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Masters Degrees (Cancer Therapy)

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The course will provide a robust and wide-reaching education in fundamental and applied cancer biology, and focused training in laboratory research and associated methodology. Read more
The course will provide a robust and wide-reaching education in fundamental and applied cancer biology, and focused training in laboratory research and associated methodology.

Why study Cancer Biology at Dundee?

The MRes Cancer Biology is a research-centred taught Masters programme providing a focused training in molecular cancer research. It covers both the fundamental and translational science of carcinogenesis, cancer biology, diagnosis and therapy.

The programme delivers outstanding research-focused teaching from internationally-renowned scientists and clinicians.

Dundee University is internationally renowned for the quality of its cancer research and has over 50 cancer research groups: current funding for cancer research is about £40 million from research councils and charities. In 2009 the university became the first Scottish university to be awarded Cancer Centre status by the CRUK.

What's so good about studying Cancer Biology at Dundee?

The MRes Cancer Biology has been developed from the innovative collaboration between the College of Medicine, Dentistry and Nursing and the School of Life Sciences, and it complements the establishment of the Cancer Research UK (CRUK) Centre here in Dundee.

The Dundee Cancer Centre aims to enhance cancer research and apply discoveries to improve patient care. Key to this is training the next generation of cancer researchers.

Areas of particular strength at the University of Dundee are in surgical oncology for breast and colon cancer, radiation biology and clinical oncology, skin cancer and pharmacogenomics. Areas of strength in basic cancer biology are DNA replication, chromosome biology and the cell cycle, cell signalling and targets for drug discovery.

Teaching and Assessment

This course is taught by staff based in the College of Medicine, Dentistry and Nursing and the School of Life Sciences.

The MRes will be taught full-time over one year (September to August).

How you will be taught

The course will be taught through a combination of face-to-face lectures, tutorials, discussion group work and journal clubs, self-directed study and supervised laboratory research.

What you will study

The MRes degree course is taught full-time over three semesters.

The first semester provides in-depth teaching and directed study on the molecular biology of cancer, and covers:

Basic cell and molecular biology, and introduction to cancer biology
Cell proliferation, cell signalling and cancer
Cancer cell biology
Carcinogenesis, cancer treatment and prevention
Specific training in research methodology and critical analysis

Students will also be required to take part in a journal club to further develop their critical review skills.

In semesters two and three students will be individually guided to focus on a specific cancer research topic which will be the subject of a literature review and associated laboratory research project. The research project is based in laboratories with state-of-the-art facilities, and under the leadership of world-class researchers.

How you will be assessed

Exams on the taught element of the programme will be held at the end of semester one. Essays and assignments will also contribute to the final mark, and the dissertation will be assessed through the production of a thesis and a viva exam.

Places on the course are limited, so early applications are strongly encouraged.
Apply early to avoid disappointment.
Follow us on Twitter to keep up with news from the MRes Cancer Biology @Mrescancerbiol

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The Cancer MSc reflects the depth and breadth of research interests, from basic science to translational medicine, within the UCL Cancer Institute. Read more

The Cancer MSc reflects the depth and breadth of research interests, from basic science to translational medicine, within the UCL Cancer Institute. The programme, taught by research scientists and academic clinicians, provides students with an in-depth look at the biology behind the disease processes which lead to cancer.

About this degree

This programme offers a foundation in understanding cancer as a disease process and its associated therapies. Students learn about the approaches taken to predict, detect, monitor and treat cancer, alongside the cutting-edge research methods and techniques used to advance our understanding of this disease and design better treatment strategies.

Students undertake modules to the value of 180 credits.

The programme consists of two core modules (60 credits), four specialist modules (60 credits) and a research project (60 credits).

A Postgraduate Diploma (120 credits, full-time nine months) is offered.

A Postgraduate Certificate (60 credits, full-time 12 weeks) is offered.

Core modules

  • Basic Biology and Cancer Genetics
  • Cancer Therapeutics

Specialist modules

  • Behavioural Science and Cancer
  • Biomarkers in Cancer
  • Cancer Clinical Trials
  • Haematological Malignancies and Gene Therapy

Dissertation/report

All MSc students undertake a laboratory project, clinical trials project or systems biology/informatics project, which culminates in a 10,000–12,000 word dissertation and an oral research presentation.

Teaching and learning

Students develop their knowledge and understanding of cancer through lectures, self-study, database mining, wet-lab based practicals, clinical trial evaluations, laboratory training, assigned reading and self-learning. Each taught module is assessed by an unseen written examination and/or coursework. The research project is assessed by the dissertation (75%) and oral presentation (25%).

Further information on modules and degree structure is available on the department website: Cancer MSc

Careers

The knowledge and skills developed will be suitable for those in an industrial or healthcare setting, as well as those individuals contemplating a PhD or medical studies in cancer.

Employability

Skills include critical evaluation of scientific literature, experimental planning and design interpretation of data and results, presentation/public speaking skills, time management, working with a team, working independently and writing for various audiences.

Why study this degree at UCL?

UCL is one of Europe's largest and most productive centres of biomedical science, with an international reputation for leading basic, translational and clinical cancer research.

The UCL Cancer Institute brings together scientists from various disciplines to synergise multidisciplinary research into cancer, whose particular areas of expertise include: the biology of leukaemia, the infectious causes of cancer, the design of drugs that interact with DNA, antibody-directed therapies, the molecular pathology of cancer, signalling pathways in cancer, epigenetic changes in cancer, gene therapy, cancer stem cell biology, early phase clinical trials, and national and international clinical trials in solid tumours and blood cancers.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Cancer Institute

80% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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Occupational therapy practice is concerned with enhancing the daily lives of individuals with a very broad range of physical, mental health or social needs. Read more
Occupational therapy practice is concerned with enhancing the daily lives of individuals with a very broad range of physical, mental health or social needs. As an occupational therapist you will work with clients to improve function and enable them to fulfil the demands of their daily lives with greater satisfaction. You will work with people of all ages from all walks of life, in hospital, in the community, in their place of employment or in their home, and have the opportunity to work in a very wide variety of professional practice areas.

The fundamental aim of the MSc Occupational Therapy (pre-registration) programme is to enable you to graduate with a master’s degree in occupational therapy and be eligible to apply for registration as an occupational therapist with the Health and Care Professions Council (HCPC) in the UK. The Degree does not provide eligibility to practice in any other country although the degree is WFOT recognised.

HCPC approved and COT/WFOT accredited

See the website http://www.brookes.ac.uk/courses/postgraduate/occupational-therapy-pre-registration/

Why choose this course?

- Graduates from this programme will be fit for purpose, practice, and award in the UK. We enable you to develop a profound understanding of the potential for occupational therapy to promote the health and wellbeing of the population. Skills acquired will be evidenced based, innovative and give you the capacity to make a significant contribution to the profession, specifically contribute to excellence in client care and the professional knowledge base. On successful completion of the degree and 1000 hours of clinical practice education you will be eligible to apply for registration with the Health and Care Professions Council as a registered Occupational Therapist in the UK.

- Many of our graduates go on to further educational development at PhD/DPhil and professional doctorate level. We are mindful of the anticipated transformation of practice over the next 20 years as well as the changes to demographics and the political innovation resulting in the widening participation agenda. We therefore aim to attract graduate students, who are academically able, demonstrate appropriate values of self-determination, motivation and critical awareness of learning needs and show potential for leading leadership, innovation and research.

- Based in Oxford, the environment for learning is rich with diversity, culture, specialist health and social care resources, academic resources as well as close commuting links to London.

- Our programme is staffed by occupational therapists expert in diverse clinical specialities, and supported by occupational therapy practice educators from all areas of mainstream and specialist practice. Our lecturers are experienced in their specialist practice areas and have reputations for excellence with established links with colleagues, organisations and institutions at national and international level.

- This course benefits from shared and inter-professional education opportunities, in addition to profession specific ones, to develop the professional qualities and attributes for current and future health and social care practice.

- Our ongoing investment in a new technology infrastructure is enabling the teaching team to exploit successful technology-enriched learning throughout the programme. We have a large and dedicated building in Oxford (Marston Road) equipped with state-of-the-art classroom and clinical skills and communication suites and resources. We run a weekly Hand Therapy clinic and a monthly Community Occupational Therapy Assessment Clinic for the public. Students are invited to observe other qualified OT's working in these clinics.

- We have a strong research profile, with experienced researchers working in established areas of cancer care, children and families, drug and alcohol, physical rehabilitation and enablement, inter-professional education and collaborative practice.

- Established in 1938, we are the oldest School of Occupational Therapy in England, and have one of the best occupational therapy library collections in the country.

- We have an excellent track record of high levels of student satisfaction, low student attrition rates and high employability.

Teaching and learning

MSc in Occupational Therapy is taught alongside the well-established and highly-regarded BSc (Hons) Occupational Therapy.

Pre-registration Masters students will be taught alongside the undergraduate students in all occupational therapy specific modules. These will be identified with different module numbers and names to those of the undergraduate programme. This dual level teaching in classroom will provide you with the opportunity to learn the core skills and specific attributes of occupational therapy alongside the BSc (Hons) Occupational Therapy students.

However, the pre-registration Masters students are provided with an enhanced level 7 learning experience with module specific tutorials to explore a more critical and evidence based approach to the subject matter and thus develop professional competence in academic, research and digital literacy, critical thinking and personal self-awareness.

Our approach will require you to actively engage in these Masters level tutorials and become self-directed, innovative, creative and critical learners. Teaching will assist you to construct knowledge through the analysis, synthesis and conceptualisation of your learning experiences, thus developing a lifelong approach to learning. This supports employability in a marketplace that demands adaptability, continuous development and leadership.

You will have the opportunity for face-to-face and virtual learning activities. Our inter-professional module is taken alongside other health and social care pre-registration master's level students, enabling you to prepare for the interdisciplinary work you will encounter in the health and social care environment.

Working at master’s level, you will focus on developing your knowledge in occupational therapy, which is evidence-based and strongly underpinned by research.

This master's degree will:
- Enable you to be a reflective, proactive, innovative and adaptable occupational therapy practitioner, with the ability to critique research and evaluate the effectiveness of evidence in a wide variety of practice settings.

- Develop a critical understanding of the theory of occupation and teach you to challenge existing models and approaches used in occupational therapy from an informed perspective.

- Provide opportunities to develop your ability to work both independently and as part of a team in the context of social, technological, administrative and policy changes.

How this course helps you develop

This course is mapped against the University's postgraduate attributes so that all occupational therapy graduates are equipped with the skills of academic literacy, digital and information literacy, global citizenship, research literacy, critical self awareness and personal literacy. These attributes are in addition to the NHS core values of respect and dignity, commitment to quality of care, compassion, and aspiring to improve the lives of others where everyone counts and we work together for patients.

Careers

The majority of graduates from the occupational therapy degrees work as qualified and registered occupational therapists, but there are increasing opportunities to work in non-specified professional roles in mental health and community settings. There are also increasing numbers of employment roles that are not explicitly described or advertised as an ‘occupational therapist’ but match the skills specification of an occupational therapist. This is due to the changing nature of health and social care practice and the new and emerging roles and opportunities for occupational therapy.

Free language courses for students - the Open Module

Free language courses are available to full-time undergraduate and postgraduate students on many of our courses, and can be taken as a credit on some courses.

Please note that the free language courses are not available if you are:
- studying at a Brookes partner college
- studying on any of our teacher education courses or postgraduate education courses.

Research highlights

The Centre for Rehabilitation within the Department of Sport and Health Sciences has strong leadership in the director, Professor Helen Dawes. The Centre brings together research, education and care. It is underpinned by a strong, well-published research group, the Movement Science Group, along with clinical expertise, rehabilitation, knowledge and care of adults and children with neurological conditions. Within the Centre, staff, students and alumni across the Faculty of Health and Life Sciences are engaged in a number of research projects.

Examples of ongoing research projects within the faculty:
- Driving rehabilitation - cognitive mechanisms of driving and performance implications for clinical populations

- Fatigue management – Central and peripheral fatigue and mechanisms in clinical populations

- Dual task control in Stroke - influence on community mobility

- Efficacy of Intensive motor learning programmes – Themed (Magic) camps for children with hemiplegia

- Arts in Health Research – collaboration with Breathe Arts Health Research with research opportunities across many arts related activities

- Virtual Reality (VR) technologies – development and implementation of VR technologies in rehabilitation

- Early identification of motor and sensory processing impairments in children

- Sensory processing disorders and impact on function and behaviour in children with autism

- Measurement and monitoring of rehabilitation participation- Traumatic Brain Injury (TBI), Systematic Review of Vocational Rehabilitation for people with TBI

- Therapy for hand writing in people with Parkinson’s disease (PD)

- Monitoring movement in people with neurological conditions – mechanisms and impact e.g. head drop in Parkinson Disorder

- Physical activity impact on sleep, behaviour cognition, health and wellbeing in children with neurodisability

- Falls in people with learning disabilities – an understanding of the impact of anxiety

- A Functional Electrical Stimulation Plantar flexion System for Bone Health Maintenance in Spinal Cord Injury Patients

- Professional development Perspectives of Occupational Therapists working in the NHS and concepts of Occupational Balance, Cultural perspectives and attitude change in professional identity acquisition.

Research areas and clusters

Our staff are involved in research both independently and collaboratively.

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Why study at Roehampton. Approved by the Health Care Professions Council (HCPC), this training leads to a nationally recognised professional qualification as a music therapist. Read more

Why study at Roehampton

  • Approved by the Health Care Professions Council (HCPC), this training leads to a nationally recognised professional qualification as a music therapist.
  • Work placements organised by the University, the majority with a music therapist on site.
  • Music therapy course staff have their own current clinical work, and are therefore embedded in current practice and clinical thinking.
  • The staff team are involved in writing and researching and have a high profile within the UK music therapy profession 
  • Work as a music therapist to benefit people with a wide range of challenges.
  • In the Research Excellence Framework 2014, the leading national assessment of quality, 100% of the research we submitted was rated “world leading” or “internationally excellent” for its impact.

Summary

Become a qualified music therapist to facilitate people’s move towards well-being through specific therapeutic aims using a primarily non-verbal relationship in music. Music Therapy as practised in Great Britain is largely based on improvisation, the music being the shared, and the spontaneous creation of client and therapist.

The Music Therapy programme offers training for competent, practising musicians to become therapists, bringing together their skills, education and other life experiences. On completion of the training, graduates are eligible to apply to the HCPC for registration, with the ability and flexibility to practice within the NHS, Social Services, education or private sector. 

Essential to music therapy is the relationship between client and therapist. At Roehampton we have chosen to base our Music Therapy training programme on the use of psychoanalytic ideas to inform our understanding of the therapy process and the ways the client works with the environment, the therapist and the music. Broader theories and ways of working are also studied in order to equip students to meet a range of clinical need. Other styles of music, including song writing, the use of technology and pre-composed music are also used as appropriate to the need of the individual. 

The course emphasises your emotional development as a practitioner, together with clinical exploration through critical enquiry. In addition to this, students must be prepared to enter mandatory individual personal therapy for one year of the training.

Music Therapists work within a wide range of clinical settings, individual and group work. They work with people of all ages; from infants and young children through to elderly adults. Music therapy can benefit people with a wide range of difficulties or challenges, including mental health problems, learning disabilities and autism, dementia and neurology, as well as people experiencing serious illness such as cancer or those who have experienced trauma. 

Content

The programme aims to encourage a critical and evaluative approach to both theory and practice in music therapy. It is designed to prepare students for work with children and adults with a range of disabilities and illnesses, and placements usually include work with children and adults with learning disabilities, autism and Asperger’s syndrome and mental health problems.

After visits to a variety of workplaces which offer music therapy, you will undertake individual and group work in two contrasting settings over six months, January to June (first placement) and September to February/March (second placement).These clinical placements will provide you with music therapy work experience alongside qualified Music Therapists. You will also participate in an experiential group, which gives you an opportunity to develop your own self-awareness and examine personal and group dynamics through verbal and musical processes. In addition, it is a requirement for you to find and fund personal individual therapy outside the course. 

Key areas of study include human development and growth and the clinical context for music therapy, clinical improvisation, observational studies, music therapy theory, clinical case work and supervision, introduction to research and your dissertation. Personal development and reflection on this is central throughout the programme.

Modules

Here are examples of the modules:

  • Music Therapy Theory and Practice 1 and 2
  • Observational Studies
  • Research Methods 
  • Research Portfolio

Career options

Music Therapists work within a wide range of clinical settings. They work with people of all ages; from infants and young children through to elderly adults. Music Therapists work within statutory services (such as the NHS, education or social services), within charities and private organisations, and in private practice. To find out more, you can join the British Association for Music Therapy.

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This full-time MSc course is designed to provide graduates with advanced knowledge, understanding and skills in the rapidly advancing field of Cancer Biology and Therapeutics. Read more
This full-time MSc course is designed to provide graduates with advanced knowledge, understanding and skills in the rapidly advancing field of Cancer Biology and Therapeutics.

The course offers advanced teaching in the cellular aspects of cancer biology together with the molecular mechanisms underlying cancer development and progression. It provides in-depth training in cancer therapeutics, encompassing biomarkers and diagnosis, therapeutic targets, drug discovery and clinical trials and chemo/radio therapy, as well as aiming to develop your theoretical and practical research skills. This postgraduate programme offers a balanced combination of theory and practice that would serve as preparation for doctoral research or as a self-contained advanced qualification in its own right.

Graduates from this course should gain a breadth and depth of cancer-focused training that will make them highly attractive candidates to start or continue a career within the healthcare sector and research establishments.

The course offers research skills training and a laboratory-based research project that can provide you with the skills required to develop research hypotheses and critically evaluate translational approaches with respect to the development of contemporary cancer therapeutics.

Distinctive features

• A broad ranging course that covers basic molecular cancer cell biology through to translational research and therapeutics.

• A course developed in collaboration with researchers, academics and clinicians and delivered by leading academic cancer researchers at Cardiff University.

• Key lectures and case study workshops delivered by practising oncologists and cancer surgeons.

• Opportunity to study at Cardiff University, one of the UK’s major teaching and research universities.

• Opportunity to undertake a research project in one of the internationally recognized cancer research groups at Cardiff.

• Close academic support from an experienced personal tutor.
Opportunity to join a vibrant postgraduate community studying at Cardiff.

Structure

This is a full-time course over one academic year. You will study 180 credits: 120 of taught material, followed by a 60 credit project.

Core modules:

Data Handling and Statistics
Cellular and Molecular Biology of Cancer
Translational Oncology and Therapeutics
Academic Research Skills
Research Methodology
Research Project

Teaching

The programme will provide advanced teaching in the cellular aspects of cancer biology together with the molecular mechanisms underlying cancer development and progression. In-depth training will be provided in the area of cancer therapeutics, encompassing biomarkers and diagnosis, therapeutic targets, drug discovery and clinical trials and chemo/radio therapy, in addition to developing the student’s theoretical and practical research skills.

Assessment

Assessment for the course will comprise a combination of exams, written essays, posters, laboratory coursework and case studies.

Career Prospects

Graduates from this course should gain a breadth and depth of cancer-focused training that could make them highly attractive candidates to start or continue a career within the healthcare sector and research establishments.

Potential employment opportunities include PhD student, research technician, medical laboratory science officer, clinical trials co-ordinator, and medical writer.

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The area of cancer immunotherapy considers how to use conventional therapies including surgery, radiation and chemotherapy. Read more
The area of cancer immunotherapy considers how to use conventional therapies including surgery, radiation and chemotherapy. Whilst these treatment have served well and new drugs will continue to be designed, clinical trials over the last five years have shown that boosting the body’s immune system, whose main task is to deal with invading pathogens, can help our immune system to destroy tumour cells. Many of the new immunotherapies may be tested in combination with more conventional treatments or tested alone, but investigators and oncologists now believe immunotherapy, initially combined with pharmacological treatments, will soon provide curative therapies and certainly give many patients a new lease of life.

More about this course

Worldwide the incidence of cancer is increasing, and is expected to reach 22 million new cases per year by 2030. In addition to treatments such as radiotherapy and surgery, chemotherapy has a vital role to play in prolonging the lives of patients.

The aims of the Cancer Immunotherapy MSc are to:
-Provide an in-depth understanding of the molecular targets at which the different classes of anticancer drugs are aimed, and of how drug therapies are evolving
-Review the biology of cancer with respect to genetics, pathological considerations, and the molecular changes within cells which are associated with the progression of the disease
-Enhance intellectual and practical skills necessary for the collection, analysis, interpretation and understanding of scientific data
-Deliver a programme of advanced study to equip students for a future career in anti-cancer drug and immunotherapy development
-Cover new areas in immunotherapy (some of which may enhance existing pharmacological therapies including: History of immunotherapy and review of immune system; Monoclonal antibodies in cancer therapy and prevention; DNA vaccines against cancer; Adoptive T cell therapy; Dendritic cell vaccines; Antibodies that stimulate immunity; Adjuvant development for vaccines; Epigenetics and cancer: improving immunotherapy; Immuno-chemotherapy: integration of therapies; Exosomes and Microvesicles (EMVs) in cancer therapy and diagnosis; Dendritic cell vaccine development and Pox virus cancer vaccine vectors; Microbial causes of cancer and vaccination

Students will have access to highly qualified researchers and teachers in pharmacology and immunology, including those at the Cellular and Molecular Immunology Research Centre. Skills gained from research projects are therefore likely to be highly marketable in industry, academia and in the NHS. Students will be encouraged to join the British Society of Immunology and the International Society of Extracellular Vesicles.

Assessment is a combination of coursework, which includes tests and essays, the research project and its oral defence and examination.

Modular structure

The modules listed below are for the academic year 2016/17 and represent the course modules at this time. Modules and module details (including, but not limited to, location and time) are subject to change over time.

Year 1 modules include:
-Advanced Immunology (core, 20 credits)
-Cancer Immunotherapy (core, 20 credits)
-Cancer Pharmacology (core, 20 credits)
-Cancer: Diagnosis and Therapy (core, 20 credits)
-Molecular Oncology (core, 20 credits)
-Research Project (core, 60 credits)
-Scientific Frameworks for Research (core, 20 credits)

After the course

Students will have many opportunities to work in industry. There are established industries working hard to develop cancer immunotherapies including Bristol-Myers Squibbs, MERCK, AstraZeneca and Roche. There are also an innumerate number of start-up companies appearing including Omnis Pharma, UNUM Therapeutics and Alpine Immune Sciences.

Students will also have ample opportunity for future postgraduate study either within the School of Human Sciences and the Cellular and Molecular Immunology Centre at the MPhil/PhD level or beyond, even with some of our research partners within the UK, Europe and beyond.

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This course will enhance your knowledge and understanding of cancer therapies and provide you with the skills to assess, analyse, critically appraise and evaluate current and emerging anti-cancer therapies and the drug discovery cascade, from target evaluation and engagement to clinical trials.. Read more
This course will enhance your knowledge and understanding of cancer therapies and provide you with the skills to assess, analyse, critically appraise and evaluate current and emerging anti-cancer therapies and the drug discovery cascade, from target evaluation and engagement to clinical trials.

The programme was developed in response to the increasing demand for a course which focuses on current and emerging cancer therapies. It is the only programme in the UK which combines a focus on cancer biology with the practical, ethical and economic implications of personalised cancer therapy, along with its biology and the discovery and development of drugs.

It has been constructed to produce world-class graduates with the skills to contribute to the global drive in advancing cancer treatment through research, teaching, industry and public sector employment.

What you'll study

You'll focus on anti-cancer treatment therapies, with a particular emphasis on personalised medicine, covering the therapeutic target and the biological mechanisms of current and emerging anti-cancer therapies. You'll also explore radiotherapy as a diagnostic and as a single or combinational treatment with drugs in anti-cancer therapy.

You'll be introduced to the discovery and development of new drugs and the challenges associated with this process. You'll be able to evaluate the drug discovery pipeline including medicinal chemistry, screening, secondary assays and other drug discovery and development technologies. Through a virtual drug discovery programme, you'll have the opportunity to develop anti-cancer agents and progress these through the drug discovery cascade, from target engagement to clinical trials.

The programme will equip you with a range of skills including scientific writing, critical analysis, problem-solving, teamworking, as well as advanced data set analysis and interpretation. You'll experience a wide range of scientific topics from molecular biology, to cell biology and genetics, medicinal chemistry to formulation and radiobiology to nuclear medicine. You'll have the opportunity to conduct independent research and working as part of a multidisciplinary team you'll gain an appreciation of the contributions other disciplines make to cancer drug discovery. 

Facilities

The Strathclyde Institute of Pharmacy and Biomedical Sciences is recognised as one of the foremost departments of its kind in the UK. It's a leading research centre in the search for new and improved medicines. You'll benefit from the advanced facilities of a new £36 million building. The Institute is ranked no 2 in the UK in the Complete University Guide 2018 and the University of Strathclyde has recently been one of the few UK institutes to be awarded the status of 'Emerging Centre of excellence for radiobiology research' in the UK.

Careers

Graduates will have a number of potential employment opportunities: large and small pharma companies, SMEs, within health services and providers, their home institutions and as academics in UK, EU or international Universities.

The course will enable careers in research, academia industry and the health sector and offers you a unique exposure to the entire drug discovery and development cascade while keeping patients' needs at the forefront of the learning process.

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The MSc in Cancer Biology is for students who wish to gain an advanced education and training in the biological sciences, within the context of a disease that affects a large proportion of the global population. Read more
The MSc in Cancer Biology is for students who wish to gain an advanced education and training in the biological sciences, within the context of a disease that affects a large proportion of the global population.

The programme provides training in the modern practical, academic and research skills that are used in academia and industry. Through a combination of lectures, small-group seminars and practical classes, students will apply this training towards the development of new therapies.

The programme culminates with a research project that investigates the molecular and cellular basis of cancer biology or the development of new therapies under the supervision of active cancer research scientists.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/226/cancer-biology

About the School of Biosciences

The School of Biosciences is among the best-funded schools of its kind in the UK, with current support from the BBSRC, NERC, MRC, Wellcome Trust, EU, and industry. It has 38 academic staff, 56 research staff (facility managers, research fellows, postdoctoral researchers and technicians), approximately 100 postgraduate students and 20 key support staff. The school's vibrant atmosphere has expanded to become a flourishing environment to study for postgraduate degrees in a notably friendly and supportive teaching and research environment.

Research in the School of Biosciences revolves around understanding systems and processes in the living cell. It has a strong molecular focus with leading-edge activities that are synergistic with one another and complementary to the teaching provision. Our expertise in disciplines such as biochemistry, microbiology and biomedical science allows us to exploit technology and develop groundbreaking ideas in the fields of genetics, molecular biology, protein science and biophysics. Fields of enquiry encompass a range of molecular processes from cell division, transcription and translation through to molecular motors, molecular diagnostics and the production of biotherapeutics and bioenergy.

In addition to research degrees, our key research strengths underpin a range of unique and career-focused taught Master’s programmes that address key issues and challenges within the biosciences and pharmaceutical industries and prepare graduates for future employment.

Course structure

Each one-hour lecture is supplemented by two hours of small-group seminars and workshops in which individual themes are explored in-depth. There are practical classes and mini-projects in which you design, produce and characterise a therapeutic protein with applications in therapy.

In additional to traditional scientific laboratory reports, experience will be gained in a range of scientific writing styles relevant to future employment, such as literature reviews, patent applications, regulatory documents, and patient information suitable for a non-scientific readership.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

BI830 - Science at Work (30 credits)
BI836 - Practical and Applied Research Skills for Advanced Biologists (30 credits)
BI837 - The Molecular and Cellular Basis of Cancer (15 credits)
BI838 - Genomic Stability and Cancer (15 credits)
BI840 - Cancer Therapeutics: From the Laboratory to the Clinic (15 credits)
BI857 - Cancer Research in Focus (15 credits)
BI845 - MSc Project (60 credits)

Assessment

The programme features a combination of examinations and practically focused continuous assessment, which gives you experience within a range of professional activities, eg, report writing, patent applications and public health information. The assessments have been designed to promote employability in a range of professional settings.

Programme aims

This programme aims to:

- provide an excellent quality of postgraduate-level education in the field of cancer, its biology and its treatment

- provide a research-led, inspiring learning environment

- provide a regional postgraduate progression route for the advanced study of a disease that affects a high proportion of the population

- promote engagement with biological research into cancer and inspire you to pursue a scientific career inside or outside of the laboratory

- develop subject specific and transferable skills to maximise employment prospects

- promote an understanding of the impact of scientific research on society and the role for scientists in a range of professions.

Research areas

Research in the School of Biosciences is focused primarily on essential biological processes at the molecular and cellular level, encompassing the disciplines of biochemistry, genetics, biotechnology and biomedical research.

The School’s research has three main themes:

- Protein Science – encompasses researchers involved in industrial biotechnology and synthetic biology, and protein form and function

- Molecular Microbiology – encompasses researchers interested in yeast molecular biology (incorporating the Kent Fungal Group) and microbial pathogenesis

- Biomolecular Medicine – encompasses researchers involved in cell biology, cancer targets and therapies and cytogenomics and bioinformatics.

Each area is led by a senior professor and underpinned by excellent research facilities. The School-led development of the Industrial Biotechnology Centre (IBC), with staff from the other four other schools in the Faculty of Sciences, facilitates and encourages interdisciplinary projects. The School has a strong commitment to translational research, impact and industrial application with a substantial portfolio of enterprise activity and expertise.

Careers

A postgraduate degree in the School of Biosciences is designed to equip our graduates with transferable skills that are highly valued in the workplace. Our research-led ethos ensures that students explore the frontiers of scientific knowledge, and the intensive practical components provide rigorous training in cutting edge technical skills that are used in the modern biosciences while working in areas of world-leading expertise within the School.

Destinations for our graduates include the leading pharmaceutical and biotechnological companies within the UK and leading research institutes both at home and abroad.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply-online/226

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This MSc is the only programme in the UK entirely focused on the imaging of cancer and has been purpose-built to meet a demand for expert researchers and clinicians. Read more

This MSc is the only programme in the UK entirely focused on the imaging of cancer and has been purpose-built to meet a demand for expert researchers and clinicians. Medical imaging is central to the management of cancer, and this course has been designed to cover all aspects of imaging, from basic physics to image analysis. It also aims to give a solid grounding in current concepts of cancer biology and therapy as they apply ‘bench to bedside’.

Designed in close collaboration with a leading team of radiologists, medical physicists, oncologists and research specialists, the programme takes a theoretical and a practical approach to ensure it provides you with the specialist knowledge and skills required.

A key part of the programme is the study of real patient data and there are opportunities for project work in state-of-the-art clinical facilities for oncology imaging at both Hull Royal Infirmary and Castle Hill Hospital. You can also undertake preclinical research in the University's PET (Positron Emission Tomography) Research Centre, a recently completed cutting edge facility that hosts the only research-dedicated cyclotron in the UK, along with extensive radiochemistry provision and preclinical PET-CT and SPECT-CT scanners.

Study information

You study the basic theory and practice of image analysis and interpretation as well as advanced research applications. Students obtain a deep appreciation of the importance of image analysis as a discipline in the generation of scientific data that underpins patient management.

You gain an understanding of imaging theory, technology and application as relates to clinical practice across modalities, and of the biology of cancer as manifested in the clinic, integrated with key physiological and pharmacological concepts.

The programme aims to give graduate students from a range of backgrounds an understanding of imaging theory, an overview of the current understanding of cancer and how this underlies the use of imaging in patient management and the assessment of cancer treatments.

The programme comprises a combination of lectures, state-of-the-art computer-based image analysis, practical work, and projects supported by 'problem classes', workshops and tutorials.

A 12-week cancer imaging research project, carried out in the laboratory of an internationally-recognised cancer imaging scientist or clinician, is a key part of the course.

Programme Content:

  • Introduction to Cancer Imaging
  • Research Skills
  • Imaging Modalities I
  • Imaging Modalities II
  • Image Analysis
  • Organ-Specific Cancers: Bench-to-Bedside
  • Research Project and Dissertation 

* All modules are subject to availability.

Future prospects

This MSc is designed for recent graduates who wish to pursue a career in medical imaging with a cancer focus.

The coverage of all aspects of medical imaging used in the management of cancer patients, from the basic physics through to clinical practice as seen in a modern UK NHS radiology department, also make it suitable for professionals working towards clinical qualification as well as those already qualified.

The programme is also the ideal pathway for biomedical science graduates or physicists who wish to develop their biological understanding of this disease prior to PhD study or employment in industry. Students will become independent life-long learners and scientific investigators with an ability to communicate across all disciplines involved with imaging.



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This exciting new course is designed to equip future scientists with the knowledge to make a difference in the understanding and treatment of cancer. Read more
This exciting new course is designed to equip future scientists with the knowledge to make a difference in the understanding and treatment of cancer. The course will take the mechanistic understanding of cancer biology and apply it to the analysis of risk, prevention, diagnosis, prognosis and therapy. Building on a foundation of the understanding of basic cancer cell biology, translational coverage will consider design of treatment modalities, mechanisms of action of anti-cancer drugs, therapy resistance and biomarker discovery. The course will allow the students to gain expertise and knowledge in therapy, cancer chemoprevention, anti-cancer target discovery, clinical trials, imaging, cancer risk and epidemiology and biostatistics. A key component of the course is a five/six-month research project, which will give students an opportunity to study one of these areas in depth.

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This Master's degree in Cell and Gene Therapy provides an in-depth education in this cutting-edge and rapidly developing field. Read more

This Master's degree in Cell and Gene Therapy provides an in-depth education in this cutting-edge and rapidly developing field. It is delivered by scientists and clinicians researching, developing and testing new treatments for genetically inherited and acquired diseases using gene delivery technology, stem cell manipulation and DNA repair techniques.

About this degree

The degree covers all aspects of the subject, including basic biomedical science, molecular basis of disease, current and developing technologies and clinical applications. Students also receive vocational training in research methodology and statistics, how to perform a research project and complete a practical laboratory-based project.

Students undertake modules to the value of 180 credits.

The programme consists of four core modules (60 credits), four optional modules (60 credits) and a research dissertation (60 credits).

A Postgraduate Diploma (120 credits, full-time nine months or flexible up to five years) is offered

A Postgraduate Certificate (60 credits, full-time 12 weeks, part-time nine months, or up to two years flexible) is offered.

Core modules

  • Molecular Aspects of Cell and Gene Therapy
  • Clinical Applications of Cell and Gene Therapy
  • Research Methodology and Statistics
  • Stem Cell and Tissue Repair

Research Methodology and Statistics is not a core module for the PG Certificate. Students of the PG Certificate can choose an optional module.

Optional modules

  • Foundations of Biomedical Sciences
  • Applied Genomics
  • HIV Frontiers from Research to Clinics
  • Molecular and Genetic Basis of Paediatric Disease
  • Understanding Research and Critical Appraisal: Biomedicine
  • Laboratory Methods in Biomedical Science
  • Research Methodology and Statistics

Dissertation/report

All MSc students undertake an independent research project which culminates in a dissertation.

Teaching and learning

Teaching includes lectures, seminars, problem classes and tutorials. Assessment varies depending on the module, but includes written coursework, multiple-choice questions, written examinations, a practical analysis examination and the dissertation of up to 10,000 words

Further information on modules and degree structure is available on the department website: Cell and Gene Therapy MSc

Careers

This programme aims to equip students for careers in research, education, medicine and business in academic, clinical and industrial settings. Examples of potential careers could include academic research and/or lecturing in a university or other higher education setting, conducting clinical trials as part of a team of clinicians, scientists and allied health professionals, monitoring and analysing the results of clinical trials as part of a clinical trials unit, developing new therapies or intellectual property in the pharmaceutical industry or other business ventures.

Several of our graduates have gone on to secure PhD places. You can read testimonials from past students which include their destinations following graduation.

Recent career destinations for this degree

  • Biomedical Scientist, Science Health Society
  • Post-Doctoral Fellow, University of London
  • PhD in Cell and Gene Therapy, UCL
  • Research Assistant, The Magdi-Yacoub Institute / Heart Science
  • Scientist, Unspecified Pharmaceuticals Company

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

The UCL Great Ormond Street Institute of Child Health (UCL GOS ICH), and its clinical partner Great Ormond Street Hospital (GOSH), is the largest centre in Europe devoted to clinical, basic research and postgraduate education in children's health, including haematopoietic stem cell transplantation (HSCT) and gene therapy.

The UCL School of Life & Medical Sciences (SLMS) has the largest concentration of clinicians and researchers active in cell and gene therapy research in Europe. This is reflected by the many groups conducting high-quality research and clinical trials in the field including researchers at UCL GOS ICH, the Division of Infection & Immunity, the Institute of Ophthalmology, the Institute for Women's Health, the Institute of Genetics and the Cancer Institute.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Great Ormond Street Institute of Child Health

80%: Clinical Medicine subjects; 81%: Public Health, Health Services and Primary Care subjects rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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The use of chemotherapeutic agents to target and kill cancer cells is a central strategy in the treatment of cancers. This course describes the nature of the disease at the systems, cellular and molecular levels, and focuses on the drugs which are used to treat different cancers and on how they work. Read more
The use of chemotherapeutic agents to target and kill cancer cells is a central strategy in the treatment of cancers. This course describes the nature of the disease at the systems, cellular and molecular levels, and focuses on the drugs which are used to treat different cancers and on how they work.

More about this course

Worldwide the incidence of cancer is increasing, and is expected to reach 22 million new cases per year by 2030. In addition to treatments such as radiotherapy and surgery, chemotherapy has a vital role to play in prolonging the lives of patients.

The aims of this course are to:
-Provide you with an in-depth understanding of the molecular targets at which the different classes of anticancer drugs are aimed, and of how drug therapies are evolving;
-Review the biology of cancer with respect to genetics, pathological considerations, and the molecular changes within cells which are associated with the progression of the disease;
-Enhance intellectual and practical skills necessary for the collection, analysis, interpretation and understanding of scientific data;
deliver a programme of advanced study to equip you for a future career in anti-cancer drug development.

Assessment is a combination of coursework, which includes tests and essays, the research project and its oral defence and examination.

Modular structure

The modules listed below are for the academic year 2016/17 and represent the course modules at this time. Modules and module details (including, but not limited to, location and time) are subject to change over time.

Year 1 modules include:
-Cancer Pharmacology (core, 20 credits)
-Cancer: Diagnosis and Therapy (core, 20 credits)
-Medical Genetics (core, 20 credits)
-Molecular Oncology (core, 20 credits)
-Research Project (core, 60 credits)
-Scientific Frameworks for Research (core, 20 credits)
-Advanced Drug Formulation Technologies (option, 20 credits)
-Bioinformatics and Molecular Modelling (option, 20 credits)
-Drug Discovery Technology (option, 20 credits)

After the course

This course is primarily designed for those wishing to pursue a career in anti-cancer drug development, whether in academia or within the pharmaceutical industry. The programme provides an excellent basis for further research or study.

Moving to one campus

Between 2016 and 2020 we're investing £125 million in the London Metropolitan University campus, moving all of our activity to our current Holloway campus in Islington, north London. This will mean the teaching location of some courses will change over time.

Whether you will be affected will depend on the duration of your course, when you start and your mode of study. The earliest moves affecting new students will be in September 2017. This may mean you begin your course at one location, but over the duration of the course you are relocated to one of our other campuses. Our intention is that no full-time student will change campus more than once during a course of typical duration.

All students will benefit from our move to one campus, which will allow us to develop state-of-the-art facilities, flexible teaching areas and stunning social spaces.

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This Occupational Therapy pathway is part of the MSc Advanced Professional Practice programme, which enable students to develop and enhance their professional practice. Read more
This Occupational Therapy pathway is part of the MSc Advanced Professional Practice programme, which enable students to develop and enhance their professional practice.

Who is it for?
You are a qualified occupational therapist who wishes to take your professional knowledge and skills to an advanced level of practice in order to enhance your career prospects and extend your perspective on professional practice.

About the Course
The University of Northampton boasts one of the longest established Occupational Therapy Schools in the UK and has a very highly regarded professional reputation. The course will be delivered by University staff and a range of external speakers, bringing their own experience and current research to your learning. University staff have extensive experience of international teaching and learning and offer a structured international induction including diagnostic assessment, online and face to face support. The course will encourage you to develop a critical, research and evaluative approach to the knowledge which underpins present-day professional practice and evidence-based decisions. Current issues within occupational therapy practice will be considered critically and explored in relation to occupational science.

Course content

You will study six compulsory modules, one of which is a Professional research project, plus one designated module that you will choose from a selection.

Full time delivery of the MSc Advanced Professional Practice (Occupational Therapy) is over one calendar year.

Course modules (16/17)

-Advanced Skills
-Research Methods: Philosophy and Study Design
-Rehab and Recovery
-Implementing Innovative Change in Practice
-Professional Project
-Valuing Professional Experience
-The Stroke Journey
-Leading People in Health and Social Care Organisations
-Medical Law
-Living with Cancer and Beyond Cancer
-Physical Healthcare of Older Adults
-Working with Older Adults: Mental Wellbeing
-Advanced Dementia Care
-Enabling Others in Mentoring, Practice Teaching and Assessment
-Assessing and Managing Risk in Child Protection
-Working with Complex Parenting Behaviour
-Planning and Supporting Permanence

Methods of Learning

The course begins in September each year and takes 12 months to complete. You will attend lectures, seminars and workshops throughout three taught trimesters with a period of supported independent study in trimester three whilst you complete your Professional Project with the support of an allocated supervisor.

Assessments

A range of assessment strategies are used across modules to develop critical thinking and applying it to your practice setting. Typical assessments include essays, case studies, critical reflections and presentations.

Facilities and Special Features

This masters programme is part of the MSc Advanced Professional Practice:
-A unique masters degree to enhance improve your professional skills which will benefit you and your employer.
-The Valuing Professional Experience module, allowing you to demonstrate the value of your professional experience which can provide up to 60 points toward your overall masters.

Careers

This award can be configured through module choices and personal tutor guidance to focus your career development, occupational therapy practice, management, research and education.

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This course will provide an in-depth understanding of the disease processes involved in malignancy and the opportunity to explore the scientific rationale for various therapeutic options. Read more
This course will provide an in-depth understanding of the disease processes involved in malignancy and the opportunity to explore the scientific rationale for various therapeutic options. It will allow you to link academic knowledge with the practical applications of cancer biology, with a focus on the latest advances in this field. This course is, therefore, excellent preparation for a wide variety of careers in hospital laboratories, commercial laboratories, cancer research, pharmaceutical companies and academic institutions.

-You will be taught by active researchers and expert practitioners, and have the opportunity to work in industry with companies like GlaxoSmithKline, or at a research institute, such as the Institute of Cancer Research.
-Your research project can be carried out with one of our research groups or as part of an industrial placement (if you are a part-time student) at your place of work.
-Flexible study options (such as single modules) can be taken as part of a continuing professional development (CPD) programme.

What will you study?

You will be trained in science research methods and learn about the techniques used in molecular biology. You will study the biology of disease, tumour biology, immunology, molecular oncology, haematological malignancy, plus diagnostic and therapeutic techniques for cancer.

In addition to developing a comprehensive understanding of the principles and practice of core topics in current areas of medical science, you will gain an in-depth knowledge of oncology topics – and their relationship to other medical disciplines. You will also learn how to plan, carry out and report on a piece of independent scientific research.

Assessment

Coursework, written exam, research project.

Work placement scheme

Kingston University has set up a scheme that allows postgraduate students in the Faculty of Science, Engineering and Computing to include a work placement element in their course starting from September 2017. The placement scheme is available for both international and home/EU students.
-The work placement, up to 12 months; is optional.
-The work placement takes place after postgraduate students have successfully completed the taught portion of their degree.
-The responsibility for finding the placement is with the student. We cannot guarantee the placement, just the opportunity to undertake it.
-As the work placement is an assessed part of the course for international students, this is covered by a student's tier 4 visa.

Details on how to apply will be confirmed shortly.

Course structure

Please note that this is an indicative list of modules and is not intended as a definitive list.

Modules
-Cellular and Molecular Biology of Cancer
-Immunology and the Biology of Disease
-Cancer Diagnosis and Therapy
-Research Techniques and Scientific Communication
-Research Project

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The School is equipped with a range of state-of-the-art equipment, which would help provide relevant practical experience for the students. Read more
The School is equipped with a range of state-of-the-art equipment, which would help provide relevant practical experience for the students. Therefore the course aims to help students develop the necessary knowledge and practical skills to work in various areas within the pharmaceutical industry, including formulation, regulatory, and analytical services. Students will have a holistic view on the drug development process and be able to solve common pharmaceutical problems by critically evaluating and discussing the scientific literature.

The course is offered on a one year full-time basis, taught over three terms. It includes six taught modules in the first two terms in which all lecture material will be provided on our VLE to enable access.

INDUSTRY LINKS

GSK, Quay Pharma, Rosemont Pharmaceuticals Ltd. and MHRA etc.

LEARNING ENVIRONMENT AND ASSESSMENT

The MSc programme is delivered not only via the conventional means of face-to-face lectures, workshops, tutorials and seminars, but the use of online technologies such as videos and discussion forum would also help integrate students’ learning into their normal daily activities.

Practical classes, problem-based-learning exercises related to industrial challenges and reflective activities throughout the course would also help develop students’ ability to solve pharmaceutical problems practically and provide students an opportunity to apply their knowledge into practice, particularly in relation to the need for appropriate formulation design and development, and how these factors affect clinical outcomes in practice.

A variety of assessment methods will be used for this MSc course, including essays, oral presentations, posters, written examinations and laboratory reports.

OPPORTUNITIES

Students on the course have opportunities to visit our industrial collaborators who specialise in liquid and solid dosage forms, which aim to provide an insight to students about the pharmaceutical industry and the various roles available in industry. Guest lectures and workshops provided at UCLan from the pharmaceutical industry and regulatory bodies also supplement the various modules studied in the course.

Graduate careers include: formulation scientist, PhD research student, and quality control technician.

Graduates may apply for further PhD study at UCLan or other institutions following completion of the MSc Programme. Alternatively, graduates aim to find jobs in the pharmaceutical industry as a formulation scientist, regulatory affairs officer and other roles in industry.

Eligible students may also be able to conduct their MSc research project in collaboration with an industrial partner in semester 3 as part of their MSc studies. This could be in the UK or overseas, subject to availability and agreement with the industrial organisation.

FACILITIES

The specifically designed Pharmaceutical Sciences laboratories have excellent facilities to carry out teaching and research in pharmaceutical sciences. For example, a single-punch tablet press and powder encapsulation equipment help provide practical experience of small scale solid dosage form manufacturing. Other specialist equipment such as coating and spray drying instrument also help enhance students’ learning experience at the University. The characterisation of various dosage forms in accordance to the BP or USP methods can also be carried out using dissolution, disintegration, friability testers etc.

Various advanced drug delivery devices for pulmonary, oral and transdermal applications are also available for both teaching and research at the School. Students would also be able to use the superb analytical instrument available at the University for their practical classes and research project.

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