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DTSTART;TZID=America/Los_Angeles:20251119T185000
DTEND;TZID=America/Los_Angeles:20251119T200000
DESCRIPTION:Abstract: Advances in soft materials\, low-power circuits\, and
  wireless energy harvesting now allow imperceptible\, long-lived bioelectr
 onic systems that are practical beyond the lab bench. This talk presents t
 ranslational pathways for multimodal bioelectronics that bridge engineerin
 g innovation with clinical impact. We highlight epidermal and implantable 
 platforms that acquire high-fidelity biosignals—EEG/IMU for neonatal sei
 zure risk and sleep\, ECG–SCG–PCG for cardiopulmonary coordination\, a
 nd oral ISFET-based pH sensors for chemo- physiological context—and desc
 ribe the materials\, packaging\, and system architectures that enable stab
 le\, week-scale wear. Beyond device physics\, we emphasize translation: fi
 rmware that guarantees sub-10 ms synchronization across channels\, analyti
 cs pipelines that integrate signal quality indices with explainable ML mod
 els\, and HIPAA-compliant clinician dashboards that transform continuous r
 aw streams into actionable insights. Case studies from NICU deployments an
 d adult cohorts illustrate how biosymbiotic devices can support seizure de
 tection\, brain–heart dysregulation screening\, and personalized therapy
  planning. By uniting materials\, systems\, and AI with real clinical use\
 , these efforts outline a roadmap for multimodal digital healthcare that i
 s both technically rigorous and translatable to patient care.\n\nReference
 s: PNAS June 2025 122 (23) e2501220122\; Nature Medicine (under review)\; 
 Nature BME (under submission)\n\n[]\n\nSpeaker(s): Assist. Prof. Yayun Du\
 n\nAgenda: \n6:50 - 7 PM: Registration\n\n7-8 PM: Talk and Q&A\n\nVirtual:
  https://events.vtools.ieee.org/m/515108
LOCATION:Virtual: https://events.vtools.ieee.org/m/515108
ORGANIZER:bherrera@qti.qualcomm.com
SEQUENCE:20
SUMMARY:Translational Multimodal Bioelectronics: From Biosymbiotic Devices 
 to Clinically Integrated Digital Health
URL;VALUE=URI:https://events.vtools.ieee.org/m/515108
X-ALT-DESC:Description: <br /><p style="text-align: left\;"><strong>Abstrac
 t</strong>: Advances in soft materials\, low-power circuits\, and wireless
 &nbsp\;energy harvesting now allow imperceptible\, long-lived bioelectroni
 c systems that are practical&nbsp\;beyond the lab bench. This talk present
 s translational pathways for multimodal bioelectronics that&nbsp\;bridge e
 ngineering innovation with clinical impact. We highlight epidermal and imp
 lantable&nbsp\;platforms that acquire high-fidelity biosignals&mdash\;EEG/
 IMU for neonatal seizure risk and sleep\,&nbsp\;ECG&ndash\;SCG&ndash\;PCG 
 for cardiopulmonary coordination\, and oral ISFET-based pH sensors for che
 mo-&nbsp\;physiological context&mdash\;and describe the materials\, packag
 ing\, and system architectures that&nbsp\;enable stable\, week-scale wear.
  Beyond device physics\, we emphasize translation: firmware that&nbsp\;gua
 rantees sub-10 ms synchronization across channels\, analytics pipelines th
 at integrate signal&nbsp\;quality indices with explainable ML models\, and
  HIPAA-compliant clinician dashboards that&nbsp\;transform continuous raw 
 streams into actionable insights. Case studies from NICU deployments&nbsp\
 ;and adult cohorts illustrate how biosymbiotic devices can support seizure
  detection\, brain&ndash\;heart&nbsp\;dysregulation screening\, and person
 alized therapy planning. By uniting materials\, systems\, and AI&nbsp\;wit
 h real clinical use\, these efforts outline a roadmap for multimodal digit
 al healthcare that is both&nbsp\;technically rigorous and translatable to 
 patient care.</p>\n<p style="text-align: left\;"><br>References: PNAS June
  2025 122 (23) e2501220122\; Nature Medicine (under review)\; Nature&nbsp\
 ;BME (under submission)</p>\n<p style="text-align: left\;"><img style="dis
 play: block\; margin-left: auto\; margin-right: auto\;" src="https://event
 s.vtools.ieee.org/vtools_ui/media/display/36645904-ed28-4acf-af4f-d8765d18
 9368" alt="" width="696" height="226"></p><br /><br />Agenda: <br /><p>6:5
 0 - 7 PM: Registration</p>\n<p>7-8 PM: Talk and Q&amp\;A</p>
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