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Masters Degrees (Human Reproductive Biology)

We have 21 Masters Degrees (Human Reproductive Biology)

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The Graduate School of Heath Sciences of Koç University offers a 2-year MSc program in reproductive biology and a 4-year PhD program in reproductive medicine… Read more
The Graduate School of Heath Sciences of Koç University offers a 2-year MSc program in reproductive biology and a 4-year PhD program in reproductive medicine, both of which aim to provide modern up-to-date biological research in the field of reproductive sciences at molecular and cellular levels in an inspiring, challenging and vibrant research atmosphere, at the interface between basic science and clinical patient care.

A thorough understanding of reproductive functioning in both sexes at molecular level using a wide range of experimental models, and studying at translational level a number of important problems associated with human reproductive health and disease in testis, ovary, the uterus during the menstrual cycle and throughout pregnancy and labour, in the fetus and neonate, and in fetal programming resulting in increased risk of chronic disease in adulthood are the major goals of the programmes.

As a result of rapid advances in life science technology and medicine at molecular level, reproductive sciences have evolved into four different disciplines as Reproductive biology, Reproductive endocrinology (Embryology and assisted reproduction technologies), Reproductive immunology and Reproductive genetics. Both MSc and PhD students will undertake some core teaching and conduct research projects, performed on this very wide range of research fields within the reproductive sciences.

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Research profile. Read more

Research profile

This one-year, full-time MSc by Research programme aims to introduce students to modern up-to-date molecular and cellular biological research in the field of reproductive sciences, reproductive health and reproductive medicine in a stimulating, challenging and vibrant research atmosphere, at the interface between basic science and clinical patient care.

The programme is intended for high-calibre students with biological science, medical or veterinary backgrounds.

It is advised that you contact the Programme Director, Dr Richard Smith, prior to making your application to ensure this programme meets your academic aims.

The main components of the programme are two 20-week research projects, performed on a very wide range of research fields within the reproductive sciences.

Topics that can be offered include using a wide range of models and in human, studying a number of important problems associated with human reproductive health and disease in testis, ovary, the uterus during the menstrual cycle and throughout pregnancy and labour, in the fetus and neonate, and in fetal programming resulting in increased risk of chronic disease in adulthood.

The MRC Centre for Reproductive Health has arranged its research under four themes:

  1. Reproductive Resilience, Proliferation, Differentiation, Repair
  2. Reproductive system cancers: aetiology, pathogenesis and therapy
  3. Optimising Lifelong Health Through Pregnancy and Perinatal Interventions
  4. Immune-endocrine interactions in reproductive health

These theme titles illustrate some of the remarkable properties that make reproductive systems such relevant and powerful models for translational studies across a wide spectrum of human diseases and pathologies in other systems.

The MRC Centre for Reproductive Health (CRH) has close links with other internationally recognised research centres in the Queen’s Medical Research Institute QMRI and elsewhere in Edinburgh, with the Edinburgh Royal Infirmary, the Veterinary School, the University of Edinburgh science campus and the Royal Zoological Society of Scotland.

Many student projects are organised with and between these centres, reflecting the interdisciplinary research environment, where students and trainees are regarded as the ‘lifeblood’ for the future.

Programme structure

The programme provides a core grounding in basic science and interlinked medical aspects of reproductive sciences. It is delivered by undertaking a two-week basic core laboratory skills training course, followed by gaining practical experience by performing two 20 week laboratory-based research projects.

These research projects provide you with hands-on laboratory experience and training in a wide range of up-to-date techniques in molecular and cellular biology. Students also gain a wide range of generic professional and scientific skills such as developing effective communication skills, and scientific writing through project reports and a grant application.

Alongside the project work there is a series of lecture modules and seminars delivered by internationally-recognised experts in the field, together with both staff and student-led small group tutorials.

Career opportunities

This programme is the ideal route for those wishing to embark on a PhD, or in a technical laboratory role, in the field of Reproductive Health, spanning the biosciences, clinical and veterinary fields.

The broad range of skills gained is also readily transferable into careers at the clinical-laboratory interface and in the broader biosciences industry opportunities.

This programme does not amount to specific training to become a clinical embryologist.



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Lead academic 2016. Dr Mark Fenwick. The course provides training in reproductive and developmental medicine for scientists, clinicians and others, for instance ethical advisers or lawyers looking to specialise. Read more

About the course

Lead academic 2016: Dr Mark Fenwick

The course provides training in reproductive and developmental medicine for scientists, clinicians and others, for instance ethical advisers or lawyers looking to specialise. It’s a good platform for a research career or a career in clinical laboratory training for IVF or embryology.

Through the taught modules you’ll develop a solid understanding of reproductive science relevant to clinical applications. We cover the breadth of processes from gonadal development and production of gametes through to pregnancy and parturition. Each module is taught by leading scientists and clinicians in that field.

You’ll also have the opportunity to learn about the ethical issues and international laws regulating reproductive medicine. Finally, you’ll undertake a research project to develop a depth of knowledge in a specialist topic.

Our study environment

You’ll be based in teaching hospitals that serve a population of over half a million people and refer a further two million. We also have close links with the University’s other health-related departments.

Our research funding comes from many sources including the NIHR, MRC, BBSRC, EPSRC, the Department of Health, EU, and prominent charities such as the Wellcome Trust, ARC, YCR, Cancer Research UK and BHF. Our partners and sponsors include Novartis, GlaxoSmithKline, Pfizer, Astra Zeneca and Eli Lilly.

You’ll also benefit from our collaboration with the Department of Biomedical Sciences.

How we teach

Classes are kept small (15–20 students) to make sure you get the best possible experience in laboratories and in clinical settings.

Our resources

We have a state-of-the-art biorepository and a £30m stem cell laboratory. The Sheffield Institute of Translational Neuroscience (SITraN) opened in November 2010. We also have microarray, genetics, histology, flow cytometry and high-throughput screening technology, and the latest equipment for bone and oncology research.

At our Clinical Research Facility, you’ll be able to conduct studies with adult patients and volunteers. The Sheffield Children’s Hospital houses a complementary facility for paediatric experimental medical research.

Hepatitis B policy

If your course involves a significant risk of exposure to human blood or other body fluids and tissue, you’ll need to complete a course of Hepatitis B immunisation before starting. We conform to national guidelines that are in place to protect patients, health care workers and students.

Core modules

Research Skills in Reproductive Medicine; Gonads to Gametes: fundamentals of reproduction; Fertilisation, Implantation and Embryology; Fetal Development, Pregnancy and Parturition; Reproductive Technology and Infertility; Law, Ethics and Policy in Reproductive Medicine.

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This vocational training programme is for recent biology, biomedical, biochemistry and medical graduates who want to develop a career in the field of clinical embryology and assisted reproductive technology (ART) and/or the associated reproductive sciences. Read more

This vocational training programme is for recent biology, biomedical, biochemistry and medical graduates who want to develop a career in the field of clinical embryology and assisted reproductive technology (ART) and/or the associated reproductive sciences. It provides a detailed knowledge of the underpinning theory and practices and is a laboratory-based science degree not a clinically-based infertility treatment course.

The programme emphasises all aspects of practical training for clinical embryology and assisted reproduction technology. You’ll receive hands-on training from specialist practitioners in andrology, gamete handling, IVF, ICSI, embryo culture, gamete and embryo freezing, vitrification and biopsy and will interact with established, clinical embryologists and reproductive medicine specialists. You’ll also be trained in research methods.

You will be part of a world-renowned School, being taught by and working with internationally recognised scholars.

More information

The programme has been developed by the Division of Reproduction and Early Development within the Leeds Institute of Genetics, Health and Therapeutics, in association with the clinicians and embryologists working at the Leeds Centre of Reproductive Medicine in the Leeds NHS Trust. The programme leaders have over 20 years of experience of training clinical embryologists, reproductive medicine practitioners and reproductive scientists.

You can also study this subject at Postgraduate Diploma level. 

Through a series of compulsory modules you’ll learn about:

  • the cell and molecular biology of human reproduction, fertility, andrology and embryology
  • the management and efficient running of an ART laboratory
  • the practices, genetic and epigenetic concepts of micromanipulation and techniques, such as intracytoplasmic sperm injection (ICSI) and pre-implantation genetic diagnosis (PGD)
  • advances in cryobiology and its application to gamete and embryo freezing and fertility preservation.

The programme also gives you valuable insights into the theory underpinning clinical treatments and the ethical and legal controversies surrounding assisted reproduction in humans.

Course structure

Compulsory modules

  • Research in Reproduction, Embryology & Assisted Reproduction Technology 60 credits
  • Fundamentals of Clinical Embryology 45 credits
  • IVF and Embryo Culture 35 credits
  • Micromanipulation 15 credits
  • Cryobiology and Cryopreservation 15 credits
  • Ethics and Law for Embryologists 10 credits

Learning and teaching

The programme is delivered using a blended learning approach, which combines lectures, seminars, tutorials, interactive group discussions, presentations and problem-based-learning sessions or case studies, with self-directed learning.

Theoretical training is complemented by the original research conducted by the student and by an extensive series of laboratory-based ART practical and skills training sessions.

The course content is enhanced by extensive online resources and the provision of printed versions of all module workbooks, as appropriate.

Assessment

Course assessments will include essays, presentations, projects, practical log books, a research dissertation and examinations.

Career opportunities

The Clinical Embryology and Associated Reproductive Technology MSc equips graduates to pursue a career in human assisted reproduction (eg clinical embryology, infertility treatment) and/or research in the reproductive sciences.

Careers support

We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.

The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.




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This vocational training programme is for recent biology, biomedical, biochemistry and medical graduates who want to develop a career in the field of clinical embryology and assisted reproductive technology (ART) and/or the associated reproductive sciences. Read more

This vocational training programme is for recent biology, biomedical, biochemistry and medical graduates who want to develop a career in the field of clinical embryology and assisted reproductive technology (ART) and/or the associated reproductive sciences. It provides a detailed knowledge of the underpinning theory and practices and is a laboratory-based science degree not a clinically-based infertility treatment course.

The programme emphasises all aspects of practical training for clinical embryology and assisted reproduction technology. You’ll receive hands-on training from specialist practitioners in andrology, gamete handling, IVF, ICSI, embryo culture, gamete and embryo freezing, vitrification and biopsy and will interact with established, clinical embryologists and reproductive medicine specialists.

You will be part of a world-renowned School, being taught by and working with Internationally recognised scholars.

More information

The programme has been developed by the Division of Reproduction and Early Development within the Leeds Institute of Genetics, Health and Therapeutics, in association with the clinicians and embryologists working at the Leeds Centre of Reproductive Medicine in the Leeds NHS Trust. The programme leaders have over 20 years of experience of training clinical embryologists, reproductive medicine practitioners and reproductive scientists.

You can also study this subject at Master of Science level.

Course content

Through a series of compulsory modules you’ll learn about:

  • the cell and molecular biology of human reproduction, fertility, andrology and embryology
  • the management and efficient running of an ART laboratory
  • the practices, genetic and epigenetic concepts of micromanipulation and techniques, such as intracytoplasmic sperm injection (ICSI) and pre-implantation genetic diagnosis (PGD)
  • advances in cryobiology and its application to gamete and embryo freezing and fertility preservation.

The programme also gives you valuable insights into the theory underpinning clinical treatments and the ethical and legal controversies surrounding assisted reproduction in humans.

Course structure

Compulsory modules

  • Fundamentals of Clinical Embryology 45 credits
  • IVF and Embryo Culture 35 credits
  • Micromanipulation 15 credits
  • Cryobiology and Cryopreservation 15 credits
  • Ethics and Law for Embryologists 10 credits

For more information on typical modules, read Clinical Embryology and Assisted Reproduction Technology PGDip in the course catalogue

Learning and teaching

The programme is delivered using a blended learning approach, which combines lectures, seminars, tutorials, interactive group discussions, presentations and problem-based-learning sessions or case studies, with self-directed learning.

Theoretical training is complemented by a small number of laboratory-based practical sessions.

The course content is enhanced by extensive online resources and the provision of printed versions of all module workbooks.

Assessment

Course assessments will include essays, presentations, projects, practical log books, a research dissertation and examinations.

Career opportunities

The Clinical Embryology and Associated Reproductive Technology PGDip will educate graduates who want to pursue a career in human assisted reproduction (eg clinical embryology, infertility treatment) and/or research in the reproductive sciences.

Careers support

We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.

The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.



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This one year, residential, taught M.Sc. Read more

This one year, residential, taught M.Sc. provides graduate students, scientists and clinicians with highly advanced theoretical and practical understanding of human reproductive biology, embryology, infertility and assisted reproductive technology (ART) along with intensive ‘hands-on’ practical training in essential laboratory skills and the sophisticated gamete micromanipulation techniques associated with ART. The MSc course is based alongside Oxford Fertility in purpose-built premises, the Institute of Reproductive Sciences, with dedicated state-of-the-art teaching and research facilities.

Course Aims

Our broad intention is to inspire, motivate and train a network of future leaders in clinical embryology throughout the world. Additionally, our students benefit from intensive training in a range of laboratory skills highly suitable for a research career in reproductive science.

Course Structure

The course runs over a period of one year, from October to September, incorporating the three University terms: Michaelmas, Hilary and Trinity. Fundamental reproductive science and laboratory methods/practical skills are taught in the first term (Michaelmas) over five discrete modules. Applied and clinical aspects are delivered in the second term (Hilary) over a further set of five modules. Each module is delivered over a period of one to three weeks and together, the ten modules comprise the ‘core content’ of the course. The third term (Trinity) is extended to allow sufficient time for a high quality research project.

Application Deadline

The deadline for applications for the MSc in Clinical Embryology starting in October 2018 is 12 noon (midday) GMT on Monday 8th January 2018. Please see our Graduate Admissions page for further details: http://www.ox.ac.uk/admissions/graduate/courses/msc-clinical-embryology



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If you are passionate about a career in embryology, this course is for you. Read more
If you are passionate about a career in embryology, this course is for you. The Intensive Master of Clinical Embryology course (MCE) has gained global recognition as a training program for all assisted reproductive technologies (ART), producing high calibre embryologists, with the excellent knowledge and practical skills to eventually work in, and manage, human ART clinics. MCE is offered both on-campus (one year full time) and off-campus (restricted entry, full or part-time) to domestic and international students

Your studies will include the foundations of mammalian embryology, detailed assessment of all infertility treatment strategies, the theoretical basis behind embryo production, embryo selection and cryopreservation, focussing on all current and future technologies associated with ART. There are 3 units dedicated to Total Quality Management, Preimplantation Diagnosis and Ethics. Most importantly, we are equipped to teach all the practical skills required of andrologists and embryologists, beginning with sperm and embryo handling and assessment, and slowly building skills though learning in vitro fertilisation techniques, the latest cryopreservation techniques, such as vitrification of gametes and embryos finally finishing the year with ICSI and biopsy. While learning the practical skills, students are also given opportunities to visit ART clinics within Australasia and worldwide and all encouraged to attend ART industry conferences. Students engage in research projects that are designed to enhance practical and research skills, while assessments throughout the year are designed to measure the competency of students in theoretical, practical and research disciplines.

Visit the website http://www.study.monash/courses/find-a-course/2016/clinical-embryology-2309?domestic=true

Overview

This 12-month, intensive course provides students with the essential postgraduate knowledge and practical skills necessary to contribute competently to human infertility clinical services. Theoretical and practical skills are presented in the broad context of the regulations and the ethical considerations that apply to human IVF, both nationally and internationally, along with the quality control procedures required to ensure maximum success for IVF patients. The guidelines, protocols and regulations that steer and control human infertility services are also presented. In addition to attending lectures and self-directed study, students are required to undertake continual practical skills training and also students will undertake a minor research project. Students will not only be equipped with practical skills required for work in an IVF laboratory but also gain a greater understanding of research applications within the field of reproductive or developmental biology. Research-related tasks contribute to the overall assessment for specific coursework units.

Career opportunities

On completion of this course graduates may gain employment as clinical embryologists, or work in laboratories in embryology, health, in vitro fertilisation (IVF), or in related jobs within the reproductive biology field.

For more information visit the faculty website - http://www.study.monash/media/links/faculty-websites/medicine

Faculty of Medicine, Nursing and Health Sciences

The Faculty is also home to a number of leading medical and biomedical research institutes and groups, and has contributed to advances in many crucial areas: in vitro fertilisation, obesity research, drug design, cardiovascular physiology, functional genomics, infectious diseases, inflammation, psychology, neurosciences and mental health.

Notwithstanding the relatively short history of our University, the Faculty is ranked in the top 50 in the world for its expertise in life sciences and biomedicine by the Times Higher Education and QS World University 2012 benchmarks.

Courses offered by the Faculty include medicine, nursing, radiography and medical imaging, nutrition and dietetics,emergency health studies, biomedical sciences, physiotherapy, occupational therapy, and social work. A range of research and coursework postgraduate programs is also offered.

The Faculty takes pride in delivering outstanding education in all courses, in opening students to the possibilities offered by newly discovered knowledge, and in providing a nurturing and caring environment.

Further details may be found at: http://www.med.monash.edu.au/about.html

Find out how to apply here - http://www.study.monash/courses/find-a-course/2016/clinical-embryology-2309?domestic=true#making-the-application

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Biomedical science focuses on our understanding of the human body in health and disease. It's the basic science that underpins medicine and helps us unlock discoveries such as new treatments for cancer patients, innovative advances in reproductive technologies and regenerative medicine. Read more
Biomedical science focuses on our understanding of the human body in health and disease. It's the basic science that underpins medicine and helps us unlock discoveries such as new treatments for cancer patients, innovative advances in reproductive technologies and regenerative medicine.

Over the last twenty years, research into the human genome and molecular processes has revolutionised our understanding of biological systems.

This course is for you if you have a strong interest in modern biology and are keen to study at the forefront of the discipline.

Our MSc programme offers practical and theoretical training in areas associated with the understanding of the human body in health and disease. Examples are drawn from the forefront of biomedical research in our department.

Core modules

Critical Analysis of Current Science
Ethics and Public Awareness of Science
Literature Review
Laboratory Research Project

Examples of optional modules

Tissue Engineering in Biomedical Science
Stem Cell biology
Cancer biology
Epithelia in health and disease
Physiology of ion channels and disease
Membrane Receptors
Sensory Neuroscience
Developmental Neurobiology
Modelling human disease
Practical Cell Biology
Neuroscience Techniques
Practical Developmental Genetics
Practical Physiology and Pharmacology

Teaching

Lectures
Tutorials
Seminars
Practical training
Research training

Assessment

Essays
Debates
Practical work
Exams
Dissertation
Oral presentations

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This a one year (academic) full time course which, upon completion of a course of study leads to an M.Med.Sci Degree in Assisted Reproduction Technology. Read more

Overview

This a one year (academic) full time course which, upon completion of a course of study leads to an M.Med.Sci Degree in Assisted Reproduction Technology. This course provides an avenue for both scientists and clinicians to enter the field of reproductive biology; and for those already familiar with this area, an opportunity to gain greater appreciation of the biological processes of mammalian reproduction that are relevant to the manipulation of fertility and the treatment of reproductive disease.

The course was established in 1993, making it the longest running taught masters in the UK providing full-time training in human ART, and aims to furnish graduates with the theoretical and practical training within this highly specialised discipline. Designed to broaden knowledge of the underlying scientific principles and to enhance appreciation of the clinical management of infertility, it aims to encourage independent thought and a research oriented approach to the practice of assisted conception.

A major feature and strength of this course is that the primary components, in terms of reproductive physiology, research methods, clinical embryology, and clinical medicine are all provided by experts who are highly active within their own areas of expertise, giving the information provided to the students an immediacy and relevance that it would be impossible to achieve using a more static and established teaching base.

The course is studied over a period of one year, full time, and has three basic components:
1) Theoretical and Practical Training modules (95 Credits)
2) Development of Research and Presentation skills and Observation (25 Credits)
3) Research project & dissertation (60 Credits)

Delivery method

The taught component of the course is delivered in the Autumn and Spring semesters through a combination of lectures, practicals, seminars, tutorials and other associated activities, such as journal club and guest speakers.

Approximately one third of the total course duration is dedicated to the construction, preparation and investigation of a laboratory-based research project of up to 15,000 words. This is written up in thesis presentation form.

IMPORTANT NOTE

ALL applicants, especially those from a predominantly clinical background, please note:

• This is a laboratory-based, science degree course and not a clinically based infertility treatment course.
• There is no direct contact with patients or tuition in gynaecological/surgical procedures.
• That although training is given in all laboratory aspects of assisted conception (including semen evaluation, IVF, IVM, ICSI and cryopreservation) in the time available, this training can only represent an introduction to these techniques and those graduates wishing to become clinical embryologists will need further training to become competent in those highly specialised techniques.

Course aims

• To encourage independent thought and a research oriented approach to the practice of assisted conception
• To provide theoretical and practical training in Assisted Reproduction Technology
• To broaden the students knowledge of the underlying scientific basis of ART and clinical management of infertility
• To equip graduates with the ability to pursue a career in assisted conception (e.g. clinical embryology, infertility treatment) and/or research in reproductive biology

Course objectives

• To provide successful candidates with a career path within one of the many disciplines that encompass modern assisted reproduction technology and to this end, students are taught by and given the opportunity to interact with, both full-time reproductive biologists and the consultants, clinical embryologists, andrologists and counsellors.

Requirements

Candidates must normally be graduates of an approved university, or other institution of higher education in medicine, nursing or the biological sciences. Normally the minimum requirement for entry is a 2(ii) degree or equivalent, although candidates with a third class degree may be considered at the Course Directors discretion in special circumstances. If you are not sure if you qualify, please do not hesitate to contact the Course Administrator

Candidates will be required to follow a prescribed course of study for one academic year (two 15-week semesters and summer period)

All candidates will be required to undertake a theoretical and practical training programme. Candidates will also be required to submit a dissertation of not more that 15,000 words on a topic relating to an aspect of Assisted Reproduction agreed by the Director of the Course.

English Language Requirements

International students whose first language is not English must achieve an appropriate level in an approved test in English before they can register.

The requirements for this course are above the University minimum standards and are as follows:

• IELTS minimum score of 6.5 (with no less than 6.0 in any element)
or
• TOEFL iBT 87 (minimum 19 in listening, 20 in speaking and 21 in reading and writing)

Examinations should be taken within two years of registering to study at Nottingham. Completion of a previous degree studied in the English language does not exempt applicants from requiring one of the above English qualifications, unless the degree was taken in a country where the first language is English.

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We invite postgraduate research proposals in a number of disease areas that impact significantly on patient care. We focus on exploring the mechanisms of disease, understanding the ways disease impacts patients’ lives, utilising new diagnostic and therapeutic techniques and developing new treatments. Read more

We invite postgraduate research proposals in a number of disease areas that impact significantly on patient care. We focus on exploring the mechanisms of disease, understanding the ways disease impacts patients’ lives, utilising new diagnostic and therapeutic techniques and developing new treatments.

As a student you will be registered with a University research institute, for many this is the Institute for Cellular Medicine (ICM). You will be supported in your studies through a structured programme of supervision and training via our Faculty of Medical Sciences Graduate School.

We undertake the following areas of research and offer MPhil, PhD and MD supervision in:

Applied immunobiology (including organ and haematogenous stem cell transplantation)

Newcastle hosts one of the most comprehensive organ transplant programmes in the world. This clinical expertise has developed in parallel with the applied immunobiology and transplantation research group. We are investigating aspects of the immunology of autoimmune diseases and cancer therapy, in addition to transplant rejection. We have themes to understand the interplay of the inflammatory and anti-inflammatory responses by a variety of pathways, and how these can be manipulated for therapeutic purposes. Further research theme focusses on primary immunodeficiency diseases.

Dermatology

There is strong emphasis on the integration of clinical investigation with basic science. Our research include:

  • cell signalling in normal and diseased skin including mechanotransduction and response to ultraviolet radiation
  • dermatopharmacology including mechanisms of psoriatic plaque resolution in response to therapy
  • stem cell biology and gene therapy
  • regulation of apoptosis/autophagy
  • non-melanoma skin cancer/melanoma biology and therapy.

We also research the effects of UVR on the skin including mitochondrial DNA damage as a UV biomarker.

Diabetes

This area emphasises on translational research, linking clinical- and laboratory-based science. Key research include:

  • mechanisms of insulin action and glucose homeostasis
  • insulin secretion and pancreatic beta-cell function
  • diabetic complications
  • stem cell therapies
  • genetics and epidemiology of diabetes.

Diagnostic and therapeutic technologies

Focus is on applied research and aims to underpin future clinical applications. Technology-oriented and demand-driven research is conducted which relates directly to health priority areas such as:

  • bacterial infection
  • chronic liver failure
  • cardiovascular and degenerative diseases.

This research is sustained through extensive internal and external collaborations with leading UK and European academic and industrial groups, and has the ultimate goal of deploying next-generation diagnostic and therapeutic systems in the hospital and health-care environment.

Kidney disease

There is a number of research programmes into the genetics, immunology and physiology of kidney disease and kidney transplantation. We maintain close links between basic scientists and clinicians with many translational programmes of work, from the laboratory to first-in-man and phase III clinical trials. Specific areas:

  • haemolytic uraemic syndrome
  • renal inflammation and fibrosis
  • the immunology of transplant rejection
  • tubular disease
  • cystic kidney disease.

The liver

We have particular interests in:

  • primary biliary cirrhosis (epidemiology, immunobiology and genetics)
  • alcoholic and non-alcoholic fatty liver disease
  • fibrosis
  • the genetics of other autoimmune and viral liver diseases

Magnetic Resonance (MR), spectroscopy and imaging in clinical research

Novel non-invasive methodologies using magnetic resonance are developed and applied to clinical research. Our research falls into two categories:

  • MR physics projects involve development and testing of new MR techniques that make quantitative measurements of physiological properties using a safe, repeatable MR scan.
  • Clinical research projects involve the application of these novel biomarkers to investigation of human health and disease.

Our studies cover a broad range of topics (including diabetes, dementia, neuroscience, hepatology, cardiovascular, neuromuscular disease, metabolism, and respiratory research projects), but have a common theme of MR technical development and its application to clinical research.

Musculoskeletal disease (including auto-immune arthritis)

We focus on connective tissue diseases in three, overlapping research programmes. These programmes aim to understand:

  • what causes the destruction of joints (cell signalling, injury and repair)
  • how cells in the joints respond when tissue is lost (cellular interactions)
  • whether we can alter the immune system and ‘switch off’ auto-immune disease (targeted therapies and diagnostics)

This research theme links with other local, national and international centres of excellence and has close integration of basic and clinical researchers and hosts the only immunotherapy centre in the UK.

Pharmacogenomics (including complex disease genetics)

Genetic approaches to the individualisation of drug therapy, including anticoagulants and anti-cancer drugs, and in the genetics of diverse non-Mendelian diseases, from diabetes to periodontal disease, are a focus. A wide range of knowledge and experience in both genetics and clinical sciences is utilised, with access to high-throughput genotyping platforms.

Reproductive and vascular biology

Our scientists and clinicians use in situ cellular technologies and large-scale gene expression profiling to study the normal and pathophysiological remodelling of vascular and uteroplacental tissues. Novel approaches to cellular interactions have been developed using a unique human tissue resource. Our research themes include:

  • the regulation of trophoblast and uNk cells
  • transcriptional and post-translational features of uterine function
  • cardiac and vascular remodelling in pregnancy

We also have preclinical molecular biology projects in breast cancer research.

Respiratory disease

We conduct a broad range of research activities into acute and chronic lung diseases. As well as scientific studies into disease mechanisms, there is particular interest in translational medicine approaches to lung disease, studying human lung tissue and cells to explore potential for new treatments. Our current areas of research include:

  • acute lung injury - lung infections
  • chronic obstructive pulmonary disease
  • fibrotic disease of the lung, both before and after lung transplantation.

Pharmacology, Toxicology and Therapeutics

Our research projects are concerned with the harmful effects of chemicals, including prescribed drugs, and finding ways to prevent and minimise these effects. We are attempting to measure the effects of fairly small amounts of chemicals, to provide ways of giving early warning of the start of harmful effects. We also study the adverse side-effects of medicines, including how conditions such as liver disease and heart disease can develop in people taking medicines for completely different medical conditions. Our current interests include: environmental chemicals and organophosphate pesticides, warfarin, psychiatric drugs and anti-cancer drugs.

Pharmacy

Our new School of Pharmacy has scientists and clinicians working together on all aspects of pharmaceutical sciences and clinical pharmacy.



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This module aims to provide a scientific and clinical understanding of the biology of human embryo implantation, establishment of pregnancy, early pregnancy and embryo development. Read more
This module aims to provide a scientific and clinical understanding of the biology of human embryo implantation, establishment of pregnancy, early pregnancy and embryo development. The module will provide insight into problems with reproduction that manifest clinically. Human reproduction will be studied in light of underlying scientific understanding and clinical evidence at the forefront of research in this area.

Module content

Topics covered in the course include:
-Structure and function of reproductive system.
-Human embryo formation and growth.
-Implantation of embryo including: Communication between embryo and endometrium, species-specific signalling pathways
-Diagnosis of embryonic and maternal factors.
-Causes and potential treatments for reproductive failure during implantation and early pregnancy, including: Recurrent implantation failure, endometrial scratch. biochemical pregnancy, clinical miscarriage.
-Multiple pregnancy.
-Factors affecting the evidence base for clinical care in reproduction.

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The 2-year PG Diploma program uses a multi-disciplinary, research-informed approach to teach clinical and basic science related to the human systems (cardiovascular, respiratory, gastrointestinal, musculoskeletal, female reproductive, renal and genitourinary, the eyes, and skin) and diagnostics & therapeutics. Read more

The 2-year PG Diploma program uses a multi-disciplinary, research-informed approach to teach clinical and basic science related to the human systems (cardiovascular, respiratory, gastrointestinal, musculoskeletal, female reproductive, renal and genitourinary, the eyes, and skin) and diagnostics & therapeutics.

The scientific background is taught in the context of clinical placements in Community Medicine, General Hospital Medicine, Front Door Medicine, Mental Health, General Surgery, Obstetrics & Gynaecology and Paediatrics.

Successful completion of the 2 year PG Diploma enables graduates to take the national certification exam, which is mandatory to register and work as a Physician Associate.

Students benefit from a strong exposure to clinicians and scientists with active research in medically related subjects.

Course Structure

The program is delivered by the Physician Associate Faculty that brings together clinicians and other experts from across the disciplines of primary and secondary medical care. The course content reflects the curriculum and learning requirements for the Physician Associate framework (PA CC 2012).

The Physician Associate programme at Bangor includes an integrated placement programme of work-based learning that will provide progressive experiential learning in a range of clinical settings to allow students to attain the standards of knowledge and understanding in clinical practice, including regulatory structures, professionalism and clinical competences expected of a Physician Associate. Placements will be grouped according to the following clinical subject headings and minimum periods:

  • Community Medicine (180h)
  • General Hospital Medicine (350 h)
  • Front Door Medicine (180 h)
  • Mental Health (90 h)
  • General Surgery (90h)
  • Obstetrics & Gynaecology (90 h)
  • Paediatrics (acute setting) (90h) 

During the course you will learn how to recognise and manage common and complex medical conditions as part of multi-professional team, to make independent and informed judgements on clinical problems and be trained to integrate knowledge and clinical practice. As a Physician Associate graduate you’ll be able to demonstrate outstanding interpersonal and professional skills when working with patients, carers and clinical multi-disciplinary teams in a multicultural environment. You will also have a comprehensive understating of I.T., record keeping and communication using a diverse range of media in evidence based practice and understand the importance of health promotion, disease prevention and inequalities in society and local communities.

The programme aims to give students a comprehensive knowledge of the concepts, principles and technologies used in clinical practice in the following areas:

  • Cardiovascular system
  • Respiratory system
  • Gastrointestinal system
  • Musculoskeletal system
  • Eyes
  • Female reproductive system
  • Renal and genitourinary system
  • Skin
  • Diagnostics and therapeutics.
  • Neurology

On successful completion of the course, you’ll have gained the key knowledge related to practice as a physician associate, including major concepts related to the principles and theories associated with human anatomy and physiology, cell biology, body/system-drug actions and interactions, mechanisms underlying human pathological conditions and the basis of the clinical and technological methods used to diagnose and monitor these conditions. You be able to demonstrate the qualities and transferable skills necessary for employment in the medical domain including history taking and consultation skills, and physical examinations tailored to the needs of the patient and the demands of the clinical situation. You’ll also be able to demonstrate an understanding and appreciation of the needs of patients/clients, and decision-making in complex and unpredictable contexts.

Teaching, Learning and Assessment

Teaching occurs via lectures, clinical placements, practical classes and group work including case centred discussions often delivered by academic clinicians who hold joint University and Health board contracts. Students benefit from a high number of contact hours that includes utilisation of our state-of-the art teaching laboratories and simulation suite at the hospital. Academic assessment includes placement reports, observed clinical skills, MCQ and written exams.



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This new and innovative Masters programme caters for the current global need for toxicologists and ecotoxicologists who are competent in conducting hazard and risk evaluation of chemical substances. Read more
This new and innovative Masters programme caters for the current global need for toxicologists and ecotoxicologists who are competent in conducting hazard and risk evaluation of chemical substances.


Aims
The programme aims at providing students with an advanced and up-to-date understanding of the effects of chemicals on human and environmental health and the resulting impact on chemical risk assessment and regulation. The programme covers both human and ecotoxicological risk assessment and includes modules on topical areas, such as mixtures toxicology, endocrine disruption and computational toxicology. Some modules have been designed specifically to be offered as short-term training programmes for professionals


The course is suitable for graduates interested in obtaining a qualification in human and environmental health, as well as students already in full time employment who require either formal qualifications or intend to revalidate their qualifications in toxicology. This will contribute to their continuing professional development (CPD) and towards the requirements for the UK Register of Toxicologists.


Course contents
The MSc in Toxicology and Risk Assessment comprises a total of 8 taught modules, including 6 compulsory modules and 2 (out of 3) optional modules.

Compulsory modules:
• Priority Pollutants and Human Health Effects (Autumn term, 12 weeks)
• Essentials in Ecotoxicology (Autumn term, 12 weeks).
• Designing, Analysing and Interpreting Toxicological Studies (Autumn term, 5 consecutive days)
• Current Practice in Chemical Risk Assessment (Spring term, 5 consecutive days)
• Chemical Regulation and Legislation in the EU (Autumn term, 5 consecutive days)
• Carcinogens and Mutagens (Autumn term, 12 weeks).

Optional Modules: (students will have to complete 2 out of 3 optional modules):
• Mixtures Toxicology and Cumulative Risk Assessment (Spring term, 5 consecutive days)
• Reproductive Toxicology and Endocrine Disruption (Spring term, 12 weeks)
• Computational Toxicology: Modelling and Predicting Toxicity (Spring term, 5 consecutive days)

Dissertation
Depending on student’s interests and their progress through the course, they will have the opportunity to carry out their dissertation with collaborators from Industry and regulatory bodies.

Throughout the course, students will be required to develop a personal development plan, agreed upon with tutors, which will structure and enhance their professional and personal development.


Continuing Professional Development (CPD)
A number of our specialised modules are run as intensive short-courses, which can be taken individually by participants without having to enroll for the full course. The aim is to support professionals already in employment in advancing their knowledge in specific areas, as well as developing their careers.

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This specialist pathway has been designed for those interested in reproductive endocrinology, fertility, assisted reproductive technology, prenatal development, birth defects, embryogenesis, molecular biology and genetics. Read more
This specialist pathway has been designed for those interested in reproductive endocrinology, fertility, assisted reproductive technology, prenatal development, birth defects, embryogenesis, molecular biology and genetics.

Highlights

-Shared campus with one of the largest teaching hospitals in the UK.
-Expertise in clinical, epidemiological and laboratory research within the University and St George’s Hospital

Reproduction and Development Module

The 30 credit Reproduction and Development module will begin with the exploration of the science of reproduction covering a range of aspects of women’s health including normal sexual differentiation, endocrine disorders, hormonal control of fertility, pregnancy and contraception amongst others.

The module will also explore development and disease covering embryonic development with an emphasis on molecular mechanisms and human congenital disorders. It will also include an introduction to experimental techniques, terminology, model organisms and the use of transgenic mouse technology.

This pathway will take advantage of active reproduction and development research taking place at St George’s, laboratory skills sessions and clinical case-based lectures giving you an understanding of the cellular processes involved in reproduction and development can help design strategies to aid fertility and treat/manage defects in development. The module will also provide you with insight into how new sequencing technologies and ‘omics’ methodologies are helping to decipher the cellular mechanisms involved in reproduction and development.

Careers

The course is highly effective for accelerating your development within your general healthcare career. As a direct result of the depth and quality of the academic research that you’ll undertake on your nin8e month project, you will also be in primary position when it comes to successfully applying for PhDs.

Application

Apply at https://sgul.ac.uk/study/postgraduate/taught-degrees-postgraduate/biomedical-science-mres-reproduction-and-development/apply

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Why choose this course?. This comprehensive course provides an in-depth view of the contemporary issues and techniques required of professional wildlife conservationists working both in the UK and overseas. Read more

Why choose this course?

This comprehensive course provides an in-depth view of the contemporary issues and techniques required of professional wildlife conservationists working both in the UK and overseas. The course is taught not only by our experienced academic staff but with the assistance of world-leading experts and conservation practitioners both in class and also in the field.

Importantly throughout the course we stress a holistic appreciation of the link between field and laboratory-based work and the necessity of professional level communication with a range of audiences. Where possible teaching will be undertaken through workshops and seminars so providing a more immersive environment to help develop an understanding of the operation of professional-level applied conservation skills in communication and problem solving.

What happens on the course?

The focus throughout is on animals in their wild settings and as such there is a strong emphasis on fieldwork and applied wildlife research. Modules to be studied are:

7AB012 Conservation Genetics - This module is focused on genetic applications to problems of conservation, reflecting the diversity of concerns relevant to conservation biology and covering the management of captive populations for conservation. Modern genetic techniques used by conservationists are also examined.

7AB009 Advanced Survey and Monitoring Techniques –The desktop survey, design, collection, processing, analysis and output production of environmental data (physical, vegetation and organismal) will be explored in a problem-based setting. This will involve the integrated use of Global Positioning Systems (GPS), Geographical Information Systems (GIS), geospatial imagery, telemetry, image acquisition, sound acquisition, ground-truthing and field survey techniques.

7AB011 Primate Conservation and Behaviour - This module focuses on the evolution of primate societies and asks how environmental and demographic factors influence animals’ decisions about how to organise their social and reproductive strategies. Throughout, the emphasis is on understanding key theoretical concepts and how these may be applied to empirical studies of non-human primates. This module explores also the science of scarcity and diversity of wild primate populations and the successful management of captive populations for conservation.

7AB013 Research Methods for Wildlife Conservation - This module prepares you with the skills needed for wildlife conservation research. You will develop advanced skills in literature searching and critical analysis of published work. You will explore the development of a research question, research design, data handling and statistics. You will prepare a professional portfolio of your research methods covered in the module.

7AB010 Field Course - The module will examine the whole process of research trip planning from funding and logistical planning through to the detail of content for individual session activities. The culmination of this process will be a residential field course in the UK or overseas.

7AB014 Conservation of UK Protected Species – In-depth consideration of the conservation of UK protected species including their ecology, protection legislation, conservation measures, habitat management and habitat creation.

7AB015 The Masters Project module - an opportunity to plan, undertake and deliver an extended, problem-focused, original independent investigation related to the chosen programme of study and is a requirement for the award of a Masters degree.

Whilst the majority of the material will be delivered by the core Departmental staff the course aims to bring-in external speakers from wildlife research, practice and policy to allow students access to the knowledge of professionals working in the sector.

Why Wolverhampton?

  • Wolverhampton is developing a national reputation for the study of Animal Behaviour and Wildlife Conservation. Studying the MSc provides real opportunities to influence the direction of study and research of the staff and student body.
  • There are significant opportunities to undertake fieldwork in a range of local, national and international settings. This is an important driver for the department and provides a strong applied focus for Masters-level study across the range of modules studied.
  • A strong emphasis is placed on developing the link from strategic/logistical planning through field and laboratory work to the professional communication of the information generated.
  • The facilities of the new Science building at the university provide a significant opportunity to develop complementary wildlife-related laboratory skills which are often not explored at undergraduate level.
  • Innovative approaches to learning are used including student-led workshops, seminars and practical activities that mirror workplace scenarios. This gives students a strong role in directing their own development and links strongly to career development and aspiration.
  • There is a strong emphasis on the individual and the nurturing of individual study and career aspirations.

Career Path

The course prepares you for a role as a conservation professional working with strong applied and field-based components. In particular it gives you key opportunities for employment in conservation-type roles in the UK and beyond where higher-level qualifications are essential for demonstrating topic knowledge and technical competency. Such roles are found in a host of statutory and non-governmental organisations across the wildlife sector.

What skills will you gain?

  • A systematic understanding of knowledge, and a critical awareness of current problems and/or new insights, much of which is at, or informed by, the forefront of wildlife conservation and behavioural science.
  • A comprehensive understanding of techniques applicable to your own research or advanced scholarship. Specifically you will develop the higher-level field and laboratory skills that are widely applied in the wildlife conservation community.
  • A practical understanding of how established techniques of research and enquiry are used to create and interpret knowledge in the discipline. Specifically you will understand the process of enquiry within wildlife conservation and behaviour from first principles and strategic/logistical planning through field and laboratory work to professional output (report, research paper, oral presentation etc.)
  • A conceptual understanding that enables you to critically evaluate current research and advanced scholarship in the discipline as well as the knowledge to evaluate methodologies and develop critiques of them and, where appropriate, to propose new hypotheses.
  • Applied skills and theoretical understanding linking policy and practice that allow you to fully engage with the advancement of knowledge in wildlife conservation and behaviour science.


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