CONTROLLED STRAIN OF CARDIAC MICROTISSUE VIA MAGNETIC ACTUATION
Keyword(s):
This work presents a microscale tissue testbed with closed loop mechanical control. The platform leverages a non-contact technique capable of simultaneous actuation and detection, both derived from magnetic fields. We demonstrate cyclic tension and compression of engineered microtissue as well as long-term monitoring of spontaneous beating inside an incubator. The device is capable of positional feedback with high spatial and temporal resolution, while maintaining optical access from a standard microscope. Such a platform will enable experimental design of arbitrary mechanical environments for tissue conditioning, maturation, and monitoring.
2018 ◽
Vol 13
(S340)
◽
pp. 35-38
1997 ◽
Vol 103
(1)
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pp. 116
2021 ◽
Vol 26
(3)
◽
pp. 05020013
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2007 ◽
Vol 68
(1)
◽
pp. 3
Keyword(s):
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2019 ◽
Vol 21
(1)
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pp. 87
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Long Term Monitoring of Sleep Disordered Breathing Using IOT Enabled Polymer Sensor Embedded Fabrics
2020 ◽
Vol 24
(5)
◽
pp. 7093-7101
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