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UID:974@biotech.technion.ac.il
DTSTART;TZID=Asia/Jerusalem:20201201T173000
DTEND;TZID=Asia/Jerusalem:20220202T164952
DTSTAMP:20220512T124720Z
URL:https://biotech.technion.ac.il/events/next-generation-approaches-for-p
 eripheral-organ-modulation-2/
SUMMARY:Next-generation approaches for peripheral organ modulation
DESCRIPTION:The field of bioelectronic medicine seeks to develop novel appr
 oaches for modulating electrogenic cells within organs\, to advance transl
 ational applications to repair organ dysfunction and study organ function 
 in health and disease. The key challenges are allowing longitudinal stimul
 ation\, minimally invasiveness\, minimal damage to the surrounding tissue\
 , deep organ stimulation\, specificity and temporal control. Therefore\, t
 here is a growing demand for developing functional materials and new techn
 ologies that fit the current biomedical research. In this talk\, I will pr
 esent a strategy to use iron oxide nanoparticles that demonstrate hysteret
 ic heating under weak alternating magnetic fields\, to trigger heat-sensit
 ive ion channels\, endogenously expressed in peripheral organs. I will dem
 onstrate the use of the magnetothermal switch in biological applications s
 tarting from materials design\, through in vitro demonstration and in vivo
  application.\n\n \n\nAbstract
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