Physiology DA1103337
Topic outline
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What you can find here:
- CHAPTER ONE: SEMINARS SUMMER SEMESTER - everything needed for home preparation
- CHAPTER TWO: LECTURES - summer and winter semester 2023/2024
- CHAPTER THREE: LECTURES - video recordings of lectures from the academic year 2020/2021
- CHAPTER FOUR: SEMINARS WINTER SEMESTR
What else you need but can find elsewhere:
- Schedules (see SIS)
- Syllabus (see SIS)
- Exam questions for course DA0103337 (see SIS)
- Exam questions for course DA1103337 (see SIS)
- Overview of earned credits (See MS Teams)
- Contact (see - Physiology Department WEB)
What conditions do you have to meet to get a credit in the summer semester 2023/2024
1. Students have 2 allowed absences/semester and course (determined according to the Dean's provision No. 4/2022).
2. Elaboration and successful presentation of at least one of the offered topics.
3. Earning 12 credits (not ECTS credits) per summer semester. In the case of groups where teaching is cancelled, the number of credits is reduced by the corresponding number of cancelled seminars. Credits are awarded for active participation in the seminar. Any missing credits can be made up by making an additional presentation on one of the free topics offered or by completing special tasks assigned by the teacher by mutual agreement.
4. Successful completion of 4 tests. The ranges of test questions will be as follows:
· Renal system and ABB
· Endocrinology
· GIT
· Neurophysiology
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In the following section, you will find everything you need for home preparation for each individual seminar of the winter semester.
Home preparation is an integral and necessary part of the seminar.
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2.1. Functional testing of glomerular function, advantages and limitations of each method
2.2 Tubular function tests
3.1 Origin of the corticopapillary osmotic gradient by the mechanism of countercurrent multiplication in the Henley cell.
4.1 Explain the concept buffer and the principle of its function in the regulation of ABR. Explain the concept of buffer base. List the buffer bases used in human
body and assess their contribution in terms of their representation in the total buffering capacity of the organism and in terms of spatial localisation.
4.2. Does the respiratory system play a role in the regulation of ABB? Which buffering system is its is involved in the regulation of ABB?
5.1 Summarise and justify tissue effects of thyroid hormones.
5.2 Summarize and justify tissue effects of glucocorticoids.
6.1 Explain the differences: insulin dependent and independent entry of glucose into tissues and insulin sensitive and insensitive tissues, give examples
6.2 Metabolic specifics and physiological role of brown fat
7.1 Describe each general level of control of motility in the digestive tube
7.2 Describe the principles of triggering and mechanism of vomiting
8.1 List and explain the function of the protective and aggressive factors that influence the state of of the gastric mucosa
8.2 Describe the principle the function and importance of bile acids in digestion
9.1 Origin of excitatory and inhibitory postsynaptic potentials, their propagation, temporal and spatial summation, signal processing in neurons
9.2. Conduction of excitations through peripheral nerves - mechanism, types of fibres, what influences conduction velocity, conduction disturbances, hypoxic conduction block - "crossed leg"
10.1. Involvement of different cortical centres in speech production
10.2. Lower and upper motoneurons - differences in motor control
11.1.Types of waves registered by EEG (amplitude, frequency...). What is the essence of the difference in these parameters?
11.2. Evoked potentials (principles of measurement, modalities, interpretation)
12.1 Photopic and scotopic vision, dark adaptation, physiological central scotoma
12.2 Explain the principle of the different types of nystagmus -
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