Master's Degree in Biotechnology in Europe

Best Master's Programs in Biotechnology in Europe 2017

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.

In all, there are over 4000 Higher Education Institutions in Europe offering a wide range of courses at Bachelor, Masters and Doctorate level. With more and more of these organizations offering English as the language of education for at least some of their degree programs, universities in Europe are now of higher quality than ever before. Universities in Europe offer a friendly welcome to foreign students and to give a course of knowledge that meets their profession needs in today’s global demand.

Master's Program in Biotechnology in Europe

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Master Specialized Management Of Biotech Companies

Grenoble Ecole de Management
Campus Full time Part time 15  October 2017 France Grenoble + 1 more

This Advanced Master trains managers of operational web internationally on all components of e-business and e-marketing to meet the new challenges implied by developments in information technology. [+]

Best Master Degrees in Biotechnology in Europe 2017. Objective: The development of the biotechnology sector reinforced the need for specialists. The Specialized Master Management of Biotechnology and pharmaceutical companies as these experts by providing specific managerial skills and understanding of issues related to the sector, as well as training to the changes and challenges it entails. Program: The pedagogy of Grenoble Ecole de Management is strongly oriented enterprises to enable students to be operational quickly. For this, a special importance is given to the presence in business (alternating, business missions), professional intervention, and case studies. This training is conducted entirely in English. What job can I do with this training? Many guidelines are available: head of product marketing, industrial property adviser, responsible for valuation, business development, ... How to integrate this training? Admission on-line application is open: - For graduates with a bac + 5 (engineers, academics, doctors, Phd) - In the business executives in incumbent operations of a bac + 4 with experience at least 3 years A derogation other profiles can be accepted [-]

MSc Evolutionary Systems Biology

University of Vienna
Campus Full time October 2017 Austria Vienna

With the proliferation of huge data sets (DNA/RNA sequences, 4D imaging and geometric morphometrics), modern biology is rapidly becoming a quantitative science. Research laboratories and biotech companies around the world are looking for people who can use these data to solve biological and medical problems. [+]

A joint Master's programme at the University of Vienna & University of Veterinary Medicine Vienna For detailed information, see the Evolutionary Systems Biology Website With the proliferation of huge data sets (DNA/RNA sequences, 4D imaging and geometric morphometrics), modern biology is rapidly becoming a quantitative science. Research laboratories and biotech companies around the world are looking for people who can use these data to solve biological and medical problems. To fulfill this demand, the new Evolutionary Systems Biology (ESB) Master's program (start: Winter Term 2016) provides the training necessary for this new type of scientist. Specifically, ESB master's students will: Learn how to understand and handle modern “- omics” data sets. Develop key computational skills and delve into biological modelling. Combine experimental “wet-lab” technologies with quantitative “dry-lab” methods. Apply these skills to questions arising from evolutionary biology, development, comparative genomics, and systems biology. Vienna offers a unique scientific environment for the ESB Master's program, which will benefit from the expertise of research groups in population genetics, evo-devo, systems biology, and biomathematics at the University of Vienna and the Vetmeduni Vienna. Master's students will be able to draw upon the resources of two Universities, and on established connections to world-class research institutes such as the Gregor Mendel Institute, IST Austria, the Vienna Graduate School of Population Genetics, and the evolVienna network. Course Overview The ESB master’s programme aims to provide hands-on education, with practical skills courses designed to complement all lectures in the core curriculum. Furthermore, there is a strong emphasis on research, with two lab rotations and a research-based master's thesis project providing training in cutting-edge research methods. This programme particularly includes: Courses covering population genetics, comparative genomics, molecular evolution, EvoDevo and systems biology. Practical courses introducing modelling, programming, and statistical data analysis for biologists. An extensive research component, including rotations in multiple research groups, one-on-one training, and individual research projects. Special skill courses on giving scientific talks and writing successful grant proposals. The expected length of the Master in ESB programme is four semesters. In line with the curriculum nine modules (MES1-9), a Master’s Thesis and an Oral Defense, totalling 120 ECTS, have to be completed to be awarded the degree. Admission The ESB master's programme is aimed at students with an interest in biological research and quantitative methods. As an entry requirement applicants must hold a bachelor's degree in biology or in a related field (such as biotechnology, biomedicine, or bioinformatics). Advanced quantitative skills are not a prerequisite. Applicants with a BSc in other natural sciences (e.g. Physics) or mathematics and statistics may also be admitted to the ESB master's programme, provided that they complete additional courses in basic biology. Non-native speakers are required to prove their English language competence. After Graduation An ESB master's degree will provide degree holders with an excellent foundation which will either enable them to pursue a doctorate, such as a PhD in quantitative biological research, or will open up a wide variety of career opportunities in research-oriented biomedical/biotechnological companies. For further information, please see here [-]

Master in Protein Science and Biotechnology

University of Oulu
Campus Full time September 2017 Finland Oulu

The MSc degree programme meets the clear needs of academia and industry in the post genomic era. This degree is specifically aimed at giving students in-depth understanding of the structure-function relationship of proteins and the techniques used to produce and characterize them. [+]

Best Master Degrees in Biotechnology in Europe 2017. Master in Protein Science and Biotechnology Watch a video of the International Master's programme in protein Science and Biotechnology, where our students tell about the programme, and studying and living in Oulu. The MSc degree programme meets the clear needs of academia and industry in the post genomic era. This degree is specifically aimed at giving students in-depth understanding of the structure-function relationship of proteins and the techniques used to produce and characterize them. Students who are selected for the degree will undertake 120 ECTS study points (equivalent of two years) of studies. These studies maximise hands on individual training in modern state of the art techniques and methodologies while providing a solid groundwork in theoretical aspects of the field. Around half of the degree involves integration of students into different research groups, finally cumulating in a 6 month research project. The degree is flexible and allows the students to specialize in the aspects of protein science and biotechnology which will most benefit their future career. The programme is particularly aimed at people going into research and former students have been very successful in finding PhD positions in Finland and abroad. The degree is taught in the highly international Faculty of Biochemistry and Molecular Medicine. The faculty brings together expertise in in vitro, in vivo and in silico analysis of protein structure and function and includes national centers for protein biophysical and structural analysis as well as a national Centre of Excellence in Cell Extracellular Matrix Research. Programme Outline The degree programme includes, but is not limited to, studies in protein chemistry and production, biocomputing, bioinformatics, protein folding, drug design, systems biology, structural biology and optional courses covering cellular and molecular biology as well as mini-projects and the final 6 month research project. All projects are carried out in active, well-funded research groups. The degree programme has been planned around the early integration of MSc students into research groups and the use of most modern equipment by individual students. Before the end of the first term students will have individual hands on experience of electrospray mass spectrometry, subsecond kinetics, microcalorimetry, surface plasmon resonance and recombinant protein production to name but a few. The degree programme also offers flexibility to allow students to specialise in aspects of protein science and biotechnology which they believe will most benefit their future career. Programme Admissions Please read this entire document carefully before starting the application process. Prerequisites for applicants Bachelor of Science or Master of Science degree with good grades in either: Biochemistry, or a closely related topic (to be judged by the content of the degree) Chemistry, or a closely related topic, and relevant biochemistry experience The degree has to consist of minimum three (3) years of full-time study. An equivalent higher education degree which enables the applicant to apply for higher university degree (Master) studies in his/her home country is also acceptable in place of the BSc. Please note that conditional admission is possible, if the applicant receives the degree certificate from the previous degree after the application deadline. However the final degree certificate must be submitted by Applicants graduating spring term 2017 from Finnish Universities of Applied Sciences by 12th of June 2017 Applicants graduating spring/summer term 2017 form abroad or Finnish research university by 28th of July 2017 to commence the MSc degree. Application procedure The application and selection process is comprised of two stages: Stage I: written applications Stage II: interviews Stage I: Written applications General information The admission period for International Master’s Degree Programmes is from 15th December 2016 to 25th January 2017 (3.00 pm, GMT +2) for studies starting in September 2017. University of Oulu partners with the University Admissions Finland for their services for the application system and the pre-processing of application documents. University Admissions Finland will evaluate your eligibility and the authenticity of your educational certificates. This includes e.g. contacting your previous educational institution. Any malpractice will be reported to the universities and proper authorities. A written application includes: a) Completed online application form b) Compulsory attachments to the application form: A copy of passport information page or a copy of an official ID card Bachelor’s (or equivalent) degree certificate University transcript, including the grading system of the institution Curriculum Vitae in Europass CV format Two reference letters 1. Fill in the online application MSc in Protein Science and Biotechnology study programme of University of Oulu can be found on the Studyinfo portal where you can search for the programme and start the application. The online application is only open during the application period, 15.12.2016-25.1.2017. The admissions requirements are found in the University of Oulu Admissions. Visit also the programme website for programme specific requirements. 2. Collect the required enclosures The list of required documents is also on the online application. Mark down your Application Form number into every document, and also into the lower left corner of the envelope. Please make sure that the documents are officially certified and translated. There are no exceptions to these rules. 3. Send the requested application documents to the mailing address of the University Admissions Finland University Admissions Finland Unioninkatu 40 C FI-00170 Helsinki FINLAND (If you use a courier service, please also mark down the University Admissions Finland’s phone number +358 29 41 235 28) Applications sent via email or fax will not be considered. Please make sure your application package (enclosures) reaches University Admissions Finland by mail within the given application deadline. Late applications will not be processed. The application documents will not be returned to the applicants. Submitting Application Documents All educational documents must be officially certified (attested) by the Notary Public or the awarding institution. Please also note the possible country-specific requirements. Detailed descriptions of the official translations and officially certified copies can be found in here. Selection criteria for the interview: Applicants will be selected for interview based on the written applications. The primary selection criteria will be the level and relevance of the applicants study record in the Bachelor’s degree. Secondary selection criteria will come from the applicants statements e.g. motivation, that are include in the online application form. A maximum of 40 students will be selected for interview. Language requirements Students must be fluent in English. Our MSc degree uses the interview as the method for demonstrating language proficiency. No documentation on language proficiency is needed. Stage II: Interviews The second stage of the selection will be an interview by skype (or by telephone if skype is unavailable), with questions based on the relevant scientific background i.e. protein chemistry, molecular biology, basic cellular biology, and relevant sections of chemistry such as kinetics and thermodynamics, along with questions relating to motivation and career aspirations. The interview will also be a test of the ability of the applicant to understand and communicate effectively in English. The interviews will typically be 45-50 minutes in length and will be held during March-April. Student Selection A maximum of 15 students will be selected to the Master’s programme based on the ranking of their performance in the interview. In the case of ties the written application will be used to separate the candidates. Announcing the Results Selection result will be published latest by early May 2017. Accepting the Study Place Deadline to confirm the study place for a full two-year Master's Programme starting in autumn 2017 is mid July , 2017 (exact date will be published later). University of Oulu International Master’s Scholarship Scheme 2017-2018 Connected with the renewal of university strategy, the increased importance of internationalization and the introduction of tuition fees for non-EU/EEA citizens, the University of Oulu has assigned a significant amount of money for tuition scholarships for 2017 entry. The scholarships will be granted in the form of a tuition fee waiver. The tuition fee waiver awarded covers 100 % of the full tuition fee. Applicants can apply for the tuition scholarship as part of the admissions process. University of Oulu Scholarship Scheme in more detail The University of Oulu International Master’s Scholarship Scheme (IM Scholarship) provides scholarships to academically talented international students. The scholarship is aimed at students studying for a Master’s degree in the University of Oulu two-year International Master’s programmes. The scholarship covers the full international tuition fee. University of Oulu IM Scholarships do not cover living costs. In order to retain the scholarship in the following year of study, a student must have completed 55 ECTS by the end of the previous academic year. If a student does not achieve this requirement during the first year of studies, they will be liable to pay the full international tuition fee for the second year if they wish to complete their Master’s degree programme. An exception to this rule can be made if a student has been granted approved leave from studies (e.g. due to serious illness). Eligibility Requirements to Apply for International Master’s Scholarship Applicants are eligible to apply for a University of Oulu IM Scholarship 2017-18, if they are: Non-EU/EEA* citizens who do not have a permanent residence permit in Finland. (Applicants not eligible for the International Master’s Scholarship are: 1) non-EU/EEA citizens who have a permanent residence permit in Finland, 2) EU/EEA citizens or comparable persons, 3) University of Oulu students who have been accepted to study BEFORE the academic year 2017-18.) Eligible to apply for a Master’s degree programme at the University of Oulu for academic year 2017 – 18. The applicant has obtained their first academic degree (Bachelor’s or equivalent) from a recognised institution of higher education. The applicant proves a high level of proficiency in English language. Approved methods of demonstrating language proficiency. Applicants who are in their last term/semester of studies for their first academic degree during the application period, can apply for the scholarship. Applicants who receive a conditional offer of study placement for a Master’s programme will receive a conditional scholarship offer. The scholarship application will be processed in the selection procedure only if the applicant meets the admissions criteria. *European Union / European Economic Area member states are: Austria, Belgium, Bulgaria, Cyprus, Czech, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Liechtenstein Republic, Denmark, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, and United Kingdom. With the EU legislation, Switzerland is also comparable for EU member states. The nature of residence permit is indicated in the residence permit with a letter. A permanent residence permit bears the letter P or A and an EC residence permit for third-country nationals with long-term EC resident status bears the letters P-EY. Application for International Master’s Scholarship 2017-18 There is no separate application system for the International Master’s Scholarship. All applicants for University of Oulu Master’s degree programmes need to complete the Student Application Form. Those applicants who are applying for the University of Oulu International Master’s Scholarship have to additionally complete the “Application for Scholarship,” section which can be found at the end of the Student Application Form. The International Master’s Scholarship application section cannot be completed and/or submitted without the Student Application Form. The application period for the University of Oulu Master’s degree programmes and International Master’s Scholarships is 15.12.2016-25.1.2017 Selection criteria for University of Oulu IM Scholarship 2017-2018 Admissions and scholarships decisions will be taken at the same time. Those students successful in obtaining an International Master’s Scholarship will be notified at the same time as their offer of admission to their International Master’s programme is confirmed. The selection criteria for the University of Oulu IM Scholarship are based on previous academic performance and academic potential. For questions concerning the University of Oulu IM Scholarship, please contact admissions.officer(a)oulu.fi [-]

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 [-]

Master in Plant and Forest Biotechnology

Umeå University, Faculty of Science and Technology
Campus Full time August 2017 Sweden Umeå

Plant biotechnology is becoming increasingly important as a tool to solve some of the global problems related to feed, fuel and ecosystem management in an environmentally... [+]

Master's Programme in Plant and Forest Biotechnology

 

Plant biotechnology is becoming increasingly important as a tool to solve some of the global problems related to feed, fuel and ecosystem management in an environmentally friendly and sustainable manner. The Master of Science Programme in Plant and Forest Biotechnology offers students a specialized competence and skills to recognize, understand and find solutions to these challenges. The programme is based upon a set of coordinated courses which together amount to 80 credits (120 ECTS credits) spread over two years. Up-to-date knowledge is provided about plant cell and molecular biology as well as plant growth and development. This is applied in the fields of plant breeding, biotechnology and functional genomics. The programme is organized by the Department of Plant Physiology (Umeå University) and the Department of Forest Genetics and Plant Physiology (Swedish University of Agricultural Sciences) which together form the Umeå Plant Science Centre (UPSC). The education is anchored around the various research topics of UPSC.... [-]


Integrated Master's in Biological Engineering

University of Minho - School of Engineering
Campus Full time September 2017 Portugal Braga

The course has a strong component of Chemical Engineering, aiming at training Process Engineers for industries where biological, chemical or physics-chemical processes are predominant. Their specific intervention areas are related to multidisciplinary domains of Biological and Chemical Science and Technology, Fermentation and Pharmaceutical industries, agro and food industries, Chemical industry and Biomedical and Environmental areas. [+]

Academic degree: Bachelor (Bologna 1st cycle degree), Master's degree ECTS: 300 Duration: 5 curricular years Regime: Normal Place: Gualtar Campus, Braga Main Scientific area: Chemical and Biological Engineering INTEGRATED MASTER’S | 5 YEARS With a strong component in Chemical Engineering, it aims to train process engineers for industries where biological and / or physical and chemical processes predominate. Specific areas are located in multidisciplinary fields such as Chemical Technology and Food and Environmental Technology - fermentation industries, agro-food, pharmaceutical and chemical industries; pollution and energy sectors; ecology, biomedical and quality control and research. From a biological engineer it is expected creativity, proactive attitude, technical communication skills, leadership, entrepreneurship, team work, citizenship and an eco-sustainable conduct. Careers The Biological Engineers are capable of demonstrating creativity, a pro-active attitude when facing change, communication capacity when referring to technical or generic audits, leadership and entrepreneurship; they have the ability to work in teams and in a larger network and are aware of citizenship and eco-sustainable performance. [-]

BIO-ECONOMIC MANAGEMENT IN THE CONTEXT OF SUSTAINABLE GROWTH

Danubius University
Campus Full time Romania Galați

This master degree within the Faculty of Economical Science aims at achieving the following objectives: - Forming qualified specialists in conformity with the present requirements of the job markets from Romania and the European Union countries, promoting a set of values based on solidarity, non-discrimination, ethics, scientific objectivity, creativity and dynamism; [+]

Best Master Degrees in Biotechnology in Europe 2017. This master degree within the Faculty of Economical Science aims at achieving the following objectives: - Forming qualified specialists in conformity with the present requirements of the job markets from Romania and the European Union countries, promoting a set of values based on solidarity, non-discrimination, ethics, scientific objectivity, creativity and dynamism; - Engaging students in scientific research through getting involved in national and international scientific projects; - Ensuring a body of specialists in the economic field, in accordance with the national and international standards. Master students may gain the following specialized skills after obtaining their degree: - Knowledge of the elements that are specific to bio-economy, those regarding the ethics of the activity and the way in which these are organized and pursued; - The capacity to analyse and interpret some problems that are specific to bio-economy and to back up decisions based on the provided information; - Developing a deep understanding at an operational level of bio-economy in the context of applying European and world strategies; - Developing skills in the field of entrepreneurial, industrial and agro-alimentary bio-economy; - The capacity to cognitively and professionally apply concepts, theories and investigation methods within the field of bio-economy. Some of the subjects studied within this program are: the basis of bio economy, European Union’s bio-economic strategy, World strategy for bio-economy, bio-business, Bio-economic law, Industry and service bio-economy. The study curriculum includes stages of specializing practice during the first year of study, 3 weeks, and summing 90 hours at the end of the second semester. Possible carrier paths: - Business consultant in agriculture - Consultant/expert/economist in environment economy - Economist researcher in environment economy - Economist researcher in agro-alimentary economy - Consultant in ecology and environment - Research assistant economist in agro-alimentary economy. Admission is based on the documents sent in by the candidates, taking into account the undergraduate grade average. [-]

Masters Programme in Genetics and Molecular Biology

Sapienza University of Rome
Campus Full time October 2017 Italy Rome

The Masters Programme in Genetics and Molecular Biology will provide students with the theoretical and practical preparation necessary to manage bio-molecular research (basic and applied to biomedicine). [+]

The Masters Programme in Genetics and Molecular Biology will provide students with the theoretical and practical preparation necessary to manage bio-molecular research (basic and applied to biomedicine). The programme focuses on individual student progress and their understanding of scientific issues and experimental strategies that are relevant to the programme objectives, as well as the final student thesis, which must be based on original experimental work, in coordination with a department professor. Learning Outcomes Advanced knowledge of unicellular and multicellular organisms that can be used as model systems for the study of the basic mechanisms of gene expression or more complex processes such as cellular development, differentiation and transformation; Acquisition of relevant concepts and methodologies, especially in terms of gene studies related to complex processes and the study of human populations; Advanced knowledge of the molecular basis of the main processes involved in the regulation of the structure and function of nucleic acids and proteins; Understanding of basic methodologies for the study and manipulation of biological macro-molecules; Ability to develop and improve basic methodologies that may be applied to research in biomedical and biotechnological research; Understanding of genetic and molecular concepts applied to the diagnosis and cure of genetic diseases; Ability to identify the biological processes underlying the basic physiopathology of organs and systems and their modulation, especially in mankind. [-]

Diplôme d’Ingénieur Chimiste

ESCOM : École Supérieure de Chimie Organique et Minérale
Campus Full time September 2017 France Paris

L’ESCOM délivre un diplôme d’Ingénieur constituée de 5 années d’études en sciences et techniques dans le domaine de la chimie et du génie des procédés. Ce diplôme est reconnu au même titre qu’un Master selon le cadre des accords de Bologne. Le diplôme d’ingénieur chimiste de l’ESCOM est certifié par le label EUR-ACE. [+]

Best Master Degrees in Biotechnology in Europe 2017. L’ESCOM délivre un diplôme d’Ingénieur constitué de 5 années d’études en sciences et techniques dans le domaine de la chimie et du génie des procédés. Ce diplôme est reconnu au même titre qu’un Master selon le cadre des accords de Bologne. Le diplôme d’ingénieur chimiste de l’ESCOM est certifié par le label EUR-ACE. Les étudiants internationaux peuvent rejoindre l’ESCOM à différents niveaux durant ces 5 années et plus particulièrement lors de la 3ème année. Chaque année est constituée de cours, de travaux pratiques en laboratoires et de stages à réaliser en France ou à l’international. L’ensemble des cours est dispensé en français. En 3ème année (équivalent de la dernière année de bachelor) le programme est constitué des matières suivantes : 49% de chimie (structure de la matière, chimie organique, chimie inorganique, chimie analytique) 28% techniques de l’ingénieur (phénomènes de transfert, méthodes et outils, chimie thermodynamique, formulation) 3% sciences humaines et sociales (environnement économique, environnement de l’entreprise, projet professionnel) 10% Langues En 4ème année (équivalent de la 1ère année de master) le programme est constitué des matières suivantes : 32% techniques de l’ingénieur (génie des procédés, méthodes et outils, chimie industrielle, procédés et formulation) 30% chimie (catalyse, chimie organique, chimie verte, organo-métallique, spectroscopie) 20% sciences humaines et sociales (management et gestion, projet professionnel, gestion d’entreprise) 10 % Langues 8% modules optionnels (génie des procédés, chimie du vivent, chimie verte, matériaux, formulation) Majeures en 5ème année La 5ème année (équivalent de la 2ème année de master) est une année vers la spécialisation. L’étudiant peut candidater pour l’une des majeures ci-dessous à condition d’être étudiant à l’ESCOM depuis au moins un an. La plupart des majeures externes (en partenariat avec une université ou un établissement académique) ont un nombre de places limitées. Chaque majeure fera l’objet d’une sélection sur la base d’un dossier remis par l’étudiant en 4ème année. Majeures ESCOM Qualité, Hygiène, Sécurité, Environnement Management et marketing industriel Produits et applications (formulation) Matériaux innovants sur base élastomères (en partenariat avec l’Ifoca, la formation a lieu en région parisienne) Majeures délivrant un master en partenariat avec l’Université Technologique de Compiègne (double-diplôme) Biotechnologie Génie des procédés Génie des produits formulés Majeures délivrant un master en partenariat avec l’Université Picardie Jules Verne (double-diplôme). Les cours ont lieu à Amiens. Analyse, contrôle, qualité de l’eau Traitement de l’eau Transformation chimique des ressources naturelles - Recherche et développement en chimie verte Les étudiants qui intègrent l’ESCOM en cycle préparatoire (1ère ou 1ème année) ou en 3ème année peuvent également se porter candidat pour les majeures en partenariat avec des établissements externes : Programme d’échange avec les écoles de chimie de la Fédération Gay-Lussac (FGL) partout en France, avec possibilité de Master Programme d’échange ou de double-diplôme dans une université partenaire à l’étranger (pour plus d’informations, consultez la liste des universités partenaires) Partenariat avec l’Institut Français du Pétrole (IFP School). La formation a lieu en région parisienne et est dispensée en apprentissage [-]

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. [+]

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. [-]

MSc in Bioinformatics

Lund University
Campus Full time September 2017 Sweden Lund

Bioinformatics is a broad subject in which biology, medicine, computer science and statistics intertwine. [+]

Programme overview

Bioinformatics is a broad subject in which biology, medicine, computer science and statistics intertwine. The basis for bioinformatics is the massive amount of biological sequence data derived from genomic studies and structural biology and stored in large databases. Computational biology also involves mathematical modelling of biological systems.

Special features of the programme:

    A combination of advanced research with training of current techniques, as well as the development of novel software tools     Close connections to research in an international environment     Proteomics, genomics and transcriptomics data will be analysed and combined to gain a global understanding of an organism or groups of organisms. ... [-]

Master's Programme in Biomedical Imaging

Åbo Akademi
Campus Full time August 2017 Finland Vaasa Turku + 1 more

Biomedical imaging has emerged as one of the most important technology areas in basic bioscience and biomedical research as well as in clinical medicine and translational research. The current technologies enable detailed real-time and non-invasive visualization of molecules, structures and events in cells, tissues, and whole organisms. [+]

Degree awarded: Master of Science Annual intake: 20 Contact: bioimaging@abo.fi Website: www.abo.fi/bioimaging , www.bioimaging.fi/program/ Facebook: www.facebook.com/groups/185436748136747/ YouTube-channel: www.youtube.com/user/turkubioimaging Biomedical Imaging – more than you can imagine! The Master's Degree Programme in Biomedical Imaging trains professionals with thorough theoretical understanding and practical skills of diverse imaging methods and technologies in life sciences and biomedicine. The studies thus also provide students with strong knowledge either in cell biology, anatomy and physiology, nanomedicine or biophysics, depending on the area of imaging specialization. Students work in a highly international environment and gain excellent theoretical and practical skills in a wide range of imaging techniques and applications as well as image analysis. The courses cover for example light microscopy, advanced fluorescence techniques, super-resolution imaging techniques, PET, electron microscopy and atomic force microscopy. Also an understanding of the use of multimedia in a scientific context and excellent academic writing skills are emphasized. The interdisciplinary curriculum provides students with a broad spectrum of state-of-the-art knowledge in biomedical imaging related to many different areas in cell biology and biomedicine. Programme structure Academic excellence & experience The master’s degree programme in Biomedical Imaging is built on the imaging and research strongholds of both universities in Turku: the Åbo Akademi University and the University of Turku. Both universities maintain the Turku BioImaging which is a broad-based, interdisciplinary science and infrastructure umbrella that unites bioimaging expertise in Turku, and elsewhere in Finland. Turku is especially known for its PET Centre, and the development of super-resolution STED microscopy. The winner of the 2014 Nobel Prize in Chemistry, Stefan Hell did his original discoveries on STED microscopy at the University of Turku. Turku is also a leader of the Euro-BioImaging infrastructure network which provides imaging services for European researchers. Turku has a unique, compact campus area, where the two universities and the university hospital operate to create interdisciplinary and innovative study and research environment. Research facilities include a wide array of state-of-the-art imaging technologies ranging from atomic level molecular and cellular imaging and microscopy to whole animal in vivo imaging, clinical imaging (eg. PET) and digital image analysis. Studies in bioimaging are highly research oriented and the courses are tailored to train future imaging experts in different life science areas. The Master´s Degree Programme in Biomedical Imaging is an interdisciplinary programme with a unique atmosphere where people from different countries and educational backgrounds interact and co-operate. Students are motivated to join courses, workshops and internship projects also elsewhere in Finland, in Europe and all around the world. For example, the programme has Erasmus exchange agreements with University of Pecs in Hungary and L'Institut Supérieur de BioSciences in Paris, France. Career options The interdisciplinary curriculum of the Biomedical imaging programme provides students with a broad spectrum of knowledge in biomedical imaging related to many areas in biomedicine and life sciences. The programme aims to train the future imaging and image analysis experts for the increasing demands of both imaging related basic and medical research as well as imaging core facility personnel. The programme provides excellent possibilities for career in life sciences e.g.: continue as postgraduate students to pursue career as scientist work in core facility management work in science administration nationally or internationally work in hospital research laboratory industry and industrial research work in imaging network management Admission requirements The programme is open to those who have completed a lower university degree equivalent to a Finnish B.Sc. degree (180 ECTS), in Life Sciences or in a relevant field (biomedical sciences, physics, engineering, medicine or chemistry). Applicants to the Master's degree programmes taught in English must always prove their knowledge of the English language and fulfill the general academic requirements. How to apply? For more information on the application requirements and procedures, tuition fee and scholarships, please see http://www.abo.fi/ansok/master [-]

Engineering Diploma in Biotechnology

Sup’Biotech Paris
Campus Full time September 2017 France Villejuif

Sup'Biotech’s programs are designed around the model created by the reform in European higher education (LMD). This provides a higher level of standardization and acceptance of European diplomas on the international level. [+]

Best Master Degrees in Biotechnology in Europe 2017. Sup'Biotech’s programs are designed around the model created by the reform in European higher education (LMD). This provides a higher level of standardization and acceptance of European diplomas on the international level. Undergraduate Program: Three years Graduate Program: Two years (equivalent to a five-year degree in the French system, or a two-year masters) For the first two years, classes are taught in French. Students will have the choice between French or English for the third year. A minimum score of 750 at the TOEIC or 6.5 on the IELTS is necessary to directly enter the Graduate Program.” To work in the domain of biotechnology, one needs to be open to the world: Sup’Biotech instills this value in students. Although we are based in the Paris region, we have a strong focus on instruction in English, which allows students to aim for an international career. If you are looking to study in English only, please register for the 3rd year. This requires two years of life sciences or biology related studies. First year: taught in French Life Sciences: General Biology, Cell Biology, Biochemistry, Molecular Biology, Microbiology Physics: Matter and Energy, Thermodynamics, Optics, Waves, Mechanics Chemistry: Molecular Structure, Thermochemistry, Chemical Kinetics, Organic Chemistry Mathematics: Algebra, Analysis Computer Sciences: Microsoft Office, UNIX, Algorithms Humanities Epistemology Economics English Laboratory Training: Biology, Biochemistry, Chemistry French as a Foreign Language for International Students Second year: taught in French Life Sciences: General Biology, Physiology, Developmental Biology, Biochemistry, Genetics, Biophysics Physics: Electricity, Electromagnetism, Electrokinetics Chemistry: Physicochemistry of solutions, Inorganic Chemistry, Organic Chemistry, Spectroscopy Mathematics: Algebra, Analysis Computer Sciences: Programming Humanities Epistemology Economics English Laboratory Training: Biology, Biochemistry, Chemistry French as a Foreign Language for International Students Third year: available in English or French Fall Semester : Math Physics Organic Chemistry Bioinformatics English Humanities Laboratory Training: Biology, Biochemistry, Chemistry Spring Semester : Life Sciences: Cell biology, Cell Culture, Immunology, Molecular Biology of plants, Industrial Microbiology, Bacteriology Chemistry: Polymers, Chemistry, Colloids, Organic Chemistry Physics: Thermodynamics, Electronics Mathematics: Statistics Bioinformatics: Biological Databanks, Sequences Analysis, Determination of secondary structures in proteins Economics: Biotechnologies market, Role of Corporations, Management, Economic Intelligence, Marketing English Humanities: Political Sciences, Scientific Popularization, Debates Animation Introduction to Ethics Marketing Management SBIP (Sup'Biotech Innovation Projects) Seminars Fourth year (taught in English) Fall Semester : Internship (4 months) Spring Semester : Life Sciences: Genetic Engineering, Pharmacology, Toxicology, Membrane Systems Chemistry and Physics: Organic Synthesis, Green Chemistry, Analytic Physico-chemistry Mathematics: Biostatistics Bioinformatics: Molecular Modeling, Applied Genomics Management: Project Management, Finances, Law, Patents, Economic Intelligence, Business Development, Business Strategy Communication: Professional Communication French as a Foreign Language for International Students SPIB The SBIP (Sup'Biotech Innovation Projects) program offers future biotechnology experts at Sup’Biotech a full-scale authentic experience in piloting innovative projects. The SBIP program helps students develop an entrepreneurial mindset that is compatible with the professional expectations of the biotechnology world. Fifth year (taught in English) Fall Semester : Life Sciences: Protein Engineering, Nanobiotechnologies, Advanced Immunology Chemistry : Combinative Chemistry, Green Tech Bioinformatics: Conception of Databanks, Drug Discovery Management: Human Resource Management, Technological Resource Management, Economic Intelligence French as a Foreign Language for International Students SPIB The SBIP (Sup'Biotech Innovation Projects) program offers future biotechnology experts at Sup’Biotech a full-scale authentic experience in piloting innovative projects. The SBIP program helps students develop an entrepreneurial mindset that is compatible with the professional expectations of the biotechnology world. [-]

Máster Universitario En Investigación Y Biotecnología Agrarias

Jaume I University (Universitat Jaume I)
Campus Full time October 2017 Spain Castellón

Un análisis de la situación actual pone de manifiesto que la biotecnología ofrece nuevas e interesantes oportunidades de innovación en salud humana y animal, agroalimentación y medio [+]

Un análisis de la situación actual pone de manifiesto que la biotecnología ofrece nuevas e interesantes oportunidades de innovación en salud humana y animal, agroalimentación y medio ambiente. El enorme potencial científico e industrial de la biotecnología ha sido reconocido por las administraciones públicas y el sector empresarial. En nuestro entorno, la biotecnología es una de las líneas prioritarias de investigación en los programas marcos de la Unión Europea, los programas nacionales de I+D+i, y los programas regionales. El máster en Investigación y Biotecnología Agrarias de la Universitat Jaume I surge con la intención de generar futuros empleados en dicho sector, con la cualificación y capacidades profesionales requeridas. Los sectores económicos más importantes de la provincia de Castellón son el sector industrial y el sector agrícola, este último cada vez más orientado a las investigaciones biotecnológicas, debido a la actual demanda de productos de calidad y a la creciente preocupación por el medio ambiente que está obligando, por una parte, al uso de sofisticados productos tanto biotecnológicos como fitosanitarios, y por otra parte, a la mejora genética vegetal. Tipo de enseñanza Enseñanza presencial. Duración y calendario Duración: un curso académico (octubre 2014 / septiembre 2015) Presencial (octubre 2014 / junio 2015) Créditos e importe 60 ECTS (European Credit Transfer System). (Según tasas oficiales pendientes de publicar. Precio de 2013/14: 46,20 €/crédito) Requisitos de acceso obligatorios El acceso al Máster vendrá definido por:

 
 - Grado de afinidad de la titulación previa a los estudios del Máster. - El expediente académico de los estudios que se hayan cursado con anterioridad. - La experiencia profesional e investigadora. - El conocimiento de una tercera lengua, el inglés. - La movilidad durante los estudios previos.
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Master in Industrial and Environmental Biotechnology

KTH Royal Institute of Technology
Campus Full time August 2017 Sweden Stockholm

The Master’s programme in Industrial and Environmental Biotechnology aims to provide a deep understanding of how to design and operate state-of-the-art life science based processes, with respect to product quality, finance and a sustainable [+]

Best Master Degrees in Biotechnology in Europe 2017. The Master’s programme in Industrial and Environmental Biotechnology aims to provide a deep understanding of how to design and operate state-of-the-art life science based processes, with respect to product quality, finance and a sustainable society. The goal is to use cells and enzymes to produce commodities such as fine and bulk chemicals, pharmaceuticals or their building blocks, food, paper & pulp, energy, polymeric materials and clean water. The student will be given a comprehensive education in this vital and varied field, enabling them to prepare for careers in Sweden or internationally. Programme outline The two-year programme consists of core mandatory courses in biotechnology followed by elective courses, which include chemistry, environmental analysis and other technological subjects chosen by the student. The student is therefore able to tailor their education allowing for a unique profile to each degree, for instance “Industrial-Process Design” or “Environmental-Systems Analysis.” The courses are then followed by a degree project. Skills such as problem solving and project work, as well as oral and written presentation, are emphasised in several courses. The education is also closely coupled to the research undertaken at the School of Biotechnology and to the Swedish Bio/Pharmaceutical/Chemical industry. Degree project The degree project is performed during the last semester of the programme, where the student works on a research topic related to the theoretical courses in the curriculum. The project may be carried out either in a research setting at KTH, in industry or in another university or research institute anywhere in the world. Career prospects Graduates of the programme will command the skills necessary for a professional career in the biotechnological industry, as well as for further academic studies. These areas are expanding worldwide, offering a Master’s degree holder in Industrial and Environmental Biotechnology plentiful career opportunities, including those found in patent and consultant agencies and finance. [-]