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DTSTAMP:20241127T005314Z
UID:D4B64191-1CB1-4BBC-8148-4D0AB53BB118
DTSTART;TZID=America/Denver:20241113T173000
DTEND;TZID=America/Denver:20241113T183000
DESCRIPTION:Abstract: Recent advances in digital health technologies are en
 abling biomedical researchers to reframe health optimization and disease t
 reatment in a patient-specific\, personalized manner. This talk will focus
  on my group’s research in two areas of relevance to digital health: (1)
  cardiogenic vibration sensing and analytics\; and (2) musculoskeletal sen
 sing with joint acoustic emissions and bioimpedance. Our group has extensi
 vely studied the timings and characteristics of cardiogenic vibration sign
 als such as the ballistocardiogram and seismocardiogram\, and applied thes
 e signals for quantifying filling pressures and volume status in the conte
 xt of heart failure (volume overload) and hemorrhage (volume depletion). W
 e envision that these technologies can all contribute to improving patient
  care with lower cost and better outcomes.\n\nSpeaker(s): Dr. Omar Inan\, 
 \n\nRoom: ECS 510\, Bldg: University of Denver Ritchie School of Engineeri
 ng and Computer Science\, 2155 E Wesley Ave\, Denver\, Colorado\, United S
 tates\, 80208
LOCATION:Room: ECS 510\, Bldg: University of Denver Ritchie School of Engin
 eering and Computer Science\, 2155 E Wesley Ave\, Denver\, Colorado\, Unit
 ed States\, 80208
ORGANIZER:gowansj@outlook.com
SEQUENCE:27
SUMMARY:CIR & CIS: Wearable Sensing For Health And Performance.
URL;VALUE=URI:https://events.vtools.ieee.org/m/436740
X-ALT-DESC:Description: <br /><p><strong>Abstract:&nbsp\;</strong>Recent ad
 vances in digital health technologies are enabling biomedical researchers 
 to reframe health optimization and disease treatment in a patient-specific
 \, personalized manner. This talk will focus on my group&rsquo\;s research
  in two areas of relevance to digital health: (1) cardiogenic vibration se
 nsing and analytics\; and (2) musculoskeletal sensing with joint acoustic 
 emissions and bioimpedance. Our group has extensively studied the timings 
 and characteristics of cardiogenic vibration signals such as the ballistoc
 ardiogram and seismocardiogram\, and applied these signals for quantifying
  filling pressures and volume status in the context of heart failure (volu
 me overload) and hemorrhage (volume depletion). We envision that these tec
 hnologies can all contribute to improving patient care with lower cost and
  better outcomes.</p>
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