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Masters Degrees (Biotechnology With Management)

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This programme offers an expansion of our already successful MSc Biotechnology into industrial biotechnology and business management. Read more

This programme offers an expansion of our already successful MSc Biotechnology into industrial biotechnology and business management. It is jointly run with Adam Smith Business School.

Why this programme

  • Ranked world top 100 for biological sciences.
  • If you wish to improve your knowledge of modern molecular, biochemical, cell biological and genetic techniques for biotechnological applications, this programme is designed for you.
  • You will gain a sound understanding of the nature of business based on bioscience knowledge and research, opportunities for innovation and regulatory requirement constraints, intellectual property and ethical issues.
  • You will learn how to assess the current literature, be encouraged to form opinions based on scientific merit, and implement these ideas in future research planning.
  • You will be taught by experts in the field of biotechnology who run active, internationally recognised, research groups here at Glasgow.
  • The course involves extensive interaction with industry, through site visits, guest lectures and an 'Industrial Networking Symposium' where representatives from the European biotechnology and pharmaceutical industry will discuss their companies and answer your questions on working in the industrial sector.
  • This course has a strong laboratory component, with courses that run throughout the year, giving you hands on experience of diverse biotechnological research skills.
  • The flexible independent research project provides valuable training for students wishing to proceed to a PhD or into an industrial career; this may also be completed as a business based project.
  • Additional programme components include industrial networking sessions and a dedicated career workshop on progression planning.
  • This Masters in biotechnology & management provides an advanced practical knowledge of how research and industry are being applied to solve real world problems.

Programme structure

There are two semesters of taught material and a summer session working on a project or dissertation. September entry students start with management courses and January entry students with biotechnology courses.

Semester 1

You will be based in the Adam Smith Business School, developing knowledge and skills in management principles and techniques. We offer an applied approach, with an emphasis on an informed critical evaluation of information, and the subsequent application of concepts and tools to the core areas of business and management.

Core courses

  • Contemporary Issues in Human Resource Management 
  • Managing Creativity and Innovation 
  • Managing Innovative Change 
  • Marketing Management 
  • Operations Management 
  • Project Management

Semester 2

You will study biotechnology courses, which aim to enhance your understanding of using biological processes, organisms, or systems to manufacture products intended to improve the quality of human life. These courses will provide training in state-of-the-art biotechnology applications what have resulted in ground-breaking developments in the areas of medicine, pharmaceuticals, agriculture and food production, environmental clean-up and protection and industrial processes.

Core course

  • Biotechnology Applications

Optional courses

  • Omic Technologies for the Biomedical Sciences
  • Synthetic Biology: Concepts and Applications
  • Bioimaging
  • Biosensors and Diagnostics
  • Plant Genetic Engineering
  • Crop Biotechnology

Project or dissertation

If you are studying for an MSc you will undertake individual project in the summer period (May–August). This will give you an opportunity to apply and consolidate the course material and enhance your ability to do independent work, as well as present results in the most appropriate format. Project options are closely linked to staff research interests.

The aims of the courses are to

  • enable students to study state-of-the-art biotechnology topics in depth.
  • allow students to benefit from leading-edge research-led teaching.
  • provide a critical appreciation of relevant theoretical, methodological and technical literature from the central business disciplines.
  • develop students’ ability to critically appraise published research related to biotechnology.
  • cultivate analytical and interpretive abilities and enable students to integrate these with essential managerial and business skills.
  • develop students laboratory skills relevant to biotechnology.
  • enhance students’ conceptual, analytical and presentation skills and to apply them to biotechnology problems.
  • prepare students for management positions in the biotechnology industry or entry into PhD programmes.

Career prospects

This programme will prepare you for a career in the pharmaceutical or biotechnology industrial sectors or for entry into PhD programmes.



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Food and drink manufacturing is vital to the UK economy. It is the single largest manufacturing sector in the UK, employing 15% of the entire manufacturing workforce. Read more

Food and drink manufacturing is vital to the UK economy. It is the single largest manufacturing sector in the UK, employing 15% of the entire manufacturing workforce. Food producers must address environmental concerns, social responsibility and economic viability when designing sustainable food processing techniques.

Course details

This innovative and topical programme is ideal for graduates new to this dynamic and exciting sector. It’s also particularly suitable if you’re seeking career enhancement by studying food science and biotechnology at master’s level. The programme will be of particular interest to graduates with an interest in developing knowledge and skills in subjects such as food biotechnology, food safety management and analytical techniques currently used in the food industry. It is also suitable if you already work in the industry and wish to develop your skills in these areas. You can study MSc Food Science and Biotechnology either as a one-year master’s programme or as a two-year programme which includes Advanced Practice. The one-year programme is a great option for students who want to gain a traditional MSc qualification, graduate and start their career path within 12 months.

The two-year MSc Food Science and Biotechnology (with Advanced Practice) is an opportunity to enhance your qualification by spending one year completing an internship, research or study abroad experience. Although we cannot guarantee an internship, we can provide you with practical support and advice on how to find and secure your own internship position. A vocational internship is a great way to gain work experience and give your CV a competitive edge. Alternatively, a research internship, develops your research and academic skills as you work as part of a research team in an academic setting – ideal if you are interested in a career in research or academia. A third option is to study abroad in an academic exchange with one of our partner universities. This option does incur additional costs such as travel and accommodation. You must also take responsibility for ensuring you have the appropriate visa to study outside the UK, where relevant.

We are highly praised for the links we maintains with local and national industries and businesses such as Marlow Foods (Quorn), SK Chilled Foods and Sainsbury’s. Our commitment to integrate with industry in the Tees Valley and beyond is reflected in our record of producing employment-ready problem solvers and innovators. This postgraduate programme embeds key transferable skills through visits to industry and talks by industry speakers. 

What you study

For the MSc award you must successfully complete 120 credits of taught modules and a 60-credit master's research project.

You develop a comprehensive knowledge and understanding of food science and bioprocessing in the 21st century. You focus on food production and processing, biotechnology and sustainability alongside food quality and supply chain management. You also have the option to explore food product development and enterprise, food microbiology and safety, or project management in great depth, depending on your interest or desired career choice.

You are encouraged to take a voluntary placement within local industry to conduct real-world research projects. 

Course structure

Modules include

  • Food Biotechnology
  • Food Chemistry Composition and Analysis
  • Food Product Design and Manufacturing Process Development
  • Food Safety Engineering and Management
  • Research Project

Advanced Practice modules

  • Research Internship
  • Study Abroad
  • Vocational Internship

Modules offered may vary.

Teaching

How you learn

Making the transition to postgraduate-level study can be challenging. Support with making this transition is seen as an important element of this programme. 

Support is provided during the programme induction and within the module, Food Product Design and Manufacturing Processes. This support is designed to help you understand the requirements of academic study at postgraduate level, to enhance your skills in academic writing and referencing, and to help you develop the skills necessary to operate professionally, safely and ethically in planning and implementing a master’s-level research project.

By including work-based problem-solving projects and case study exercises this programme emphasises real-world working. This helps to blend theory and knowledge in the context of business, allowing you to develop the skills employers are seeking to set you on a successful career path. 

A significant feature of the programme is the inclusion of blended learning to provide a rich and varied learning experience. This also provides additional flexibility if you are in employment.

On campus you have access to a dedicated food product development laboratory and a pilot-scale processing equipment facility, allowing you to gain valuable hands-on experience of food processing and product development. Fully equipped microbiological and chemical analysis laboratories enable you to undertake a series of relevant practical investigative projects, through which you explore a range of ingredients and food products.

How you are assessed

You are assessed on subject knowledge, independent thought and skills acquisition through formative and summative assessment. 

Assessment may include:

• examinations

• oral presentations

• technical interviews

• technical reports

• laboratory reports 

• literature surveys, evaluations and summaries

• dissertation or thesis (MSc only).

You are presented with an assessment schedule providing details of the submission deadlines for summative assessments.

Employability

Career opportunities

Food and drink manufacturing is vital to the UK economy. It is the single largest manufacturing sector in the UK, employing 15% of the entire manufacturing workforce. Food and drink manufacturing companies make up 7% of all manufacturing businesses, and they buy two thirds of all the UK’s agricultural produce. The industry generates 18% of total manufacturing turnover. 

To meet the demands of this dynamic sector, the food industry needs to recruit more than 49,000 new skilled professionals and managers by 2022 which is great news for the next generation of talent wanting to study toward a rewarding career in a dynamic and highly innovative sector (The National Skills Academy for Food & Drink). 

Graduates can seek jobs in many areas in the food sector including:

• food analysis 

• new product development 

• quality management and food safety management

• food production management 

• technical management.

Work placement

There may be short-term placement opportunities for some students, particularly during the project phase of the course.



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ALL COURSES ARE TAUGHT IN ENGLISH. Graduates with degrees in pharmacology and the life sciences are finding a challenging and changing landscape when it comes to their careers. Read more

Objectives

ALL COURSES ARE TAUGHT IN ENGLISH

Graduates with degrees in pharmacology and the life sciences are finding a challenging and changing landscape when it comes to their careers. Companies are increasingly searching for people who are not only strong technically, but can also understand, lead, and manage, different business functions. This requires a broad skillset and a practical mentality, which is becoming harder and harder to find.

The people who enter this program come with a scientific background and already have completed advanced degrees (PhD, PharmD and MSc in biological and chemical sciences). This program allows the participants to develop real-world business skills, develop professional networks, and exchange with senior business professionals who have deep industry experience.

PROGRAM OBJECTIVES

- To master and understand how the forces driving science, technology, and business interact in the real world to influence decisions.
- To enable graduates to gain practical knowledge and skills in biotechnology management to become more valuable to employers, enhance their career prospects, and develop their core competencies.
- To train a highly qualified managerial staff capable of analyzing and appreciating the relationships between technology and productivity along the value chain of the organization.
- To develop key analytical thought processes to not just understand the complexities of current situations and challenges, but also how to apply those results in unfamiliar and new circumstances, regardless of what the future may bring.
- As participants in the program come from around the globe, it is essential to learn how to work in a multi-ethnic, multi-cultural setting where English is the primary language.

Located in the heart of the French Silicon Valley, Grenoble Ecole de Management has built its reputation through the education of the world’s most creative, talented and ambitious individuals for the nano / biotechnology and high technology industries.

Program

Grenoble Ecole de Management has been offering the Advanced Master in Biotechnology Management since 2002. Since its inception, the school has offered an industry-focused program that truly is interdisciplinary in nature.

The program was designed to respond to the growing need in the biotechnology industry for professionals who are trained in management and decision making.

The curriculum includes essential skills for the successful manager and focuses on the body of knowledge that is unique to the business decisions that exist in the life-science industry.

Students will develop not only the skills they need to effectively manage in technologically complex workplaces, but also the vision to becoming leaders in their fields.

REAL CASE INNOVATIVE PROJECT

In teams, the program participants work on a real-world innovative project designed to highlight the current challenges and decisions facing managers and business leaders.

They undertake a feasibility study and market analysis of a subject matter for a period of 6 months. They develop industry contacts and make full use of professional networking opportunities to learn more about their chosen projects. The objective of the simulation is to underscore the relationships among the business functions as well as develop an appreciation of the complexities and challenges of strategic management.

Graduates will be able to analyze and appreciate the relationships between technology and productivity as well as business opportunities along the value chain of the organization within a context of dynamic and uncertain environment.

They should be prepared to challenge the conventional assumptions and paradigms while actively seeking new technologies and strategies to strengthen the value creating and competitive processes within their organizations.

Companies

Graduates of this program are qualified for a wide range of positions with scientific research firms and pharmaceutical companies.

They can advance an existing career or transition to new opportunities in the life science industry (http://study.com/articles/Life_Science_Degree_and_Certificate_Program_Summaries.html). Entrepreneurial and management-level positions are available to Advanced Master’s degree holders in the following:

- Business development
- Product development
- Project management
- Venture capital
- Consulting
- Marketing
- Investment banking

Admission

This program accommodates individuals with both technical (MSc, PharmD, PhD) and non technical Bachelor’s degrees (with a minimum of 3 years of professional experience) who are seeking graduate education to advance into managerial and leadership roles in the life science-based economy. It is also designed for or entrepreneurs willing to develop and manage technological and business opportunities.

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This course will enhance your understanding of key concepts in biotechnology and environmental sustainability and their practical application from innovation to commercialisation. Read more
This course will enhance your understanding of key concepts in biotechnology and environmental sustainability and their practical application from innovation to commercialisation.

This course is designed to enhance your career in a wide range of sectors, such as biorenewables, bioremediation and bioprocessing in which environmental sustainability is a key consideration. It will enable you to undertake a variety of fulfilling roles from research, and product and technology development to environmental protection and other leadership positions.

Biotechnology for Environmental Sustainability will equip you with broad theoretical knowledge and critical understanding of advanced principles in biotechnology. You’ll also gain the practical skills required to underpin a career within an industrial or research setting.

You’ll be supported by an active research group with varied interests and links with relevant industries, research institutes and other organisations.

See the website http://www.napier.ac.uk/en/Courses/MSc-Biotechnology-for-Environmental-Sustainability-Postgraduate-FullTime

What you'll learn

This course provides you with in-depth knowledge and critical understanding of key concepts in fermentation and bioprocessing, environmental microbiology, business planning and environmental policy which are relevant to the application of commercial-scale biotechnologies in an environmentally sustainable manner.

You’ll study the scientific concepts that underpin modern biotechnologies and how innovations can be exploited for the development of products and processes such as biofuels, novel bioactive compounds and waste conversion technologies. You’ll also explore the bioethical, socio-economic and regulatory aspects of environmental sustainability and the role of biotechnologies in environmental protection.

There is an emphasis on developing your practical laboratory skills with various opportunities for hands-on experience in a range of current techniques and practices such as fermentation and environmental monitoring. In your final trimester you’ll undertake an independent project within a vibrant research team, allowing you to apply and further develop your technical, research and professional skills. There may be the opportunity to conduct your research project with one of our Edinburgh Napier start-up companies or externally in a relevant organisation or industry.

You’ll also develop key skills including communication, problem solving, team work, project management, and leadership. You’ll learn through interactive lectures, workshops, tutorials, site visits, field trips and laboratory sessions, and by engaging with guided independent study. A variety of assessment tools are used to enhance and evaluate your learning.

This is a full-time programme over one year and is split up into three trimesters. You can choose to start in either January or September. There may also be some opportunities to study abroad.

Modules

• Cell technology
• Business and bioethics
• Biotechnology for sustainable renewables
• Research skills
• Biotechnology for sustainable remediation
• Environmental sustainability management
• Independent research project

Study modules mentioned above are indicative only. Some changes may occur between now and the time that you study.

Careers

Environmental sustainability is an increasingly important consideration in many aspects of our lives. Biotechnology underpins many of the solutions to existing unsustainable practices and offers the possibility of new products and as such is predicted to be a key driver in the future global economy.

This course provides a wide range of career opportunities in areas such as sustainable waste management, bioremediation, environmental protection and monitoring, biorenewables, and bioprocessing, as well as product/technology development. You'll be prepared for a variety of roles including those with a research focus and those with an emphasis on leadership in both multinational companies and smaller biotechnology enterprises.

Opportunities may also exist in contract research companies and service providers to the environmental and industrial biotechnology sectors, in addition to government and environment protection agencies.

Successful completion of the MSc programme also provides a sound platform for further study in a research setting; graduates will be qualified to continue to PhD studies in the biosciences.

How to apply

http://www.napier.ac.uk/study-with-us/postgraduate/how-to-apply

SAAS Funding

Nothing should get in the way of furthering your education. Student Awards Agency Scotland (SAAS) awards funding for postgraduate courses, and could provide the help you need to continue your studies. Find out more: http://www.napier.ac.uk/study-with-us/postgraduate/fees-and-funding/saas-funded-courses

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Are you a recent graduate, scientist, engineer or manager looking to develop your professional skills in multidisciplinary biotechnology and eager for a future in related sectors? The MSc in Biotechnology,. Read more
Are you a recent graduate, scientist, engineer or manager looking to develop your professional skills in multidisciplinary biotechnology and eager for a future in related sectors? The MSc in Biotechnology,
Bioprocessing and Business Management opens the door to these opportunities.

The course is delivered in partnership with our industry partners and Warwick Business School. During your studies you’ll develop a new sense of business acumen and gain in-depth knowledge of the underlying science and processing technologies. You’ll have access to specialised language classes, as well as a personal mentor who will help to improve your academic writing.

When you graduate, you’ll be ready to enter managerial and academic roles in several sectors, including the pharmaceutical industry, whether in large multinational companies or small to medium-sized enterprises.

Course structure

The course is a full time, twelve month taught programme with modular content, based around three strands:-
-Business Management
-Biotechnology & Molecular Biology
-Bioprocessing

The course programme focuses on:
-Manufacture of biochemicals, pharmaceuticals, devices and materials
-Genetic engineering and the fundamentals of biotechnology
-Business management, economics and finance
-Marketing management
-Commercialisation of products, IP
-Food, biotechnology and microbiological processing
-Fuels and energy
-Industries based on renewable and sustainable resources
-Production technologies
-Plant design and economic analysis

Students will be required to complete nine core modules. They must also select a further three elective modules. Teaching will be by interactive lectures, short question & answer sessions and small group interactive workshops/tutorials. Individual and team learning will be used for case study analysis.

All students will be required to undertake a project dissertation. Students will be encouraged to propose their own project title (selection subject to availability of an appropriate supervisor) although a range of potential titles will be offered. Projects will be non-laboratory based and generally undertaken at the University of Warwick under the supervision of an approved tutor.

Core Modules

-The fundamentals of biotechnology
-Molecular biology and genetic engineering
-Biochemical engineering
-Bioproduct plant design and economic analysis
-Business strategy
-Accounting and financial management
-Marketing management
-Entrepreneurship & commercialisation
-Biopharmaceutical product & clinical development
-Project

Elective Modules

(Availability dependent on demand)
-Microbiomics & metagenomics
-Environmental protection, risk assessment and safety
-Impact of biotechnology on the use of natural resources
-Fundamental principles of drug discovery
-E-business: Technology and management
-Chemotherapy of infectious disease
-Vaccines and gene therapy
-Laboratory Skills

Assessment

One third of the final mark will be derived from the project dissertation.

Two thirds of the final mark will be derived from assessments of the 9 core and 3 elective modules. Modules will be assessed by means of a combination of written course work, individual/group seminar presentations and a multi-choice or short answer examination. These assessments will take place during or shortly after completion of each module.

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Pharmaceutical Biotechnology is the science that covers all technologies required for the production, manufacturing and registration of biological drugs. Read more
Pharmaceutical Biotechnology is the science that covers all technologies required for the production, manufacturing and registration of biological drugs. Advances in recombinant genetics facilitate the routine cloning of genes and the creation of genetically modified organisms that can be used in industrial production. Pharmaceutical Biotechnology is a rapidly evolving and multidisciplinary field and our MSc Pharmaceutical Biotechnology programme will focus on the new developments in the production of proteins, organisms, DNA-based vaccines, therapeutic proteins, downstream processing and characterisation, bioinformatics, advanced molecular principles, and research methods.

Our MSc Pharmaceutical Biotechnology programme produces graduates with a critical and analytical capability and a flexible approach to problem solving. These skills will enhance your laboratory and professional competence at a supervisory level and you will be able to work independently and use your initiative to solve the diverse problems you may encounter. You will also be able to bring a creative approach to the development and promotion of new biotechnology products. Biotechnology is developing rapidly; there is a major emphasis on product- and process-oriented biotechnological research and development for applications in agriculture, industry and the health sector. These applications will bring benefits for society and are increasingly recognised by governments, industry and financial institutions. Our programme helps to address the expanding demand from international markets for graduates with an excellent knowledge of biotechnology.

The aims of the programme are:

- To provide students with an understanding of the subject specific knowledge, as well as a critical, analytical and flexible approach to problem-solving in the field of pharmaceutical biotechnology

- To provide students with enhanced practical and professional skills and thus prepare students effectively for professional employment or doctoral studies in the field of biotechnology

- To enable students to work independently and use initiative in solving the diverse problems that may be encountered

- To instill a critical awareness of advances at the forefront of biotechnology.

Visit the website http://www2.gre.ac.uk/study/courses/pg/sci/pb

Science - General

We offer a range of sciences programmes from biotechnology to formulation science. Whatever you choose to study you will be taught by experienced staff in state-of-the-art laboratories and gain the skills you need to succeed in your chosen field. Employability is central to all our programmes and you will benefit from our strong links with employers, industry work placements and professional accreditations.

What you'll study

Full time
- Year 1:
Students are required to study the following compulsory courses.

Pharmaceutical Biotechnology (30 credits)
Biotechnology Research Projects (60 credits)
Bioinformatics (30 credits)
Research Methods and Data management (30 credits)
English Language Support (for Postgraduate students in the School of Science)
Applied Molecular Biology (30 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Find out more about our fees and the support available to you at our:
- Postgraduate finance pages (http://www.gre.ac.uk/finance/pg)
- International students' finance pages (http://www.gre.ac.uk/finance/international)

Assessment

Coursework, examinations, presentations, thesis, on-line assessment. This programme involves a series of lectures, seminars and workshops.Case studies will provide you with exposure to up-to-date problems and enhance your problem solving and team-work in a way that simulates an industrial setting. A research project in a well equipped department led by staff with a diversity of research experience will give you the opportunity to carry out novel research and enhance your practical skills, analytical thinking and independence.

Career options

Biotechnology and pharmaceutical industries, intellectual property industry (IP), academics, bio-informatics/IT, health services, research and higher degrees (PhD).

Find out about the teaching and learning outcomes here - http://www2.gre.ac.uk/?a=643706

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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Biotechnology constitutes one of the key disciplines of the 21st century, with enormous potential for growth and professional development. Read more

State of The Art

Biotechnology constitutes one of the key disciplines of the 21st century, with enormous potential for growth and professional development. On the one hand that is due to progress made in biomedical research, leading to the development of new diagnostic and therapeutic procedures. At the same time the chemical industry is showing a growing interest in biotechnological processes to reduce its environmental footprint and increase the efficiency of the methods employed. In addition to the pharmaceutical, chemical and food industries, which make use of biotechnological processes in varying degrees, there is now a biotechnology-based industry in its own right, in which added value is generated primarily with the help of biotechnological principles.

Curriculum

The Master’s program in Biotechnology is designed to communicate the knowledge, methodological skills and problem-solving competence needed to tackle a very wide range of scientific and engineering problems.

Excellent Education Guarantee

First-class faculty from the worlds of science, engineering and business, a strong industry orientation and the limited number of places guarantee excellent conditions for study and student support in keeping with the MCI’s motto “Mentoring the Motivated” plus attractive prospects for the future. As a technical university program positioned at the interface with business and management, the Master’s program satisfies the highest international standards.

Contents

With its focus on industrial and pharmaceutical biotechnology, the study program is designed to enable graduates to convert laboratory
results in the field of bioscience into full-scale industrial processes.

The Master’s program combines various methodological modules – such as molecular biotechnology, bioprocess engineering, biotechnological separation processes, bioanalytics and bioinformatics – with applications-oriented modules covering the whole field of biotechnology, including pharmaceutical biotechnology, food biotechnology and industrial biotechnology.

The program is also designed to take account of the growing interest shown in trade and industry in graduates with the ability to fulfill overarching functions like quality, project and process management, including the relevant key competences (working methods, social competence, team working skills, etc). In addition to solving technical problems, graduates are also in a position to evaluate the economic impacts of the decisions taken. Thanks to project-based learning, industry visits, practicals and laboratory work, the study program also has a strong focus on practical relevance.

Find out more about this course of study:

https://www.mci.edu/en/study-program/master/biotechnology

Admission

Applications for this study program can be submitted at any time. Applications for admission to the Master of Engineering, Environmental & Biotechnology program must be submitted online using the standardized application form accompanied by the required documents within the period stipulated. You can sign up for the upcoming semester here:

https://tasks.mci.edu/index.php?option=com_onlinebewerbung&view=register&lang=en&fromstg=Master-MAUVBT

Download the latest brochure here:

https://www.mci.edu/index.php?option=com_phocadownload&view=category&download=224&Itemid=1115

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Deepen your knowledge of the scientific language, policies, and industry complexities of the life sciences field—while also enhancing your business skills in areas including leadership, project management, organizational behavior, and strategy. Read more
Deepen your knowledge of the scientific language, policies, and industry complexities of the life sciences field—while also enhancing your business skills in areas including leadership, project management, organizational behavior, and strategy.

KEY LEARNING OUTCOMES

Through the master's degree in the field of biotechnology management you:
-Develop an understanding of foundational business topics, including leadership, project management, strategy, risk, entrepreneurship, marketing, and finance.
-Gain insight into scientific practice, including experimental or case study design, scientific data analysis, writing and communication, ethical practices, and effective collaboration.
-Build knowledge of life science theory as it relates to biotechnology.

PROGRAM OVERVIEW

The degree program consists of nine courses—at least four taken on campus—and a thesis or internship.

-Get started. You begin with three admission courses from the program curriculum. This is your opportunity to demonstrate your commitment and ability to perform well as a Harvard student
-Apply to the program. While you are completing your third admission course, you submit your application. We have application periods in the fall, spring, and summer.
-Continue your studies, online and on campus. As you progress through the program, you choose from courses offered on campus or online, in the fall, spring, or summer. To fully experience Harvard, you are required to take at least four courses on campus as part of your degree. Short, intensive on-campus options are available.
-Complete your thesis or internship. For the thesis option, you work with a thesis director to conduct in-depth research on a topic relevant to your professional goals, ordinarily using the case method format. For the internship, you apply your knowledge of organizational behavior, strategy, and project management to solve a pressing business need, either with your current or potential employer. Many students apply their skills in clinical research, regulatory affairs, or other aspects of the business side of biotechnology.
-Graduate with your Harvard degree. You participate in the annual Harvard Commencement, receiving your Harvard University degree: Master of Liberal Arts (ALM) in extension studies, field: Biotechnology Management.

COST

Affordability is core to our mission. Our 2016–17 graduate tuition is $2,550 per course; the total tuition cost of earning the graduate degree is approximately $25,500.

FINANCIAL SERVICES

The Student Financial Services staff can assist you in identifying funds that will help you meet the costs of your education. You can find more information here: http://www.extension.harvard.edu/tuition-enrollment/financial-aid

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This programme will give you hands-on practical experience of both laboratory and bioinformatics techniques. You will also be trained in biotechnology research strategies. Read more
This programme will give you hands-on practical experience of both laboratory and bioinformatics techniques. You will also be trained in biotechnology research strategies. A strong practical foundation is provided in the first semester (Semester A) when you study two modules: 'Cellular Molecular Biology' and 'Core Genetics and Protein Biology'. These modules concentrate on the basic principles and the techniques used in modern molecular biology investigations, and on aspects of cellular molecular biology and development.

The second semester (Semester B) has a problem-based learning approach to the application of the knowledge you gained in Semester A. You will study two modules: 'Industrial Biotechnology' and 'Molecular Biotechnology'. These modules will give you an in depth understanding of the application of molecular biological approaches to the production of industrial and medicinal proteins. You will also learn how to apply and design industrial and environmental biotechnology processes, such as process kinetics and design, reactor design and oxygen transfer, sterilization kinetics and the application of biotechnology processes for the bioremediation of contaminated sites.

In the third semester (Semester C) you undertake a research project to develop your expertise further. The research project falls into different areas and may include aspects of fermentation biotechnology, genetic manipulation and protein engineering, bioinformatics, microbial physiology and environmental biotechnology.

Why choose this course?

-This course gives in-depth knowledge of biotechnology and molecular biology for biosciences or biological chemistry graduates
-It has a strong practical basis giving you training in biotechnology research strategies and hand-on experience of laboratory and bioinformatics techniques
-It equips you for research and development positions in the biotechnology and pharmaceutical industries, as well as a wide range of non-research roles in industry
-Biosciences research facilities cover fermentation biotechnology, high performance liquid chromatography, (HPLC), cell culture, molecular biology and pharmacology
-There are excellent facilities for chemical and biomedical analysis, genetics and cell biology studies and students have access to the latest equipment for chemical synthesis and purification, PCR, qPCR and 2D protein gel analysis systems for use during their final year projects
-The School of Life and Medical Science will move into a brand new science building opening in September 2015 providing us with world class laboratories for our teaching and research. At a cost of £50M the new building provides spacious naturally lit laboratories and social spaces creating an environment that fosters multi-disciplinary learning and research

Careers

On successful completion of the programme you will be well qualified for research and development positions in the biotechnology and pharmaceutical industries, to progress to a research degree or to consider non-research roles in industry such as management, manufacturing and marketing.

Teaching methods

The course consists of five modules including a research project:
-Cellular Molecular Biology
-Core Genetics and Protein Biology
-Industrial Biotechnology
-Molecular Biotechnology
-Biosciences Research Methods for Masters
-Research project

All modules are 100% assessed by coursework which includes in-course tests.

Structure

Core Modules
-Biosciences Research Methods for Masters
-Cellular Molecular Biology
-Core Genetics and Protein Biology
-Industrial Biotechnology
-Molecular Biotechnology
-Project-Mol Biology, Biotechnology, Pharmacology

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Environmental change affects everyone on the planet and sustainably managing a changing natural environment is one of the 21st century’s most pressing challenges. Read more
Environmental change affects everyone on the planet and sustainably managing a changing natural environment is one of the 21st century’s most pressing challenges. This course will develop your theoretical knowledge and practical skills, enabling you to begin to meet these challenges in your chosen career.

You will learn about the changes happening to the environment at different spatial scales and will develop your understanding of the concepts used to manage environmental change, from site-based project management to sustainable development.

You will also learn about the legal and economic context of the environment, exploring how the environment can be integrated into a range of policy sectors.

Each of the topics you cover will draw upon the latest scientific literature and teaching from leading academic researchers.

Why choose this course?

• Study how the integration of environmental science, biotechnological methods and project management can help with the sustainable management of environmental, biodiversity and ecosystem services
• Explore the principles and methodologies of environmental biotechnology, and gain the ability to critically evaluate and identify technologies applicable for the sustainable management of global environmental change
• Develop a systematic understanding and critical awareness of the biological, ecological and socio-economic drivers of global environmental change, and how these are inter-related
• Gain the ability to evaluate methods of managing environmental change at local and global levels, including legislative, voluntary and economic management
• Benefit from the opportunity to choose a career with environmental consultancies, biotechnological research organisations, and national and international government agencies and non-governmental bodies.

Visit the website: https://www.beds.ac.uk/howtoapply/courses/postgraduate/next-year/environmental-management

Course detail

In a rapidly changing world, there has never been a greater need for people to sustainably manage the environment. Whether you are a recent graduate seeking career opportunities in the environmental sector, or a more experienced professional looking to develop your range of competencies, MSc Environmental Management provides you with the knowledge and skills necessary for success.

Developing and demonstrating a wide range of abilities in both taught and project work, our graduates go on to a diverse range of careers in government, NGOs, business and industry, as well as further study leading to PhD. At the University of Bedfordshire, you will develop practical skills in our well-equipped new laboratories and be taught by staff with expertise in ecology, biotechnology, management and environmental microbiology, enabling specialist tuition and supervision of your practical work.

Modules

• Environmental Project Management
• Environmental Management and Sustainability
• Global Environmental Change
• Environmental Biotechnology
• Environmental Research Project

Assessment

Practical reports are a key assessment type used throughout the course as they reinforce professional standards of presenting scientific reports, practice your ability to interpret data and to place experimental results within a broader scientific context, develop your ability to relate experimental results to theory, and teach you to apply the scientific method.

Consultancy-style reports develop your writing for non-academic professional audiences.

End of year exams are included in all units (except the project) with essay-style questions focused on integration and evaluation of understanding.

Oral presentations to small groups or to examiners in a viva voce setting and academic poster presentations (a standard style of scientific conference presentation) will develop your portfolio of communication skills.

Case studies are used within assessments where appropriate to provide real-world and employment-centred context to the assignments.

Careers

Lecturing staff are actively engaged in scientific research, so our teaching and the course are directly informed by our research knowledge and activities.

Many of the skills you will develop are applicable to professions away from the subject itself. The ability to research complex information, analyse data and write professional reports are highly valued and our students are encouraged to think about potential careers in a wide variety of sectors.

Key aspects of the course that emphasise employability of our graduates include:
• Training in key techniques relevant to employment within the environmental sector, including awareness of relevant health and safety, legal and ethical considerations. Training and practice in the scientific method that underpins all scientific research (developing novel hypotheses, testing these by experiment, accurately interpreting data and understanding error, and drawing valid conclusions).
• Practice in professional standards of reporting, including laboratory reports using the standards of professional research publications, preparation of scientific conference posters, and written and oral presentations. You will also develop your writing in a professional consultancy style, providing you with the opportunity to learn the subtle differences required when writing for different professional audiences.
• Maintenance of laboratory or field diaries and research diaries following standard practice within the sector.
• Guest lectures from external speakers from academic and industry.

Funding

For information on available funding, please follow the link: https://www.beds.ac.uk/howtoapply/money/scholarships/pg

How to apply

For information on how to apply, please follow the link: https://www.beds.ac.uk/howtoapply/course/applicationform

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The MSc Biotechnology programme aims to provide participants with the skills, knowledge and experience that are needed to pursue a successful career in biotechnology. Read more
The MSc Biotechnology programme aims to provide participants with the skills, knowledge and experience that are needed to pursue a successful career in biotechnology. Through tutorials, lectures, assignments and a four-month research project, the programme focuses on the adaptation and application of biological processes for commercial and industrial use. This course would be suitable for graduates with a primary degree in the Biological Sciences who wish to extend their knowledge and skills for a career in the biotechnology sector.

Graduates have found employment in the pharmaceutical and food industries, and in diagnostic and research services, with companies such as Abbott, Allergan, ICON Clinical Research, Norbrook Laboratories and Pfizer. They are pursuing careers in manufacturing, quality assurance, product development and research, as well as the broader sectors of sales, marketing, and regulatory affairs.

Programme Content:

Core Modules

Research Project:

Five-month laboratory project with an academic research team on a biotechnology topic.

Frontiers in Biotechnology:

An interactive tutorial-based module that will develop students' transferable skill and knowledge of recent advances in biotechnology.

Current Methodologies in Biotechnology:

Experts will teach methodologies fundamental to biotechnological research and application.

Diagnostic Biotechnology:

A comprehensive overview of immunological and molecular diagnostics applied in current biotechnological applications.

Fundamental Concepts in Pharmacology:

Fundamental understanding of how drugs work and how they are discovered and developed.

Protein Technology:

Enhancing protein production and function of biopharmaceutical and industrial proteins on a commercial scale.

Introduction to Business:

Concepts of marketing, management and accountancy and their application in biotechnology businesses.

Optional Modules (Choose 2)

Advanced Industrial Process:

This module is designed to develop an awareness of microbial technologies and their applications to biotechnology.

Applied Concepts of Pharmacology:

This module introduces students to autonomic pharmacology and drug discovery and development.

Scientific Writing:

This module aims to provide students with an in-dept understanding of the process of scientific publications.

Immunology:

Emphasis on the clinical value of manipulation of the immune system.

Quality Management Systems:

QMS for the efficient and safe running of commercial and industrial biotechnology enterprises.

Cell & Molecular Biology: Advanced Technologies

This module outlines the fundamentals of cell and molecular biology.

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Food and drink manufacturing is vital to the UK economy. It is the single largest manufacturing sector in the UK, employing 15% of the entire manufacturing workforce. Read more

Food and drink manufacturing is vital to the UK economy. It is the single largest manufacturing sector in the UK, employing 15% of the entire manufacturing workforce.

Course details

Food and drink manufacturing companies make up 7% of all manufacturing businesses, and they buy two thirds of all the UK's agricultural produce. Food producers must address environmental concerns, social responsibility and economic viability when designing sustainable food processing techniques. Sustainable food processing is all about finding new ways of meeting present needs without compromising future viability in constantly changing economic and environmental conditions. 

This is not just a corporate social responsibility issue but directly relates to efficiency, cost-saving and profitability and so the food industry must increasingly embrace sustainable food processing to succeed. The global food and agricultural biotechnology research base and product development pipeline, including genetically modified seeds, is expanding at a rapid rate as a direct response to the global food security challenge. 

This innovative and topical programme is ideal for graduates new to this dynamic and exciting sector. It's also particularly suitable if you're seeking career enhancement by studying food science and biotechnology at master’s level. The programme will be of particular interest to graduates with an interest in developing knowledge and skills in subjects such as food biotechnology, food safety management and analytical techniques currently used in the food industry. It is also suitable if you already work in the industry and wish to develop your skills in these areas.

Teesside University’s School of Science & Engineering is highly praised for the links it maintains with local and national industries and businesses such as Marlow Foods (Quorn), SK Chilled Foods and Sainsbury’s. The commitment of the School to integrate with industry in the Tees Valley and beyond is reflected in the School’s record of producing employment-ready problem solvers and innovators. This postgraduate programme embeds key transferable skills through visits to industry and talks by industry speakers. 

You may also be interested in our MSc Food Processing Engineering.

What you study

For the postgraduate diploma (PgDip) award you must successfully complete 120 credits of taught modules. For an MSc award you must successfully complete 120 credits of taught modules and a 60-credit master's research project.

This programme develops comprehensive knowledge and understanding of food science and bioprocessing in the 21st century. As such it focuses on food production and processing, biotechnology and sustainability alongside food quality and supply chain management. You also have the option to explore food product development and enterprise, food microbiology and safety, or project management in great depth depending on your interest or desired career choice.

You are encouraged to take a voluntary placement within local industry to conduct real-world research projects. 

Course structure

Core modules

  • Food Biotechnology
  • Food Chemistry Composition and Analysis
  • Food Product Design and Manufacturing Process Development
  • Food Safety Engineering and Management

MSc only

  • Project

Modules offered may vary.

Teaching

How you learn

Making the transition to postgraduate-level study can be challenging. Support with making this transition is seen as an important element of this programme. 

Support is provided during the programme induction and within the module, Food Product Design and Manufacturing Processes. This support is designed to help you understand the requirements of academic study at postgraduate level, to enhance your skills in academic writing and referencing, and to help you develop the skills necessary to operate professionally, safely and ethically in planning and implementing a master’s-level research project.

By including work-based problem-solving projects and case study exercises this programme emphasises real-world working. This helps to blend theory and knowledge in the context of business, allowing you to develop the skills employers are seeking to set you on a successful career path. 

A significant feature of the programme is the inclusion of blended learning to provide a rich and varied learning experience. This also provides additional flexibility if you are in employment.

On campus you have access to a dedicated food product development laboratory and a pilot-scale processing equipment facility, allowing you to gain valuable hands-on experience of food processing and product development. Fully equipped microbiological and chemical analysis laboratories enable you to undertake a series of relevant practical investigative projects, through which you explore a range of ingredients and food products.

How you are assessed

You are assessed on subject knowledge, independent thought and skills acquisition through formative and summative assessment. 

Assessment may include:

• examinations

• oral presentations

• technical interviews

• technical reports

• laboratory reports 

• literature surveys, evaluations and summaries

• dissertation or thesis (MSc only).

You are presented with an assessment schedule providing details of the submission deadlines for summative assessments.

Employability

Career opportunities

Food and drink manufacturing is vital to the UK economy. It is the single largest manufacturing sector in the UK, employing 15% of the entire manufacturing workforce. Food and drink manufacturing companies make up 7% of all manufacturing businesses, and they buy two thirds of all the UK’s agricultural produce. The industry generates 18% of total manufacturing turnover. 

To meet the demands of this dynamic sector, the food industry needs to recruit more than 49,000 new skilled professionals and managers by 2022 which is great news for the next generation of talent wanting to study toward a rewarding career in a dynamic and highly innovative sector (The National Skills Academy for Food & Drink). 

Graduates can seek jobs in many areas in the food sector including:

• food analysis 

• new product development 

• quality management and food safety management

• food production management 

• technical management.

Work placement

There may be short-term placement opportunities for some students, particularly during the project phase of the course.



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Biomedical Engineering has enormous potential to make a positive impact on human health. Biomedical engineers address healthcare problems from a unique perspective, blending an understanding of biomedical science with specialist knowledge of engineering techniques and problem-solving skills. Read more

Biomedical Engineering has enormous potential to make a positive impact on human health.

Biomedical engineers address healthcare problems from a unique perspective, blending an understanding of biomedical science with specialist knowledge of engineering techniques and problem-solving skills.

You will focus on human systems, the design and operation of devices and processes, and the application of engineering skills to new medical treatments, instruments and machines.

Our reputation for biomedical innovation in areas such as medical bionics, prostheses and tissue engineering, ensures you are learning from leaders in the field, who are working on exciting projects aimed at solving major health dilemmas.

The Master of Engineering (Biomedical with Business) will lead to a formal qualification in biomedical engineering at the Masters level.

Step into the world of medical device development through BioDesign Innovation, an interdisciplinary biomedical engineering subject, where you work in a team with MBA students to create a prototype and develop a supporting business plan.

MASTER OF ENGINEERING (WITH BUSINESS)

The Master of Engineering (with Business) is designed to provide students with a formal qualification in engineering at the masters level, with a business specialisation that recognises the need for engineers to understand the management and workings of modern professional organisations.

Students who undertake the Master of Engineering (with Business) replace five advanced technical electives with five business subjects that have been tailored specifically for engineering students and co-developed with Melbourne Business School.

Graduates will have a grounding in financial, marketing and economic principles enabling them to work efficiently in any organisation, as well as the ability to apply the technical knowledge, creativity and team work skills learnt in their engineering training. This combination of knowledge and skills will be a powerful asset in the workplace.

Key features

  • Combine a technical specialisation with exposure to the business and management skills that can help fast-track your career.
  • Benefit from subjects co-developed by Melbourne Business School and tailored specifically for engineering students.
  • Tight integration of subjects ensures that you understand the business side of engineering applications.
  • Be empowered with strong technical skills, as well as the business skills to understand how organisations work.

Biomedical Engineering Career Pathways [PDF]

CAREER OUTCOMES

Biomedical engineers: develop new drug therapies; study the electrical and/or mechanical activity of organs such as the brain, heart, muscle and bone; build artificial organs, limbs, heart valves and bionic implants to replace lost function; develop orthopaedic devices to treat bone and joint conditions; and grow living tissues to replace failing organs.

Employment opportunities exist in the biotechnology, biomedical, pharmaceutical, medical device and equipment industries, in research and innovation, in the health services and hospitals, in government and consulting, and for companies such as Cochlear, Sanofi, Cell Therapies, Compumedics, GlaxoSmithKline and Zimmer Biomet.

PROFESSIONAL ACCREDITATION

This Master of Engineering (with Business) degree is professionally recognised under EUR-ACE®. Graduates can work as chartered professional engineers throughout Europe.

This Master of Engineering (with Business) degree is provisionally accredited by Engineers Australia. In line with Engineers Australia policy on granting accreditation to new courses, full accreditation cannot be granted until sufficient students have graduated from the program. Once full accreditation has been granted, it will be back-dated to include all graduates from the start of the program.



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Electrical and electronic engineers play a key role in the design, implementation and management of electrical systems to solve practical problems, such as systems for automation, surveillance, energy conversion, power distribution, telecommunications and information processing. Read more

Electrical and electronic engineers play a key role in the design, implementation and management of electrical systems to solve practical problems, such as systems for automation, surveillance, energy conversion, power distribution, telecommunications and information processing.

You will develop technical skills through fundamental theory and practical laboratory work, learning from leading experts, who are working on a range of ground breaking projects from developing bionic implants and creating models and devices to better understand and treat diseases, such as autism and epilepsy, to creating energy efficient telecommunication systems and deploying sensor networks to monitor and manage the environment. You will have the opportunity to take part in a research project in electronic and photonic system design, telecommunications, power networks, signal processing and automatic control systems.

The Master of Engineering (Electrical with Business) will lead to a formal qualification in electrical engineering. 

MASTER OF ENGINEERING (WITH BUSINESS)

The Master of Engineering (with Business) is designed to provide students with a formal qualification in engineering at the masters level, with a business specialisation that recognises the need for engineers to understand the management and workings of modern professional organisations.

Students who undertake the Master of Engineering (with Business) replace five advanced technical electives with five business subjects that have been tailored specifically for engineering students and co-developed with Melbourne Business School.

Graduates will have a grounding in financial, marketing and economic principles enabling them to work efficiently in any organisation, as well as the ability to apply the technical knowledge, creativity and team work skills learnt in their engineering training. This combination of knowledge and skills will be a powerful asset in the workplace.

Key features

  • Combine a technical specialisation with exposure to the business and management skills that can help fast-track your career.
  • Benefit from subjects co-developed by Melbourne Business School and tailored specifically for engineering students.
  • Tight integration of subjects ensures that you understand the business side of engineering applications.
  • Be empowered with strong technical skills, as well as the business skills to understand how organisations work.

CAREER OUTCOMES

Electrical Engineering Career Pathways [PDF]

Design and create a range of technical solutions, in areas ranging from medical bionics and neural engineering, to energy conversion, power distribution and communications networks. Career opportunities exist as technical specialists and managers in fields such as the power industry, telecommunications, electronics, biotechnology, manufacturing, automation, transport, defence and the computer industry, as well as roles in research and innovation.

You will find employment with companies such as Telstra, Siemens, Airbus Group Australia Pacific, BHP Billiton, Chevron, Alcoa, Compumedics and Cochlear Ltd.

PROFESSIONAL ACCREDITATION

This Master of Engineering (with Business) degree is professionally recognised under EUR-ACE®. Graduates can work as chartered professional engineers throughout Europe.

This Master of Engineering (with Business) degree is provisionally accredited by Engineers Australia. In line with Engineers Australia policy on granting accreditation to new courses, full accreditation cannot be granted until sufficient students have graduated from the program. Once full accreditation has been granted, it will be back-dated to include all graduates from the start of the program.



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The Industrial Biotechnology Innovation Centre (IBioIC) has launched this unique Masters in Industrial Biotechnology. IBioIC has committed to creating the next generation of skilled industrial biotechnologists. Read more

Why this course?

The Industrial Biotechnology Innovation Centre (IBioIC) has launched this unique Masters in Industrial Biotechnology. IBioIC has committed to creating the next generation of skilled industrial biotechnologists.

The course meets industrial needs and is at the forefront of developments in science and engineering. It combines the expertise of staff from 13 academic institutions across Scotland. Our industrial partners also provide input to the course.

This is an exciting opportunity for science and engineering graduates who are looking for a career in an emerging industry that is sustainable, green and essential to the global economy.

The course will provide you with a strong foundation in basic industrial biotechnology. You’ll also cover advanced state-of-the-art topics in a wide range of industrial biotechnology-related areas. A three-month placement is offered, giving students the opportunity to gain valuable experience working with one of IBioIC’s industrial partners.

See the website

You’ll study

The taught classes are designed to give you a thorough understanding of the current developments in industrial biotechnology.
Two semesters of formal teaching are followed by an intensive research project. You'll carry this out with an industrial partner.
The taught classes cover the following areas and are taught by the following partners:

Core classes include:
- Industrial Biotechnology, Governance and Importance to the Bioeconomy (The Innogen Institute, Edinburgh University)
- Bioprocessing (Strathclyde University)
- Synthetic Biology (Glasgow University)
- Practical Systems Biology (Edinburgh University)
- Downstream Processing (Heriot Watt University)
- Applied Biocatalysis (Strathclyde University)

Elective classes include:
- Blue Biotechnology (SAMS, University of Highlands & Islands)
- Renewable Energy Technologies (Abertay University)
- Advanced Project Management (Strathclyde University)
- Supply Chain Management (Strathclyde University)
- Production Management (Heriot Watt University)
- Resource Efficient Formulation (University of the West of Scotland)

Facilities

The Strathclyde Institute of Pharmacy & Biomedical Sciences (SIPBS) offers an excellent environment for research and teaching. It is located in a new building with several laboratories. All are fitted with modern equipment.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333+44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

Two semesters of formal teaching are followed by an intensive research project, carried out with an industrial partner.

Assessment

The final assessment will be based on performance in exams, coursework and the research project. If necessary there may be a formal oral exam.

Careers

The course provides an exciting opportunity for science and engineering graduates who are looking for a career in an emerging industry that is sustainable, green and essential to the global economy.

Our students enjoyed successful placements with the following companies:
- Qnostics
- GSK
- Xanthella
- SeaBioTech
- Marine Biopolymers
- AMT
- Ingenza
- Unilever
- Innogen
- CRODA
- CelluComp
- NCIMB

A total of 70% of our 2014 cohort have found full-time jobs or have undertaken further study as a result of the experience gained throughout their placement.

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

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