific materials and stimulation systems allows fine-tuning of the BCU performance, paving the way for the development of novel muscle assist devices.
Loss of muscular mechanical function occurs in several diseases affecting millions of people worldwide, including heart failure, stroke, and neuromuscular disorders. To date, no medical or surgical treatments can restore muscular contractility, and the development of artificial muscles is of extreme interest. Mimicking biological muscles, which are optimized systems displaying quick reaction times, is not trivial; only few examples are reported, mainly focused on the use of biomimetic smart materials. Among them, liquid crystalline elastomers (LCEs) can be biocompatible, show contraction parameters comparable to those of native striated muscles, and are able to effectively potentiate cardiac contraction in vitro. To go further and develop in vivo implantable devices, the integration of the stimulation system with the LCE material represents an essential step. Here, a light-stimulated biomimetic contractile unit (BCU), combining ultra-thin photoresponsive LCE films and mini-LED (mLED) matrixes is described. BCU performance (in terms of extent and kinetics of contractile force and shortening) can be fine-tuned by modulating both mLED light power and spatial stimulation patterns, allowing to reproduce mechanical dynamics of native muscles. These results pave the way for the development of novel LCE-based contraction assist devices for cardiac, skeletal, or smooth muscle support by assembling multiple BCUs.
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