Sensor Systems for Predicting, Preventing, and Curing Cardiovascular Disease

Sensor Systems for Predicting, Preventing, and Curing Cardiovascular Disease

Stanford Radiology via YouTube Direct link

Intro

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1 of 32

Intro

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Sensor Systems for Predicting, Preventing, and Curing Cardiovascular Disease

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  1. 1 Intro
  2. 2 The history of medicine set us up for the age of Digital Health
  3. 3 The time course of a patient with cardiovascular disease
  4. 4 Patient treatment from a control system perspective
  5. 5 Sensors connect the physical world to the digital world
  6. 6 Treatment options for heart failure
  7. 7 Left ventricular assist devices (VADs): the pump speed
  8. 8 Outcomes of VAD therapy are worse in females
  9. 9 Current pump speeds are not adequate for small hearts normal IVS position shifted IVS position
  10. 10 Patient-specific benchtop testing of septum position
  11. 11 Clinical and Benchtop data show: Size matters
  12. 12 Prediction of patient-optimized operation and design
  13. 13 Pathology of Duchenne Muscular Dystrophy (DMD)
  14. 14 The Role of Cardiac Magnetic Resonance
  15. 15 Boys with DMD and healthy controls were included in the study
  16. 16 Novel signal processing methods for pre-contrast RV-T1
  17. 17 Pre-contrast RV-T1 is elevated in DMD compared to healthy controls
  18. 18 Development of signal processing tools in right heart failure
  19. 19 Current methods to measure LV volume continuously
  20. 20 Cardiac surgery cures a variety of cardiovascular diseases
  21. 21 Soft and biocompatible epi-cardical strain sensor
  22. 22 Epi-cardical strain sensor to measure cardiac function
  23. 23 Dynamic response to volume changes and sudden blood loss
  24. 24 Epi-caridial real-time cardiac volume sensor
  25. 25 Physiological control is necessary
  26. 26 The EDV and the depolarization amplitude of the intra-cardiac electromyogram
  27. 27 Measuring the Brody effect
  28. 28 Intra-cardiac electromyogram from VAD cannula
  29. 29 Invention of a real-time cardiac volume sensor
  30. 30 Sensor Systems to Predict, Prevent and Cure Cardiovascular Disease
  31. 31 Diastolic heart failure can benefit from sensor technologies
  32. 32 Research aligning with European research policy

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