Tantárgy adatlapja

Tárgy neve: Elektrofiziológia haladóknak
Tárgy kódja: P_DO_0248
Óraszám: N: 2/2/0, L: 0/0/0
Kreditérték: 6
Az oktatás nyelve: magyar
Követelmény típus: Kollokvium
Felelős kar: ITK
Felelős szervezeti egység: ITK Doktori és Habilitációs Iroda
Tárgyfelelős oktató: Dr. Ulbert István
Tárgyleírás:

In this course the students will attain a deeper knowledge in the topic of electrophysiology. Detailed information will be provided of the major recording techniques. The attendees will gain knowledge of electrophysiological techniques and devices used in neuroscience research and in research practice.

The topics of the course:

- Detailed characteristics of research and clinical electrodes

- Methods of intra- and extra-cellular electrical recordings and stimulation

- High density electroencephalography

- Advanced methods in event-related potentials

- Generation of brain bioelectric signals

- Enhanced concepts of magnetoencephalography

- High density electromyography and electrocardiography

- Enhanced mathematical methods for analysis of the bioelectric signals

List of selected literature:

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  • Lecture notes accessible online: https://wsn.itk.ppke.hu/TAMOPtananyagok/Az_ideg-_es_izomrendszer_elektrofiziologiai_vizsgalo_modszerei/
  • Stern, R.M., Ray,W.J., Quigley, K.S.: Psychophysiological Recording, 2nd ed. Oxford Univ. Press, New York, 2001
  • Cacioppo, J.T., Tassinary, L.C., Berntson, G.G.: Handbook of Psychophysiology, 2nd ed. Cambridge Univ. Press, New York, 2000
  • Kandel, E.R., Schwartz, J.H., Jessel, T.M.: Principles of Neural Science, 4th ed., McGraw-Hill, New York, 2000.
  • Squire, L.R., Bloom, F.E., McConnell, S.K., Roberts, J.L., Spitzer, N.C., Zigmond, M.J.: Fundamental Neuroscience, 2nd. ed. Academic Press, 2003.
  • Ebersole, J.S., and Pedley, T.A.: Current Practice of Clinical Electroencephalography 3rd ed., Lippincott Williams & Wilkins, 2003.
  • Karen, G. and Gabriel, D.A.: Essentials of Electromyography, Human Kinetics, 2010

List of required competences

  • knowledge
  • -knowing the enhanced theories of quantitative neuroscience used in the field of bionics

    -having advanced knowledge in electronic laboratory measurements and methods

    -high level understanding the methods of learning, gathering information and data, and problem solving including the ethical limits of these

    -high level knowledge in tasks involved in experimental work in the field of bionics

  • skills

-ability to apply the learned knowledge in the research work in the field of biotechnology, bio-prosthetics and bio-electronics industries, as well as in all related fields

-ability to operate devices at a high confidence of great value used in medical and industrial applications

-ability to take lead developments in future forming industries (such as bio-prosthetics, medical biotechnology, medical imaging based on the learned knowledge

-ability to identify new solutions for rising problems in the field of bionics

-ability to effectively cooperate, and lead projects with professionals from related fields, especially neuroscience, medicine, technology and computer science

-ability to individually plan and execute electrophysiological measurements

 

 

 

A tárgy az alábbi képzéseken vehető fel

Roska Tamás Műszaki és Természettudományi Doktori Iskola képzése IDNI-IMTX Doktori képzés (PhD/DLA) (Nftv. 114 (2)) Nappali magyar 8 félév ITK
Széchenyi 2020 - Magyarország Kormánya - Európai Unió, Európai Regionális Fejlesztési Alap - Befektetés a Jövőbe