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Master's Thesis

Study Course Description

Course Description Statuss:Approved
Course Description Version:2.00
Study Course Accepted:09.11.2022 11:33:04
Study Course Information
Course Code:MF_041LQF level:Level 7
Credit Points:18.00ECTS:27.00
Branch of Science:Clinical Medicine; Health CareTarget Audience:Life Science
Study Course Supervisor
Course Supervisor:Pēteris Tretjakovs
Study Course Implementer
Structural Unit:Faculty of Medicine
The Head of Structural Unit:
Contacts:Riga, 16 Dzirciema Street, cfbkatrsu[pnkts]lv, +371 67061550
Study Course Planning
Full-Time - Semester No.1
Lectures (count)0Lecture Length (academic hours)0Total Contact Hours of Lectures0
Classes (count)0Class Length (academic hours)0Total Contact Hours of Classes0
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Study course description
Preliminary Knowledge:
Passed all the prescribed examinations in the study programme "Biomedicine".
Objective:
The Master's thesis is an independently carried out research, the aim of which is to enable the assessment of the postgraduate student’s readiness to independently use the acquired knowledge and skills in solving research and professional problems in the field of biomedicine.
Assessment
Unaided Work:
Development of Master's Thesis.
Assessment Criteria:
Evaluation on a 10-point grading system.
Final Examination (Full-Time):Defence (Master’s thesis)
Final Examination (Part-Time):
Learning Outcomes
Knowledge:On successful completion of the programme, the student will be able to: • describe the structure of the cell, outline the processes taking place within it and recognise the methods used to study cells, articulate the signs of disorders of cell structure and function and their significance in human pathology; • describe the diverse physiological processes in the body, explain the interaction between the body and the environment, describe the observation of physiological processes and provide explanations; • describe the main factors causing gene mutations and assess their risk to human health; • define the most relevant areas of research in human genetics in Latvia and their importance; • describe the role of oxygen and nitrogen derivatives, free radicals, antioxidants and essential microelements in normal and pathological life processes; • name the main central and peripheral regulatory mechanisms, the age-related changes in sensory support structures and the possibilities of plasticity with changes in functions; recognise the methods of morphological research used in neuroscience; • locate legal documents on research ethics, define the role and function of research ethics committees, list the major ethical issues in biomedical research involving human subjects, define the principle of scientific integrity; • classify and describe didactic methods, outline the pedagogical principles, explore and evaluate the possibilities of alternative pedagogy; • find information in a statistical database, describe the data of the research with statistical indicators; • learn about the nature of academic writing, the principles and design of scientific papers; • classify the basic principles of methodology and preparation of a scientific research protocol; define the stages and activities to be carried out in the process of writing the Master's thesis; outline the application of research methods in the course of work; organise the design of the Master's thesis.
Skills:• describe the main ultrastructural features of cellular changes, differentiate methods for studying cells; • evaluate the functional and selected clinical diagnostic methods for examination of the basic functions of the body; analyse the data obtained by physiological methods; analyse the activity of physiological processes in the body; • evaluate the structural organisation of genetic material of cells and organisms, and evaluate its mechanism of action, analyse and apply selected methods of molecular biology and genetics; • justify the most topical directions of human genetic research, evaluate the possibilities of diagnosis, therapy and prevention of genetic pathology in Latvia; • evaluate neurological preparations among other morphological preparations; justify the need for information in case of a poor-quality preparation/schema; • using a fluorescence spectrophotometer, clinical chemistry analyser, microplate reader (ELISA), etc., will be able to evaluate and interpret pro-oxidant and antioxidant results; will be familiar with the evaluation of oxidative stress based on standard analytical methods; • justify the calculation of the main parameters of biomechanics, estimate the maximum stress, strain and elastic modulus of biomaterials; • evaluate the pure culture of a pathogenic micro-organism isolated in the clinical material, interpret the pathogenesis of the disease; • evaluate statistical parameters and basic information from databases, compare data according to specific criteria; • when preparing a lecture or seminar, interpret active and interactive methods in accordance with didactic principle; • extend the protection of human and animal rights to biomedical research; • compare different referencing styles and bibliographic formats, differentiate between ethical issues in research design; • justify the methodology for the topic of the Master’s thesis, document, design and present the research results.
Competencies:• be familiar with biomedical guidelines and current issues; • apply knowledge of basic sciences to solve medical problems; • apply the findings of scientific research in planning medical and biomedical research; • conduct and supervise research in a selected field of biomedical discipline.
Bibliography
No.Reference
Required Reading
1PubMed datu bāzes žurnāli
Additional Reading
1PubMed datubāzes žurnālu raksti atbilstošajās jomās