Name | Prof. Dr. Johannes Bohacek |
Field | Molecular and Behavioral Neuroscience |
Address | Institut für Neurowissenschaften ETH Zürich, Y17 L 52 Winterthurerstrasse 190 8057 Zürich SWITZERLAND |
Telephone | +41 44 633 87 51 |
johannes.bohacek@hest.ethz.ch | |
URL | http://www.bohaceklab.ethz.ch |
Department | Health Sciences and Technology |
Relationship | Associate Professor |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
376-1305-01L | Neural Systems for Sensory, Motor and Higher Brain Functions Information for UZH students: Enrolment to this course unit only possible at ETH. No enrolment to module BIO343 at UZH. Please mind the ETH enrolment deadlines for UZH students: Link | 3 credits | 2V | G. Schratt, J. Bohacek, R. Fiore, W. von der Behrens, further lecturers | |
Abstract | The course covers the structure, plasticity and regeneration of the adult nervous system (NS) with focus on: sensory systems, cognitive functions, learning and memory, molecular and cellular mechanisms, animal models, and diseases of the NS. | ||||
Learning objective | The aim is to give a deepened insight into the structure, plasticity and regeneration of the nervous system based on molecular, cellular and biochemical approaches. | ||||
Content | The main focus is on the structure, plasticity and regeneration of the NS: biology of the adult nervous system; structural plasticity of the adult nervous system, regeneration and repair: networks and nerve fibers, regeneration, pathological loss of cells. | ||||
Literature | The lecture requires reading of book chapters, handouts and original scientific papers. Further information will be given in the individual lectures and are mentioned on Moodle / OLAT. | ||||
377-0107-00L | Nervous System Only for Human Medicine BSc | 5 credits | 5V | D. P. Wolfer, I. Amrein, J. Bohacek, D. Burdakov, G. Schratt, L. Slomianka, O. Ullrich, N. Wenderoth, further lecturers | |
Abstract | Structure and function of the central and peripheral nervous system including its major disorders. | ||||
Learning objective | Upon successful completion of this module, students should be able to: 1. distinguish important cell types of the nervous system (neurons, glial cells) on the basis of their structure and function; 2. correctly describe neurophysiological basics of stimulus conduction and processing in the peripheral and central nervous system; 3. correctly name the organ structures and circuits involved in the development of the peripheral and central nervous system; 4. associate the different brain areas with corresponding functions in homeostasis, sensory, motor and cognitive functions; 5. identify clinical pictures associated with the loss of function of certain structures of the central and peripheral nervous system and to understand the mode of action of current therapeutic approaches. | ||||
Content | In this module, students get an overview of the structure (anatomy) and function (physiology) of the peripheral and central nervous system as well as selected neurological diseases (pathophysiology). The module is subdivided into a total of six subject areas: 1. basics of neurophysiology, stimulus conduction and processing using the example of the motor end plate, peripheral nervous system, associated clinical pictures (myasthenia gravis) 2. structure, circuits and pathways in the spinal cord, spinal nerves, motor stimulus conduction in the spinal cord, spinal cord lesions and pain 3. anatomy and function of the brain stem and cranial nerves and their significance for motor and sensory functions, lesions (brain stem syndromes) 4. anatomy and function of basal ganglia, thalamus and hypothalamus, control of the autonomic nervous system (homeostasis, food and water intake), basal ganglia defects using Parkinson's disease as an example 5. anatomy and function of the cerebellum and vestibular system, fine control of motor functions, associative learning, cerebellar symptoms (ataxias), organ of equilibrium 6. anatomy and function of the cerebrum, sensory and motor processing, cognition, learning and memory, neurodegenerative (Alzheimer) and neuropsychiatric (schizophrenia) disorders |