TY - PAT
T1 - Organ mounted electronics
AU - Rogers, John A
AU - Efimov, Igor
AU - Gutbrod, Sarah
AU - Xu, Lizhi
AU - Bonifas, Andrew P
AU - Webb, Richard Chad
AU - Koh, Ahyeon
N1 - STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT This invention was made with governmental support under Award Nos. R01 HL115415, R01 HL114395 and R21 HL112278 awarded by the National Institutes of Health and Award No. DGE-1144245 awarded by the National Science Foundation. The government has certain rights in the invention.
PY - 2020/11/3
Y1 - 2020/11/3
N2 - Provided are devices and methods capable of interfacing with biological tissues, such as organs like the heart, in real-time and using techniques which provide the ability to monitor and control complex physical, chemical, biochemical and thermal properties of the tissues as a function of time. The described devices and methods utilize micro scale sensors and actuators to spatially monitor and control a variety of physical, chemical and biological tissue parameters, such as temperature, pH, spatial position, force, pressure, electrophysiology and to spatially provide a variety of stimuli, such as heat, light, voltage and current.
AB - Provided are devices and methods capable of interfacing with biological tissues, such as organs like the heart, in real-time and using techniques which provide the ability to monitor and control complex physical, chemical, biochemical and thermal properties of the tissues as a function of time. The described devices and methods utilize micro scale sensors and actuators to spatially monitor and control a variety of physical, chemical and biological tissue parameters, such as temperature, pH, spatial position, force, pressure, electrophysiology and to spatially provide a variety of stimuli, such as heat, light, voltage and current.
M3 - Patent
M1 - 10820862
Y2 - 2014/10/02
ER -