Search result: Catalogue data in Spring Semester 2019
Health Sciences and Technology Bachelor | ||||||
Bachelor Studies (Programme Regulations 2013) | ||||||
Second Year Compulsary Subjects | ||||||
Examination Blocks | ||||||
Examination Block 3 | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
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376-0152-00L | Anatomy and Physiology II | O | 5 credits | 4V | M. Ristow, K. De Bock, M. Kopf, L. Slomianka, C. Spengler | |
Abstract | Basic knowledge of the anatomy and physiology of the gastrointestinal tract, endocrine organs, urinary system and the reproductive system. Knowlewdge of the basic mechanisms of pathobiology. Study of all human tissues and selected organs by examining slides under the light microscope. | |||||
Learning objective | Foundations of human anatomy and physiology and basics of clinical pathophysiology | |||||
Content | Short overview of human anatomy, physiology and general pathology. 3rd semester: Principles of histology and embryology. Anatomy and physiology: nervous system, muscle, sensory organs, circulatory system, respiratory system. 4rd semester: Anatomy and physiology: gastrointestinal tract, endocrine system, metabolism and thermoregulation, integumentary system, blood and immune system, urinary system, circadian rhythm, reproductive system, pregnancy and birth. | |||||
Literature | Anatomie: Martini, Timmons, Tallitsch, "Anatomie", Pearson; oder Schiebler, Korf, "Anatomie", Steinkopff / Springer; oder Spornitz, "Anatomie und Physiologie, Lehrbuch und Atlas für Pflege-und Gesundheitsfachberufe", Springer Physiologie: Thews/Mutschler/Vaupel: Anatomie, Physiologie, Pathophysiologie des Menschen, Wissenschaftliche Verlagsgesellschaft, Stuttgart oder Schmidt/Lang/Thews: Physiologie des Menschen, Springer-Verlag, Heidelberg | |||||
Prerequisites / Notice | Der Besuch der Anatomie und Physiologie I - Vorlesung ist Voraussetzung, da die Anatomie und Physiologie II - Vorlesung auf dem Wissen der im vorangegangenen Semester gelesenen Anatomie und Physiologie I - Vorlesung aufbaut. | |||||
376-0153-00L | Histology | O | 2 credits | 2G | D. P. Wolfer, I. Amrein, L. Slomianka | |
Abstract | Practical at the light microscope based on the lectures "Anatomie" 1+2 with an introduction in histological techniques. In the first part participants study examples of epithelia, connective and supporting tissues, muscle and nervous tissue. The second part is devoted to the microscopic anatomy of selected organs. | |||||
Learning objective | By working with the microscope, participants gain a deeper understating of the lecture topics, in particular in microscopic anatomy. They acquire the ability to examine tissue sections with the microscope, to recognize organ-typical structures and to identify the organ of origin. | |||||
Literature | Suggested reading Lüllmann-Rauch R, Asan E: Taschenlehrbuch Histologie Kühnel W: Taschenatlas Histologie | |||||
Prerequisites / Notice | Based on: 376-0151-00 "Anatomie und Physiologie" I 376-0150-00 "Anatomie und Physiologie" II | |||||
402-0084-00L | Physics II | 4 credits | 3V + 1U | G. Dissertori | ||
Abstract | This course is an introduction to classical physics, with special focus on applications in medicine. | |||||
Learning objective | Obtain an understanding of basic concepts in classical physics and their application (using mathematical pre-knowledge) to the solution of simple problems, including certain applications in medicine. Obtain an understanding of relevant quantities and of orders of magnitude. | |||||
Content | Electromagnetism; Thermodynamics; Optics. | |||||
Lecture notes | Will be distributed at the start of the semester. | |||||
Literature | "Physik für Mediziner, Biologen, Pharmazeuten", von Alfred Trautwein, Uwe Kreibig, Jürgen Hüttermann; De Gruyter Verlag. | |||||
Prerequisites / Notice | Voraussetzung Mathematik I+II (Studiengänge Gesundheitswissenschaften und Technologie bzw. Humanmedizin) / Mathematik-Lehrveranstaltungen des Basisjahres (Studiengänge Chemie, Chemieingenieurwissenschaften bzw. Interdisziplinäre Naturwissenschaften) | |||||
Examination Block 4 | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
376-0008-00L | Advanced Anatomy and Physiology II: Advanced Physiology and Pathophysiology Only for Health Sciences and Technology BSc. | O | 4 credits | 4V | K. De Bock, O. Bar-Nur, M. Detmar, G. A. Kuhn, M. Ristow, G. Schratt, C. Spengler, C. Wolfrum, M. Zenobi-Wong | |
Abstract | In-depth theory to molecular and pathophysiological aspects of nerves, muscles, heart , circulatory , respiratory and sensory organs . | |||||
Learning objective | In-depth knowledge of anatomy and physiology. | |||||
Content | Molecular fundamentals of physiological processes, processes of disease development. | |||||
376-0206-00L | Biomechanics II | O | 4 credits | 3G | W. R. Taylor, P. Schütz, F. Vogl | |
Abstract | Introduction in dynamics, kinetics and kinematic of rigid and elastic multi-body systems with examples in biology, medicine and especially the human movement | |||||
Learning objective | The students are able - to analyse and describe dynamic systems - to explain the mechanical laws and use them in biology and medicine | |||||
Content | The human movement from a mechanical point of view. Kinetic and kinematic concepts and their mechanical description. Energy and momentum of a movement. Mechanical description of a multi-body system. | |||||
376-1611-00L | Biomedical Interfaces | O | 4 credits | 2V + 1U | J. Möller, R. Konradi, V. Vogel | |
Abstract | This class serves as an introduction into the design of materials for biomedical applications. Its focus lies on controlling interactions at the interface between biomolecules or living cells and synthetic materials. Knowing some basic concepts allows us to define prototypical requirements for material surfaces and to utilize molecular engineering principles for their realization. | |||||
Learning objective | 1. The students will know basic rules that determine the interaction of biological molecules or cells with synthetic materials on the nanoscale. 2. The students will be able to define essential requirements how to functionalize materials in the context of specific biomedical applications. 3. The students will be able to predict the outcome of self-assembly processes and utilize these to achieve a desired function or biological behavior at interfaces. | |||||
Content | - protein-surface interactions - anti-adhesive surface coatings - biosensors - bacteria-surface interactions - cell-nanoparticle interactions - drug delivery systems - cell-matrix interactions - soft tissue engineering | |||||
Lecture notes | Handouts of the lecture can be accessed online. | |||||
Literature | Selected chapters of - Biomaterials Science: an Introduction to Materials in Medicine, by B. Ratner, 3rd Ed. Academic Press (2013). - Biomimetic Materials and Design: Biointerfacial Strategies, Tissue Engineering and Targeted Drug Delivery, by A.K. Dillow and A.M. Lowman, CRC Press (2002). - Biomaterials: Principles and Practices, by J.Y. Wong et al., CRC Press (2013). - Molecular Biology of the Cell, by B. Alberts et al., Taylor & Francis, 5th Ed. (2007). Detailed literature references will be provided in the lectures. | |||||
Prerequisites / Notice | This interdisciplinary class addresses students from all disciplines at the Bachelor level. We premise a profound basic knowledge of cell biology and biochemistry. |
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