Master's Degree in Biotechnology in the Czech Republic

View Master's Programs in Biotechnology in the Czech Republic

Biotechnology

A masters is the first level of graduate coursework and can be obtained after you receive a bachelor’s degree. Earning a masters usually requires two years of full-time study, which amounts to 36 to 54 semester credits.

 

Biotechnology is a challenging area that combines science and engineering concepts. Students who pursue this educational path will likely gain knowledge in microbiology, chemistry, genetics, cell biology, bioethics, gene cloning, bioinstrumentation, bioinformatics, genomics, and biometrics.

Czech Republic has a well-established and research based university education. This has made learning ini Prague one of the respected curriculum's in Europe since it cultivates the spirit of creativity and innovation among students.

Master Program in Biotechnology in the Czech Republic

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Master in Engineering and Technology (focus on Chemical Technology)

University of Chemistry and Technology, Prague
Campus Full time September 2017 Czech Republic Prague

The programme aims to prepare graduates for creative and self-reliant work in process design, development, optimization and control of chemical processes and plants in production of both basic and specialty chemicals. [+]

Best Masters Degrees in Biotechnology in the Czech Republic. Overview The programme aims to prepare graduates for creative and self-reliant work in process design, development, optimization and control of chemical processes and plants in production of both basic and specialty chemicals. The students are also prepared for continuation of their studies at the PhD level. General knowledge gained at the Bachelor degree studies is extended and deepened via compulsory courses oriented towards theoretical foundations of chemical engineering and heat and mass transport processes. Courses on process engineering, bioengineering, inorganic and organic technologies, chemical informatics, system engineering and safety engineering provide students with knowledge necessary for their engineering activities. In addition, graduates master a broad range of skills in mathematical modeling, applied mathematics, informatics and computer applications. Careers Graduates are ready to solve chemical-engineering, bioengineering and technological tasks emerging in analysis, research, design, control and redesign of technological processes in chemical, petrochemical, biotechnological, food and processing companies and enterprises. They are also prepared to gain leading positions in trade and companies merchandising chemical products. The graduates are also prepared to continue their studies at the PhD level. Selection of recent theses Experimental study of chemo-hydrodynamic effects in Hele-Shaw cells Hydrogenation amination of diethylene glycol with dimethylamine Experimental study and modelling of dynamics of enzymatic decomposition of urea [-]

Master in Biotechnology

University of Chemistry and Technology, Prague
Campus Full time September 2017 Czech Republic Prague

The programme aims to prepare experts with high level knowledge of microbiology, biochemistry, bioengineering, biotechnologies and food science. The broadly outlined structure of this programme together with intentional connection between chemical, biological and engineering education widens possibilities of graduates' employability. [+]

Overview The programme aims to prepare experts with high level knowledge of microbiology, biochemistry, bioengineering, biotechnologies and food science. The broadly outlined structure of this programme together with intentional connection between chemical, biological and engineering education widens possibilities of graduates' employability. The programme extends and deepens general knowledge gained at the Bachelor level studies both in compulsory courses in biochemistry, organic and physical chemistry, biology, microbiology, food analysis, food safety and process control and biotechnology and bioengineering. The students may concentrate on a particular branch of study by a proper choice of optional courses. Careers The graduates are ready to acquire highly qualified positions in biotechnological companies, in food production plants, in health care, veterinary medicine and pharmaceutical companies. They can also get positions in institutions oriented to environmental protection, in commercial companies and in research and development organizations or in process design and control and quality management. Due to versatility of their knowledge background they easily adapt to changing conditions and new tasks. The graduates may also find positions in administration and in supervisory agencies. Selection of recent theses Production of microalgal exopolysaccharides by Dictyosphaerium chlorelloides Advanced fingerprinting strategies for food / herbs authentication Testing of basic cereal rheological instruments using the different formula doughs Expression of the mimivirus prolyl-4-hydroxylase in Pichia pastoris. Synthesis and investigation of amide derivatives of 5-androsten-3β-ol-17β-carboxylic acid [-]

Master in Biomedical Engineering

Technical University of Ostrava
Campus Full time September 2017 Czech Republic Ostrava

This course prepares the graduate to work in the paramedical professions as a Biomedical Engineer. The learning outcomes are of very high quality, as the professions are well regulated by Czech law, which informs the standards and quality of the teaching programme. [+]

Best Masters Degrees in Biotechnology in the Czech Republic. Faculty of Electrical Engineering and Computer Science Study Branch Biomedical Engineering Branch Profile This course prepares the graduate to work in the paramedical professions as a Biomedical Engineer. The learning outcomes are of very high quality, as the professions are well regulated by Czech law, which informs the standards and quality of the teaching programme. For example, graduates will be entitled to work in specially regulated medical professions in Czech Republic with a degree in this field, and will be prepared with a strong base of studies for work in many parts of the world. Key Learning Outcomes - Knowledge The course provides the knowledge that forms the basics needed for the practice of a technical medical profession, i.e. anatomy, physiology and pathology, definition of systems in biological items, biophysics, and physical methods in therapy. A substantial part of instruction is focused on technical subjects, especially on the theory of processing signals and images, digital processing of signals and images, and analysis and interpretation of bio-signals. Regarding the vast area of biomedical engineering, the course is focused in more detail on instrument engineering, i.e. biomedical sensors; diagnostic, therapeutic and laboratory medical apparatuses; and medical apparatus complexes. Students also acquire elementary knowledge in areas related to the operation of medical facilities, which is required for his/her practical activity in medical operations. With respect to the professional specialization of the course, the graduate possesses - a broad and deep state-of-the-art knowledge and understanding of the subject and extent of the given branch - a broad state-of-the-art knowledge and understanding of theories, concepts and methods of the branch - an understanding of the possibilities, conditions and limitations of applying the findings of the related branches - Skills Graduates can independently define and creatively deal with theoretical or practical problems, using their expert knowledge, independently and creatively solve a complex problem using selected theories, concepts and methods of the branch, apply some of the advanced research procedures of the branch enabling them to gain new, original information. - General competencies: Graduates are able to make independent and responsible decisions in new or changing contexts or in a developing environment, define the assignments for professional activities according to the developing contexts and available sources, to coordinate them, and bear ultimate responsibility for the results, consider the ethical aspects ensuing from technical solutions, communicate to both experts and the public his/her own opinion in a comprehensible and convincing way, use their professional knowledge, expert skills and general qualifications in at least one foreign language Occupational Profiles of Graduates Graduates can find employment in activities related to diagnostic and medical care in cooperation with a physician. They will be able to apply the acquired knowledge in clinical engineering, healthcare facilities, and first aid. Graduates will be able to work with medical apparatuses, including assisting in examinations that require the use of such apparatuses, check and maintain the apparatus outfit, keep records of it and ensure its operation, to operate the medical software and cooperate in the tender process for medical apparatuses. A biomedical engineer is a medical worker without professional supervision (i.e. a graduate in a branch of study that meets the conditions of accreditation of the Czech Ministry of Health), and within the scope of their professional competence he/she without indication: a) provides medical care in accordance with legal regulations and standards b) follows the rules of the sanitary and epidemiologic regime in accordance with special legal regulations c) keeps medical documentation and other documentation ensuing from special legal regulations, works with the information system of a healthcare facility d) provides information to patients in compliance with his/her professional competence, or as the case may be, the physician’s instructions e) takes part in the practical education in the branches of study designed to provide professional competence to perform medical professions, as organized by secondary schools and higher technical colleges, in accredited medical study programmes designed to provide competence to perform a medical profession, as organized by the universities in the Czech Republic, and in educational programmes of accredited qualification courses f) participates in the preparation of standards Admission Requirements Determined by Dean, may include entrance examination, specific courses taken during bachelor studies, other formal documents. Graduation requirement 120 ECTS Credits, Final state examination, Diploma thesis Course Structure Diagram with ECTS Credits 30 ECTS credit per semester. [-]

Master in Bio­medical and Clinical Technology

Czech Technical University in Prague
Campus Full time October 2017 Czech Republic Prague

Biomedical Engineering | Systematic Integration of Processes in Health Service | Instruments and Methods for Biomedicine [+]

Fields of Study - Biomedical Engineering - Systematic Integration of Processes in Health Service - Instruments and Methods for Biomedicine Entrance Exams - entrance examination in English Entry Requierements - fully compleated application form - relevant bachelor degree - basic knowledge of mathematics, physics, chemistry, biology and programming, application and integration knowledge and understanding - ability to conduct scientific research - letter of motivation - proficiency in english Scholarship not for the first year students [-]