Lecture Videos (Medium)

Jaakko Malmivuo: Bioelectromagnetism

Recorded at the Helmholtz-Institute for Biomedical Engineering at RWTH-Aachen University, Aachen, Germany, Summer 2014.

(Medium, .mp4, 1280x720 pix)
How to view the video files is found from: "Technical Requirements".

 

  1   1 Introduction
Professor Steffen Leonhardt presents the lecturer
1. Introduction to bioelectromagnetism, 1.1-1.3
    Short history of bioelectromagnetism, 1.4
    Nobel Prizes in bioelectromagnetism, 1.5
 
  2   2 Part I. Anatomical and Physiological Basis of Bioelectromagnetism
2. Nerve and muscle cells
3. Subthreshold membrane phenomena
 
  3   3 4. Active behavior of the membrane
5. Synapses, receptor cells and brain, 5.1-5.2
 
  4   4 5. Synapses, receptor cells and brain (Cont.), 5.3-5.5
6. The heart
Appendix A. Consistent System of Rectangular and Spherical Coordinates for ECG and MCG
 
  5   5 Part II. Bioelectric Sources and Conductors and Their Modeling
7. Volume source and volume conductor
Part III. Theoretical Methods in Bioelectromagnetism
11. Theoretical methods for analysing volume sources and volume conductors, 11.1-11.4
 
  6   6 11. Theoretical methods for analysing volume sources and volume conductors (Cont.), 11.4-11.8
 
  7   7 11. Theoretical methods for analysing volume sources and volume conductors (Cont.), 11.7-11.8
12. Theory of biomagnetic measurements
Part IV. Electric and Magnetis Measurement of the Electric Activity of the Neural Tissue
13. Electroencephalography, 13.1-13.3
 
  8   8 13. Electroencephalography (Cont.), 13.4-13.6
14. Magnetoencephalography
 
  9   9 Part V. Electric and Magnetis Measurement of the Electric Activity of the Heart
15. 12-lead ECG-system
16. Vectorcardiographic lead systems, 16.1-16.2
 
  10   10 16. Vectorcardiographic lead systems (Cont.), 16.3-16.4
17. Other ECG lead systems
18. Distortion factors in the ECG
 
  11   11 19. The basis of ECG diagnosis
20. Magnetocardiography
Part VI. Electric and Magnetic Stimulation of Neural Tissue
21. Functional electrical stimulation
 
  12   12 Theodore von Kármán Fellowship Lecture - Abstract
Professor Steffen Leonhardt presents the lecturer
Short history of biomagnetism
 
  13   13 22. Magnetic stimulation of the neural tisse
Part VII. Electric and Magnetic Stimulation of the Heart
23. Cardiac pacing
24. Cardiac defibrillation
Part VIII. Measurement of the Intrinsic Electric Properties of Biological Tissues
25. Impedance plethysmography, 25.1-25.3
 
  14   14 25. Impedance plethysmography (Cont.), 25.4-25.6
26. Impedance tomography
27. The electrodermal response
Part IX. Other Bioelectromagnetic Phenomena
28. The electric signals originating in the eye