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Masters Degrees (Drug Metabolism)

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This programme is designed for graduates in chemistry or closely related discipline who wish to contribute to drug development in the pharmaceutical industry. Read more
This programme is designed for graduates in chemistry or closely related discipline who wish to contribute to drug development in the pharmaceutical industry.

The programme provides training in pharmacokinetics, drug metabolism, drug synthesis, methods to identify potential drug targets and drug candidates, and methods to assess the biological activities of drug compounds.

Additional modules cover the key techniques in analytical chemistry used to support the pharmaceutical sciences.

Core study areas include research methods, pharmacokinetics and drug metabolism, drug targets, drug design and drug synthesis, spectroscopy and structural analysis, professional skills and dissertation and a research training project.

Optional study areas include separation techniques, mass spectrometry and associated techniques, innovations in analytical science and medicinal chemistry.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/chemistry/pharmaceutical-science-medicinal-chemistry/

Programme modules

Compulsory Modules
Semester 1:
- Research Methods
- Pharmacokinetics and Drug Metabolism
- Drug Targets, Drug Design and Drug Synthesis

Semester 2:
- Spectroscopy and Structural Analysis
- Professional Skills and Dissertation
- Research Training Project

Selected Optional Modules
Semester 1:
- Separation Techniques
- Mass Spectrometry and Associated Techniques

Semester 2:
- Innovations in Analytical Science
- Innovations in Medicinal Chemistry

Assessment

Examination and coursework.

Careers and further study

Careers in a variety of industries, particularly the pharmaceutical and related industries, including drug metabolism, medicinal chemistry (organic synthesis), drug screening (action / toxicity), patents and product registration; also as preliminary study for a PhD.

Scholarships and sponsorship

A number of bursaries and scholarships are available to UK and EU students towards tuition fees (excluding Environmental Studies MSc).
Departmental bursaries, in the form of fee reduction, are available to self-funded international students.
The programmes also benefit from industrial sponsorship which provides support in the form of equipment, materials, presenters and project placements.

Why choose chemistry at Loughborough?

The Department of Chemistry has about 350 students studying taught programmes, including around 50 on MSc courses, 10 postdoctoral research fellows, 50 research students (MPhil / PhD), and 25 academic staff, many of whom have strong links with industry.

In recent years, the Chemistry building has undergone extensive refurbishment and provides modern facilities and laboratories for the teaching and research needs of analytical, organic, inorganic and physical chemistry, as well as specialist laboratories for radiochemistry, environmental chemistry, microbiology and molecular pharmacology.

- Facilities
The Department has a number of specialist instruments and facilities, including: 2 x 400 MHz, 500 MHz and solid-state NMR spectrometers, single crystal and powder X-ray diffractometers, a high resolution inductively coupled plasma mass spectrometer, sector field organic MS, GC-MS and linear ion trap LC-mass spectrometers, ion mobility spectrometers and gas and liquid chromatographs.

- Research
The Department typically has well over 50 research students and a dozen postdoctoral researchers. In addition there are usually around 50 MSc students in the department. Many students come to study from abroad, and there are research students and visitors from all over the world currently studying and carrying out research in the department.
The Department is very well equipped to carry out research spanning all the traditional branches of chemistry (analytical, environmental, inorganic, organic and physical) and which contributes to four active research themes (Energy, Environment, Security and Health).

- Career Prospects
90% of our graduates were in employment and/or further study six months after graduating. Graduates can expect to develop their careers in the pharmaceutical and food industry, analytical and environmental laboratories, public and regulatory utilities, industrial laboratories, or go on to study for a PhD.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/chemistry/pharmaceutical-science-medicinal-chemistry/

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Developed in response to the Engineering and Physical Sciences Research Council (EPSRC), and after extensive consultation with industry, this programme is designed for graduates in chemistry or closely related disciplines who wish to contribute to drug development and analysis, a process that requires multidisciplinary skills. Read more
Developed in response to the Engineering and Physical Sciences Research Council (EPSRC), and after extensive consultation with industry, this programme is designed for graduates in chemistry or closely related disciplines who wish to contribute to drug development and analysis, a process that requires multidisciplinary skills.

The programme comprises a broad range of modules covering the major aspects of analytical and pharmaceutical chemistry, complemented by studies in transferable and professional skills.

Core study areas include research methods, separation techniques, pharmacokinetics and drug metabolism, spectroscopy and structural analysis, professional skills and dissertation and a research training project.

Optional study areas include mass spectrometry and associated techniques, drug targets, drug design and drug synthesis, sensors, innovations in analytical science and medicinal chemistry.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/chemistry/analytical-pharmaceutical-science/

Programme modules

Compulsory Modules
Semester 1:
- Research Methods
- Separation Techniques
- Pharmacokinetics and Drug Metabolism

Semester 2:
- Spectroscopy and Structural Analysis
- Professional Skills and Dissertation
- Research Training Project

Selected Optional Modules
Semester 1:
- Mass Spectrometry and Associated Techniques
- Drug Targets, Drug Design and Drug Synthesis
- Sensors

Semester 2:
- Innovations in Analytical Science
- Innovations in Medicinal Chemistry

Assessment

Examination and coursework.

Careers and further study

The programme is for those who wish to extend their knowledge in a particular area or broaden their field in order to increase their career prospects.

Scholarships and sponsorship

A number of bursaries and scholarships are available to UK and EU students towards tuition fees (excluding Environmental Studies MSc).
Departmental bursaries, in the form of fee reduction, are available to self-funded international students.
The programmes also benefit from industrial sponsorship which provides support in the form of equipment, materials, presenters and project placements.

Why choose chemistry at Loughborough?

The Department of Chemistry has about 350 students studying taught programmes, including around 50 on MSc courses, 10 postdoctoral research fellows, 50 research students (MPhil / PhD), and 25 academic staff, many of whom have strong links with industry.

In recent years, the Chemistry building has undergone extensive refurbishment and provides modern facilities and laboratories for the teaching and research needs of analytical, organic, inorganic and physical chemistry, as well as specialist laboratories for radiochemistry, environmental chemistry, microbiology and molecular pharmacology.

- Facilities
The Department has a number of specialist instruments and facilities, including: 2 x 400 MHz, 500 MHz and solid-state NMR spectrometers, single crystal and powder X-ray diffractometers, a high resolution inductively coupled plasma mass spectrometer, sector field organic MS, GC-MS and linear ion trap LC-mass spectrometers, ion mobility spectrometers and gas and liquid chromatographs.

- Research
The Department typically has well over 50 research students and a dozen postdoctoral researchers. In addition there are usually around 50 MSc students in the department. Many students come to study from abroad, and there are research students and visitors from all over the world currently studying and carrying out research in the department.
The Department is very well equipped to carry out research spanning all the traditional branches of chemistry (analytical, environmental, inorganic, organic and physical) and which contributes to four active research themes (Energy, Environment, Security and Health).

- Career Prospects
90% of our graduates were in employment and/or further study six months after graduating. Graduates can expect to develop their careers in the pharmaceutical and food industry, analytical and environmental laboratories, public and regulatory utilities, industrial laboratories, or go on to study for a PhD.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/chemistry/analytical-pharmaceutical-science/

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This programme is designed to provide comprehensive training in analytical chemistry and its implementation in a variety of fields including biomedical, pharmaceutical, food and environmental analysis. Read more
This programme is designed to provide comprehensive training in analytical chemistry and its implementation in a variety of fields including biomedical, pharmaceutical, food and environmental analysis.

The programme comprises a broad range of modules covering all the major analytical techniques, complemented by studies in transferable and professional skills, with the option to study aspects of medicinal and pharmaceutical chemistry if desired.

Core study areas include research methods, separation techniques, mass spectrometry and associated techniques, spectroscopy and structural analysis, professional skills and dissertation and a research training project.

Optional study areas include sensors, pharmacokinetics and drug metabolism, drug targets, drug design and drug synthesis and innovations in analytical science.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/chemistry/analytical-chemistry/

Programme modules

Compulsory Modules
Semester 1:
- Research Methods
- Separation Techniques
- Pharmacokinetics and Drug Metabolism

Semester 2:
- Spectroscopy and Structural Analysis
- Professional Skills and Dissertation
- Research Training Project

Selected Optional Modules
Semester 1:
- Mass Spectrometry and Associated Techniques
- Drug Targets, Drug Design and Drug Synthesis
- Sensors

Semester 2:
- Innovations in Analytical Science
- Innovations in Medicinal Chemistry

Assessment

Examination and coursework.

Careers and further study

Careers in a variety of industries including pharmaceuticals, chemicals, food, environmental management, contract analysis laboratories, public laboratories, regulatory authorities and instrument manufacturers in either technical or marketing functions or preliminary study for a PhD.

Scholarships and sponsorship

A number of bursaries and scholarships are available to UK and EU students towards tuition fees (excluding Environmental Studies MSc).
Departmental bursaries, in the form of fee reduction, are available to self-funded international students.
The programmes also benefit from industrial sponsorship which provides support in the form of equipment, materials, presenters and project placements.

Why choose chemistry at Loughborough?

The Department of Chemistry has about 350 students studying taught programmes, including around 50 on MSc courses, 10 postdoctoral research fellows, 50 research students (MPhil / PhD), and 25 academic staff, many of whom have strong links with industry.

In recent years, the Chemistry building has undergone extensive refurbishment and provides modern facilities and laboratories for the teaching and research needs of analytical, organic, inorganic and physical chemistry, as well as specialist laboratories for radiochemistry, environmental chemistry, microbiology and molecular pharmacology.

- Facilities
The Department has a number of specialist instruments and facilities, including: 2 x 400 MHz, 500 MHz and solid-state NMR spectrometers, single crystal and powder X-ray diffractometers, a high resolution inductively coupled plasma mass spectrometer, sector field organic MS, GC-MS and linear ion trap LC-mass spectrometers, ion mobility spectrometers and gas and liquid chromatographs.

- Research
The Department typically has well over 50 research students and a dozen postdoctoral researchers. In addition there are usually around 50 MSc students in the department. Many students come to study from abroad, and there are research students and visitors from all over the world currently studying and carrying out research in the department.
The Department is very well equipped to carry out research spanning all the traditional branches of chemistry (analytical, environmental, inorganic, organic and physical) and which contributes to four active research themes (Energy, Environment, Security and Health).

- Career Prospects
90% of our graduates were in employment and/or further study six months after graduating. Graduates can expect to develop their careers in the pharmaceutical and food industry, analytical and environmental laboratories, public and regulatory utilities, industrial laboratories, or go on to study for a PhD.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/chemistry/analytical-chemistry/

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Clinical pharmacology forms a critical part of the drug development process and our graduates are employed in the pharmaceutical and biotechnology industries. Read more
Clinical pharmacology forms a critical part of the drug development process and our graduates are employed in the pharmaceutical and biotechnology industries. Our aim is to train students in the major areas of clinical pharmacology including molecular pharmacology, drug metabolism and toxicology, therapeutics, pharmacokinetics, pharmcovigilance, regulatory affairs and experimental medicine. The programme aims to achieve this by a multi-disciplinary approach.

COURSES
Semester 1
Molecular Pharmacology
Drug Metabolism and Toxicology
Therapeutics
Applied Statistics
Basic Skills- Induction
Generic Skills

Semester 2
Pharmacovigilance
Drug Development to Evidence Based Medicine
Pharmacokinetics
Basic Research Methods
Business of Science
Optionall
Health Informatics (distance learning

Semester 3
Research Project

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In our MSc in Drug Discovery and Development we train students in major areas of biochemical and molecular pharmacology and therapeutics relevant to the drug discovery and development business. Read more
In our MSc in Drug Discovery and Development we train students in major areas of biochemical and molecular pharmacology and therapeutics relevant to the drug discovery and development business. This includes training in molecular pharmacology, drug metabolism and toxicology, therapeutics, pharmacokinetics, pharmcovigilance, regulatory affairs and clinical pharmacology.

COURSES
Introduction to Bio-Business and Commercialisation of Bioscience Research
Drug Metabolism and Toxicology
Generic Skills
Basic Skills - Introduction
Small Molecule Drug Discovery

Semester 2
Advanced Bio- Business and the Commercialisation of Bioscience Research 2
Pharmokinetics
Basic Research Methods
Biologic Drug Discovery

Semester 3
Research Project

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The Graduate Program in Pharmaceutical Sciences, located on the Texas Tech University Health Sciences Center (TTUHSC) campus at Amarillo, Texas offers Masters (M.S.) and Doctoral (Ph.D.) degrees in integrated biomedical/pharmaceutical research as part of the TTUHSC Graduate School of Biomedical Sciences. Read more
The Graduate Program in Pharmaceutical Sciences, located on the Texas Tech University Health Sciences Center (TTUHSC) campus at Amarillo, Texas offers Masters (M.S.) and Doctoral (Ph.D.) degrees in integrated biomedical/pharmaceutical research as part of the TTUHSC Graduate School of Biomedical Sciences.

About the Program

Modern pharmaceutical science encompasses a number of disciplines, including biochemistry, molecular biology, physiology, immunology, pharmacology, pharmaceutics, and medicinal chemistry. The field is unified by the search for novel drug targets and the development of new agents and formulations for the treatment biomedical disease. This includes cutting edge techniques to target drugs to sites of therapeutic action and to reduce adverse effects related to drug metabolism, lack of target selectivity, and pharmacogenetic differences within the human population. PhD’s in pharmaceutical science are well trained for drug discovery and development positions in academic labs, government (e.g., Food and Drug Administration), and the pharmaceutical or biotech industries.
Each student completes a core curriculum including foundation training in biochemistry, physiology, pharmacology and pharmaceutics designed to give students a basic understanding of the biomedical processes by which the body operates and the pharmaceutical agents and delivery systems available to interact with these systems. Electives studies offer the student the opportunity for specialization in more focused areas of interest, including receptor biology, molecular drug action, cell signaling, cancer research, pharmacokinetics, drug metabolism, and biotechnology. Communication, research design, professional skills and ethics are developed throughout the curriculum in complementary courses. Students become immersed in the philosophy of life-long learning and the importance of maintaining and updating their knowledge base as critical, independent thinkers and scientists. The faculty sees this integrated approach as one of the primary strengths of the program, combining cutting-edge molecular and biomedical breakthroughs with modern drug development, targeting and formulation. A broad range of biomedical and pharmaceutical research opportunities are available throughout the department. Focus areas of the Department with links to specific faculty interests are listed below:
Aging/Brain/Neuroprotection/Stroke
Blood Brain Barrier and Neurovascular
Cancer and Molecular Biology & Therapy
Cardiovascular Disease & Regulation
Drug Discovery and Formulation & Pharmacokinetics
Receptor Biology, Cell Signaling & Immunotherapy

Funding

Typically, students may complete a course of study for a Ph.D. degree within 4-5 years or a Masters degree in about half that time (2-2.5 years). Funding is available in the form of stipends ($23,000) from the Department/Graduate School and from individual faculty research resources. These stipends are awarded on a competitive basis to qualifying Ph.D. candidates. Currently, the Department has 43 funded graduate students.

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The programme is run by the Department of Pharmacology & Therapeutics in conjunction with the pharmaceutical industry. Subjects covered include. Read more
The programme is run by the Department of Pharmacology & Therapeutics in conjunction with the pharmaceutical industry. Subjects covered include:

- Drug discovery case histories
- Target/lead identification
- Preclinical studies
- Clinical studies
- Regulatory affairs
- Intellectual property
- Pharmacokinetics/metabolism
- Practical skills.

The standard and focus of the programme is maintained through an advisory board containing several representatives from industry.

Key benefits

- King's is ranked 4th in the world for Pharmacy & Pharmacology (QS World University Rankings by Subject 2016)

- Close links and regular speakers from pharmaceutical companies give students insights and up-to-the-minute knowledge of drug discovery

- Five-six month industry-based research project

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/drug-discovery-skills-msc.aspx

Course detail

- Description -

The Drug Discovery Skills course is run by the Department of Pharmacology & Therapeutics in conjunction with several pharmaceutical companies. The programme consists of three main taught modules and an industry-based research project. Graduates of the course mainly progress to careers in the pharmaceutical industry or further study for a PhD.

- Course purpose -

To equip biomedical/life science graduate students with value-added skills which will enhance their understanding of, and technical expertise in, the drug discovery process. To enhance employability in the pharmaceutical industry.

- Course format and assessment -

Teaching methods include: seminars, practicals, workshops, and a drug discovery research project usually in industry. The standard and focus of the programme is maintained through an advisory board containing several industry representatives. Assessment is via oral test/poster; essay; presentations; practical reports; written exam; written diary; and a dissertation.

Career prospects

Our graduates mainly gain employment in the pharmaceutical industry, or go on to study for a PhD.

How to apply: http://www.kcl.ac.uk/study/postgraduate/apply/taught-courses.aspx

About Postgraduate Study at King’s College London:

To study for a postgraduate degree at King’s College London is to study at the city’s most central university and at one of the top 20 universities worldwide (2015/16 QS World Rankings). Graduates will benefit from close connections with the UK’s professional, political, legal, commercial, scientific and cultural life, while the excellent reputation of our MA and MRes programmes ensures our postgraduate alumni are highly sought after by some of the world’s most prestigious employers. We provide graduates with skills that are highly valued in business, government, academia and the professions.

Scholarships & Funding:

All current PGT offer-holders and new PGT applicants are welcome to apply for the scholarships. For more information and to learn how to apply visit: http://www.kcl.ac.uk/study/pg/funding/sources

Free language tuition with the Modern Language Centre:

If you are studying for any postgraduate taught degree at King’s you can take a module from a choice of over 25 languages without any additional cost. Visit: http://www.kcl.ac.uk/mlc

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This course provides advanced training in modern organic and medicinal chemistry from conception to production of novel drugs. It enables you to understand and experience the way modern small molecule medicine is developing. Read more

Course Overview

This course provides advanced training in modern organic and medicinal chemistry from conception to production of novel drugs. It enables you to understand and experience the way modern small molecule medicine is developing. You will gain hands-on experience of working within a medicinal chemistry team during your research project.

The course is suitable if you have a background in the chemical or pharmaceutical sciences. It includes 120 credits of taught modules and a 60 credit practical project.

Themes include drug design, metabolism and toxicology with an understanding of synthetic organic chemistry. Building on University research strengths, specialist topics include bio-imaging and modern approaches to chemotherapy. You will develop expertise in drug design as practised in the pharmaceutical industry and in academia.

You will also gain knowledge of modern and experimental therapies developing in the Northern Institute for Cancer Research.

Modules

For detailed module information see http://www.ncl.ac.uk/postgraduate/courses/degrees/drug-chemistry-msc/#modules

How to apply

For course application information see http://www.ncl.ac.uk/postgraduate/courses/degrees/drug-chemistry-msc/#howtoapply

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Toxicology, the study of drugs and poisons, is an expanding area of study that offers graduates a wide range of career options. Read more
Toxicology, the study of drugs and poisons, is an expanding area of study that offers graduates a wide range of career options. On this course you'll study the signs and symptoms associated with the use of common drugs and poisons, basic pharmacology, mechanisms of drug/poison action, drug metabolism and drug elimination from the body. In addition to the more traditional areas of forensic toxicology, the course will introduce you to aspects of environmental forensic science where toxicology may be involved.

The course is delivered by experienced forensic toxicologists and forensic practitioners with an emphasis on professional capabilities. Wherever possible the study will be case lead. Our objective is to provide excellent, theoretically informed, science-based learning as well as research skills.

Hear from Gina Ross, a current student, referring to the course leader, Professor David Ossleton: "Thank you for everything you have done this year (as well as inspiring me to take toxicology when I was an undergraduate here). You have exceeded my expectations and helped me to improve not just my toxicological skills but my confidence in myself. I am so glad that I took the MSc and I look forward to seeing you in the future."

Core units:
Forensic Science
Forensic Toxicology
Laboratory & Research Skills
Extended Research Project.

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This is one of three related MSc programmes in pharmaceutical sciences offered by King's College London. The programmes have been designed to help you develop advanced laboratory skills and techniques for application within the pharmaceutical industry and research institutes. Read more
This is one of three related MSc programmes in pharmaceutical sciences offered by King's College London. The programmes have been designed to help you develop advanced laboratory skills and techniques for application within the pharmaceutical industry and research institutes.

The programmes are designed for graduates in pharmacy, chemistry or related sciences who wish to progress their careers within the pharmaceutical industry, in research and development, drug information or registration departments. The programmes are also suitable for those who wish to work in research institutes, hospital pharmacy, or with drug licensing or regulatory authorities. They also offer a solid foundation for students wishing to enter into research degree programmes.

Key benefits:

- King's is ranked 4th in the world for Pharmacy & Pharmacology (QS World University Rankings by Subject 2016)

- A programme of study in London focused on the discovery and development of biopharmaceuticals, therapeutic peptides, protein, monoclonal antibodies and nucleic acids.

- Links with the pharmaceutical industry in terms of visiting lecturers and site visits.

- A six-month research project.

- Combined teaching with the MSc Pharmaceutical Technology and Pharmaceutical Analysis & Quality Control programmes provides a broad education in the pharmaceutical sciences and allows student flexibility.

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/biopharmaceuticals-msc.aspx

Course detail

This advanced programme provides an introduction to the principles of biopharmaceutics and pharmaceutical analysis, offering specialisation in the more biological aspects of the pharmaceutical sciences with an emphasis on drug metabolism and biochemical toxicology.

- Course purpose -

To provide chemical, life science and pharmacy graduates with scientific knowledge and expertise in the areas of biopharmaceutical discovery and development required for a career in the pharmaceutical industry, research institutes or regulatory authorities.

- Course format and assessment -

Lectures; small group tutorials; laboratory classes; laboratory-based research project (or in some instances a critical review of the scientific literature). Each taught module is assessed by a written examination (70 per cent) and coursework (30 per cent).

Modules include:

- Principles Of Chemical Analysis Techniques, Numerical Methods And Regulatory Affairs
- Principles Of Drug Delivery And Disposition
- Research Project/dissertation - Pharmaceutical Sciences

Career prospects

Recent graduates have gone on to take PhD studies; to work in R&D laboratories in the pharmaceutical industry and Biopharmaceutical Industry (including Pfizer, GSK and Novartis); or small Biotech companies. Overseas students have returned to similar positions in their home countries.

How to apply:

http://www.kcl.ac.uk/study/postgraduate/apply/taught-courses.aspx

About Postgraduate Study at King’s College London:

To study for a postgraduate degree at King’s College London is to study at the city’s most central university and at one of the top 20 universities worldwide (2015/16 QS World Rankings). Graduates will benefit from close connections with the UK’s professional, political, legal, commercial, scientific and cultural life, while the excellent reputation of our MA and MRes programmes ensures our postgraduate alumni are highly sought after by some of the world’s most prestigious employers. We provide graduates with skills that are highly valued in business, government, academia and the professions.

Scholarships & Funding:

All current PGT offer-holders and new PGT applicants are welcome to apply for the scholarships. For more information and to learn how to apply visit: http://www.kcl.ac.uk/study/pg/funding/sources

Free language tuition with the Modern Language Centre:

If you are studying for any postgraduate taught degree at King’s you can take a module from a choice of over 25 languages without any additional cost. Visit: http://www.kcl.ac.uk/mlc

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The degree is based around the bio-business teaching offered in the College of Life Sciences & Medicine. Students will be able to select other topics from a menu of courses with the help of an adviser to make up the 180 credits needed for the MSc degree of Bio-Business with Medical Sciences. Read more
The degree is based around the bio-business teaching offered in the College of Life Sciences & Medicine. Students will be able to select other topics from a menu of courses with the help of an adviser to make up the 180 credits needed for the MSc degree of Bio-Business with Medical Sciences. Topics include small molecule drug discovery, biologic drug discovery, molecular pharmacology, basic genetics, basic immunology and microbiology.

COURSES
Semester 1

Introduction to Bio-Business and the Commercialisation of Bioscience Research
Generic Skills
Basic Skills
Optional
Drug Metabolism & Toxicology
Molecular Pharmacology
Small Molecule Drug Discovery
Therapeutics
Introduction to Molecular Biology

Semester 2
Advanced Bio-Business and the Commercialisation of Bioscience Research
Biologic Drug Discovery
Basic Research Methods
Optional
Pharmacovigilance
Pharmacokinetics

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Drug Discovery is one of the few areas which have continued to expand over the last 5 years. Drug discovery involves multidisciplinary teams working in academia, biotechnology and pharmaceutical industries. Read more
Drug Discovery is one of the few areas which have continued to expand over the last 5 years. Drug discovery involves multidisciplinary teams working in academia, biotechnology and pharmaceutical industries. Our MRes in Drug Discovery provides training in across all aspects of drug discovery and development, clinical pharmacology and medical biotechnology. The degree programme consists of one term of taught courses (3 months) followed by 2 individual research projects lasting 16 weeks each.

COURSES
Semester 1
Molecular Pharmacology
Small Molecule Drug Discovery
Introduction to Bio-Business and the Commercialisation of Bioscience Research
Basic Skills-Induction
Generic Skills

Optional
Introduction to Molecular Biology
Applied Statistics
Drug Metabolism & Toxicology

Semester 2
Research Project
Optional
Advanced Bio-Business and the Commercialisation of Bioscience Research
Biologic Drug Discovery
Basic Research Methods

Semester 3
Research Project 2

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The Department of Pharmaceutical Sciences offers graduate programs leading to the Master of Science and Doctor of Philosophy degrees. Read more
The Department of Pharmaceutical Sciences offers graduate programs leading to the Master of Science and Doctor of Philosophy degrees. The department offers research opportunities and courses in three principal areas:
-Molecular pharmacology and toxicology: drug receptor interactions, molecular biology, electrophysiology, biochemistry, clinical, adverse drug reactions, and drug metabolism
-Pharmaceutics and pharmacokinetics: pharmaceutical and medicinal chemistry, pharmaceutical formulations, radiopharmaceutical synthesis, drug discovery, biophysical chemistry, basic pharmacokinetics, and clinical research
-Clinical, social, and administrative pharmaceutical sciences: clinical and pharmacy practice, sociology of health, social psychology, health policy, and health economics

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The Department of Pharmacology and Toxicology offers graduate programs leading to the degrees of Master of Science and Doctor of Philosophy in Pharmacology. Read more
The Department of Pharmacology and Toxicology offers graduate programs leading to the degrees of Master of Science and Doctor of Philosophy in Pharmacology. Faculty conduct research in the following areas:
-Biochemical and molecular pharmacology
-Cardiovascular pharmacology
-Clinical pharmacology
-Drug addiction
-Drug metabolism, distribution, and pharmacokinetics
-Endocrine pharmacology
-Immunopharmacology
-Neuropharmacology
-Pharmacogenetics
-Psychopharmacology
-Receptor pharmacology
-Second messengers and signal transduction
-Toxicology

All MSc and PhD students are expected to undertake self-directed study and to demonstrate proficiency in pharmacological principles throughout the course of their graduate program.

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This Masters in Cancer Sciences will prepare you for a career in cancer science, whether you aim to pursue a PhD or further medical studies, or seek a career in the health services sector, in the life sciences, biotechnology or pharmaceutical industries. Read more
This Masters in Cancer Sciences will prepare you for a career in cancer science, whether you aim to pursue a PhD or further medical studies, or seek a career in the health services sector, in the life sciences, biotechnology or pharmaceutical industries. Our programme takes a “bench to bedside” approach, enabling graduates to work within a multidisciplinary environment of world-leading scientists and cancer-specialists to address the latest challenges in cancer research.

Why this programme

-University of Glasgow is rated in the UK top five and best in Scotland for Cancer Studies. You will be taught by a multidisciplinary team of world leading cancer scientists and clinicians within the Cancer Research UK Glasgow Centre.
-This MSc in Cancer Science programme is unique in the UK as it delivers integrated teaching in molecular biology, pathology and clinical service.
-The Cancer Research UK Glasgow Centre brings together scientists and clinicians from research centres, universities and hospitals around Glasgow to deliver the very best in cancer research, drug discovery and patient care. The Centre’s world leading teams have made major advances in the understanding and treatment of many cancers. For more information, please visit: http://www.wecancentre.org/
-In the first semester, each week is focused around one of the new Hallmarks of Cancer, with the focus on the molecular/cellular biology of this hallmark. A tutorial session will enable you to discuss and integrate your learning from the week. This will enable you to understand how research into the fundamental principles of cancer cell biology can translate to advances in cancer treatment.
-The aim of this MSc in Cancer Science is to train cancer researchers who can break down the barriers that currently prevent discoveries at the bench from being translated into treatments at the bedside. By understanding the science, methodology and terminology used by scientists and clinicians from different disciplines, you will learn to communicate effectively in a multidisciplinary environment, critically evaluate a wide range of scientific data and research strategies and learn how to make a significant contribution to cancer research.

Semester 1
-Hallmarks of Cancer

Semester 2
-Drug Discovery
-Drug Development and Clinical trials
-Viruses and Cancer
-Diagnostic technologies and devices
-Technology transfer and commercialisation of bioscience research
-Current trends and challenges in biomedical research and health
-Frontiers in Cancer Sciences
-Omic technologies for the biomedical sciences: from genomics to metabolomics
-Designing a research project: biomedical research methodology

Semester 3
-Bioscience Research Project

Programme aims

We will lead you through the molecular and cellular hallmarks of cancer biology, including genetic instability, cancer growth and invasion, tumour-stroma interactions, immune response to cancer, cancer metabolism, and cancer stem cells, and explain how this knowledge is being used in our fight against cancer.

You will experience how to plan and write a project proposal and report, and how to research, evaluate, and critically discuss scientific data and present these to a wider audience. A 14-week long research project will finally allow you to gain in-depth knowledge in a cancer-related area of your interest. This programme will therefore give you an excellent foundation for your future career in cancer science.

We will lead you through the molecular and cellular hallmarks of cancer biology and metastasis formation, including genetic instability, cancer growth and invasion, tumour-stroma interactions, immune response to cancer, cancer metabolism, and cancer stem cells, and explain how this knowledge is being used in our fight against cancer in our clinics by providing a personalised cancer treatment. The programme will allow you to specialize either on the molecular aspects of cancer science, including genome wide data analysis for the characterization and classification of cancers, or learn about cutting edge translational cancer research, and introduce you to drug discovery pipelines and clinical trials.

You will experience how to plan and write a project proposal and report, and how to research, evaluate, and critically discuss scientific data and present these to a wider audience. A 14-week long research project will finally allow you to gain in-depth knowledge in a cancer-related area of your interest. This programme will therefore give you an excellent foundation for your future career in cancer science.

Career prospects

The knowledge and transferable skills developed in this programme will be suitable for those contemplating a PhD or further medical studies; those wishing to work in the health services sector; and those interested in working in the life sciences, biotechnology or pharmaceutical industries, including contract research organisations (CROs). This programme is designed for students with undergraduate degrees in the life sciences, scientists working in the pharmaceutical and biotechnology industries, and clinicians and other healthcare professionals.

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