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Masters Degrees (Prenatal Genetics)

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This MSc aims to provide medical and science students with a comprehensive knowledge and understanding of the field of prenatal genetics and fetal medicine, specifically human genetics, human embryonic development and fetal medicine. Read more
This MSc aims to provide medical and science students with a comprehensive knowledge and understanding of the field of prenatal genetics and fetal medicine, specifically human genetics, human embryonic development and fetal medicine. There is a strong focus on the development of key skills and careers advice in the programme.

Degree information

Students will develop a knowledge and understanding of the field of prenatal genetics and fetal medicine, specifically in the areas of basic genetics and technology, genetic mechanisms, medical genetics, organogenesis and fetal development, gametogenesis and IVF, prenatal diagnosis and screening, fetal and perinatal medicine, and preimplantation genetic diagnosis and developing technology. They gain transferable skills including information technology, analysis of scientific papers, essay writing, seminar presentation, research techniques, peer review and laboratory skills.

Students undertake modules to the value of 180 credits.

The programme consists of eight core modules (120 credits) and a research project (60 credits). A Postgraduate Diploma consisting of eight core modules (120 credits, full time nine months, flexible study two to five years) is offered. There are no optional modules for this programme.

Mandatory modules
-Basic Genetics and Technology
-Gametogenesis, Preimplantation Development and IVF
-Genetic Mechanisms
-Medical Genetics
-Organogenesis and Fetal Development
-Prenatal Diagnosis and Screening
-Fetal and Perinatal Medicine
-Preimplantation Genetic Diagnosis and Developing Technology

Dissertation/report
All MSc students undertake a clinical, laboratory, audit or library-based research project, which culminates in a dissertation of 10,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, practical demonstrations in laboratories, observation days in fetal medicine and IVF units, and student presentations. There are a number of peer-led learning activities. Assessment is through essays, patient case reports, critical reviews of papers, online problem booklet, examinations and the dissertation.

Careers

On completion of the programme, all students will have gained knowledge of both the clinical and laboratory aspects of prenatal genetics and fetal medicine. This will enable the science-orientated students to go on to pursue research degrees, careers in embryology or prenatal diagnosis, or other careers in the field or in general science. Medically-orientated students will be able to develop their careers in the field of fetal medicine.

Top career destinations for this degree:
-Ob/Gyn Surgeon, Ente Ospedaliero Cantonale
-Trainee Embryologist, Homerton University Hospital (NHS)
-PhD Medical Genetics, The Cyprus Institute of Neurology and Genetics (CI
-Clinical Research Nurse, University College London (UCL)
-Trainee Embryologist, Life Hospital

Employability
Throughout the MSc programme students learn key skills through peer-led activities, such as evaluating and presenting orally on patient cases and media coverage of scientific papers. Basic laboratory techniques are taught as are essay writing, the critical evaluation of papers, debates and ethical discussions. We also offer a comprehensive careers programme involving our alumni, covering job applications, CV writing, general careers in science and specific advice on careers in embryology, clinical genetics, medicine and research degrees.

Why study this degree at UCL?

The UCL Institute for Women’s Health delivers excellence in research, clinical practice, education and training in order to make a real and sustainable difference to women's and babies' health worldwide.

The institute houses the UK's largest group of academics working in women's health and the UCL/UCL Hospitals NHS Foundation Trust collaboration at its core provides an academic environment in which students can pursue graduate studies taught by world-class reseachers and clinicians.

Our diversity of expertise in maternal and fetal medicine, neonatology, reproductive health and women's cancer ensures a vibrant environment in which students develop subject-specific and generic transferable skills, supporting a broad range of future employment opportunities.

Read less
The increasing impact of genetics in healthcare and the development of newer sophisticated technologies requires contributions from research scientists, clinical laboratory scientists and clinicians to investigate the causes of, and therefore permit optimal management for, diseases for which alterations in the genome, either at the DNA sequence level or epigenetic level, play a significant role. Read more
The increasing impact of genetics in healthcare and the development of newer sophisticated technologies requires contributions from research scientists, clinical laboratory scientists and clinicians to investigate the causes of, and therefore permit optimal management for, diseases for which alterations in the genome, either at the DNA sequence level or epigenetic level, play a significant role. Collaboration between staff from the University of Glasgow and the NHS West of Scotland Genetics Service enables the MSc in Medical Genetics and Genomics to provide a state-of-the-art view of the application of modern genetic and genomic technologies in medical genetics research and diagnostics, and in delivery of a high quality genetics service to patients, as well as in design of targeted therapies.

Why this programme

◾This is a fully up-to-date Medical Genetics degree delivered by dedicated, multi-award-winning teaching and clinical staff of the University, with considerable input from hospital-based Regional Genetics Service clinicians and clinical scientists.
◾The full spectrum of genetic services is represented, from patient and family counselling to diagnostic testing of individuals and screening of entire populations for genetic conditions: eg the NHS prenatal and newborn screening programmes.
◾The MSc Medical Genetics Course is based on the south side of the River Clyde in the brand new (2015) purpose built Teaching & Learning Centre, at the Queen Elizabeth University Hospitals (we are located 4 miles from the main University Campus). The Centre also houses state of the art educational resources, including a purpose built teaching laboratory, computing facilities and a well equipped library. The West of Scotland Genetic Services are also based here at the Queen Elizabeth Campus allowing students to learn directly from NHS staff about the latest developments to this service.
◾The Medical Genetics MSc Teaching Staff have won the 2014 UK-wide Prospects Postgraduate Awards for the category of Best Postgraduate Teaching Team (Science, Technology & Engineering). These awards recognise and reward excellence and good practice in postgraduate education.
◾The close collaboration between university and hospital staff ensures that the Medical Genetics MSc provides a completely up-to-date representation of the practice of medical genetics and you will have the opportunity to observe during clinics and visit the diagnostic laboratories at the new Southern General Hospital laboratory medicine building.
◾The Medical Genetics degree explores the effects of mutations and variants as well as the current techniques used in NHS genetics laboratory diagnostics and recent developments in diagnostics (including microarray analysis and the use of massively parallel [“next-generation”] sequencing).
◾New developments in medical genetics are incorporated into the lectures and interactive teaching sessions very soon after they are presented at international meetings or published, and you will gain hands-on experience and guidance in using software and online resources for genetic diagnosis and for the evaluation of pathogenesis of DNA sequence variants.
◾You will develop your skills in problem solving, experimental design, evaluation and interpretation of experimental data, literature searches, scientific writing, oral presentations, poster presentations and team working.
◾This MSc programme will lay the academic foundations on which some students may build in pursuing research at PhD level in genetics or related areas of biomedical science or by moving into related careers in diagnostic services.
◾The widely used textbook “Essential Medical Genetics” is co-authored by a member of the core teaching team, Professor Edward Tobias.
◾For doctors: The Joint Royal Colleges of Physicians’ Training Board (JRCPTB) in the UK recognises the MSc in Medical Genetics and Genomics (which was established in 1984) as counting for six months of the higher specialist training in Clinical Genetics.
◾The Medical Council of Hong Kong recognises the MSc in Medical Genetics and Genomics from University of Glasgow in it's list of Quotable Qualifications.

Programme structure

Genetic Disease: from the Laboratory to the Clinic

This course is designed in collaboration with the West of Scotland Regional Genetics Service to give students a working knowledge of the principles and practice of Medical Genetics and Genomics which will allow them to evaluate, choose and interpret appropriate genetic investigations for individuals and families with genetic disease. The link from genotype to phenotype, will be explored, with consideration of how this knowledge might contribute to new therapeutic approaches.

Case Investigations in Medical Genetics and Genomics

Students will work in groups to investigate complex clinical case scenarios: decide appropriate testing, analyse results from genetic tests, reach diagnoses where appropriate and, with reference to the literature, generate a concise and critical group report.

Clinical Genomics

Students will take this course OR Omic Technologies for Biomedical Sciences OR Frontiers in Cancer Science.

This course will provide an overview of the clinical applications of genomic approaches to human disorders, particularly in relation to clinical genetics, discussion the methods and capabilities of the new technologies. Tuition and hands-on experience in data analysis will be provided, including the interpretation of next generation sequencing reports.

Omic technologies for the Biomedical Sciences: from Genomics to Metabolomics

Students will take this course OR Clinical Genomics OR Frontiers in Cancer Science.

Visit the website for further information

Career prospects

Research: About half of our graduates enter a research career and most of these graduates undertake and complete PhDs; the MSc in Medical Genetics and Genomics facilitates acquisition of skills relevant to a career in research in many different bio-molecular disciplines.

Diagnostics: Some of our graduates enter careers with clinical genetic diagnostic services, particularly in molecular genetics and cytogenetics.

Clinical genetics: Those of our graduates with a prior medical / nursing training often utilise their new skills in careers as clinical geneticists or genetic counsellors.

Other: Although the focus of teaching is on using the available technologies for the purpose of genetic diagnostics, many of these technologies are used in diverse areas of biomedical science research and in forensic DNA analysis. Some of our numerous graduates, who are now employed in many countries around the world, have entered careers in industry, scientific publishing, education and medicine.

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The increasing impact of genetics in healthcare and the development of newer sophisticated technologies requires close collaboration between research scientists, clinical laboratory scientists and clinicians to deliver a high quality service to patients. Read more
The increasing impact of genetics in healthcare and the development of newer sophisticated technologies requires close collaboration between research scientists, clinical laboratory scientists and clinicians to deliver a high quality service to patients. The Clinical Genetics MSc has a specific focus on delivery of the clinical service to patients including risk analysis and application of modern genetic and genomic technologies in medical genetics research and in diagnostics and population screening.

● This is a fully up-to-date Clinical Genetics degree delivered by dedicated, multi-award-winning teaching and clinical staff of the University, with considerable input from hospital-based Regional Genetics Service clinicians and clinical scientists.
● The full spectrum of genetic services is represented, from patient and family counselling to diagnostic testing of individuals and screening of entire populations for genetic conditions: eg the NHS prenatal and newborn screening programmes.
● The Clinical Genetics MSc Teaching Staff won the 2014 UK-wide Prospects Postgraduate Awards for the category of Best Postgraduate Teaching Team (Science, Technology & Engineering). These awards recognise and reward excellence and good practice in postgraduate education.
● The close collaboration between university and hospital staff ensures that the Clinical Genetics MSc provides a completely up-to-date representation of the practice of medical genetics and you will have the opportunity to observe during clinics at the new Queen Elizabeth University Hospital laboratory medicine building.
● The Clinical Genetics degree explores the effects of mutations and variants as well as the theoretically basis of current techniques used in NHS genetics laboratory diagnostics and recent developments in diagnostics (including microarray analysis and the use of massively parallel [“next-generation”] sequencing).
● New developments in genetics are incorporated into the lectures and interactive teaching sessions very soon after they are presented at international meetings or published, and you will gain hands-on experience and guidance in using software and online resources for genetic diagnosis and for the evaluation of pathogenesis of DNA sequence variants.
● You will develop your skills in problem solving, evaluation and interpretation of genetic data, literature searches, scientific writing, oral presentations, poster presentations and team working.
● This MSc programme will lay the academic foundations on which some students with prior MBChB or MBBS may build in pursuing careers in Clinical Genetics.
● The widely used textbook “Essential Medical Genetics” is co-authored by a member of the core teaching team, Professor Edward Tobias.
● For doctors: The Joint Royal Colleges of Physicians’ Training Board (JRCPTB) in the UK recognises the MSc in Clinical Genetics (which was established in 1984) as counting for six months of the higher specialist training in Clinical Genetics.

Programme Structure

Genetic Disease and Clinical Practice

This course is designed in collaboration with the West of Scotland Regional Genetics Service to give students a working knowledge of the principles and practice of Clinical Genetics and Genomics which will allow them to evaluate, choose and interpret appropriate genetic investigations for individuals and families with genetic disease. The link from genotype to phenotype, will be explored, with consideration of how this knowledge might contribute to new therapeutic approaches.

Distress or Disorder: Reactions to a medical diagnosis

This course outlines the process of psychosocial adjustment to a diagnosis or test result allowing participants to establish if and when a distress reaction develops into an adjustment disorder. The implications of diagnosis are explored and evidence considered allowing informed decisions about appropriate referrals to other agencies.

Patient Empowerment: Supporting decisions relating to new diagnoses

This course reflects on evidence and experience to explore the psychological and social impact of a diagnosis, or illness, and provides strategies to support resilience and coping in patients. Factors related to lived experience, personal beliefs and values, culture, adjustment processes, decision-making, misconceptions, secrecy and guilt are considered to equip participants in the promotion of patient-centred care.

Effective listening and communication skills

With a focus on experiential learning and student led study, this course outlines the role of counselling skills to facilitate adjustment and to allow an individual to come to terms with change in a safe way to minimise impact. The focus will be on the theory supporting counselling, developing key listening and communication skills and on establishing reflective practice.

Case Investigations in Medical Genetics and Genomics

Students will work in groups to investigate complex clinical case scenarios: decide appropriate testing, analyse results from genetic tests, reach diagnoses where appropriate and, with reference to the literature, generate a concise and critical group report.

Clinical Genomics

This course will provide an overview of the clinical applications of genomic approaches to human disorders, particularly in relation to clinical genetics, discussion the methods and capabilities of the new technologies. Tuition and hands-on experience in data analysis will be provided, including the interpretation of next generation sequencing reports.

Disease Screening in Populations

This course will cover the rationale for, and requirements of, population screening programmes to detect individuals at high risk of particular conditions, who can then be offered diagnostic investigations. Students will work in groups to investigate and report on, a screening programme of their choice from any country.

Dissertation

The course will provide students with the opportunity to carry out an independent investigative project in the field of Medical Genetics and Genomics.

Teaching and Learning Methods

A variety of methods are used, including problem-based learning, case-based learning, lectures and tutorials. These are supplemented by a wide range of course-specific electronic resources for additional learning and self-assessment. As a result, you will develop a wide range of skills relevant to careers in clinical genetics. These skills include team-working and data interpretation. You will use the primary scientific literature as an information resource, although textbooks such as our own Essential Medical Genetics will also be useful. You will have the options of: attending genetic counselling clinics and gaining hands-on experience and guidance in using software and online resources for genetic diagnosis and for the evaluation of pathogenicity of DNA sequence variants.

Visit the website for more information http://www.gla.ac.uk/postgraduate/taught/clinicalgenetics/#/programmestructure

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Genetic counsellors are health care professionals with specialized graduate training in the areas of medical genetics and counselling. Read more

Masters in Genetic Counselling

What is a Genetic Counsellor?

Genetic counsellors are health care professionals with specialized graduate training in the areas of medical genetics and counselling. Genetic counsellors usually work as members of a healthcare team, providing information and support to families who have members with birth defects or genetic disorders and to families who may be at risk for a variety of inherited conditions. Genetic counsellors work in a wide variety of settings, these include: general genetics, prenatal care and family planning, pediatrics, oncology, cardiology, neurology, laboratories, research, education, public health settings, and corporate environments. (NSGC website, accessed Oct 7, 2012).

GENERAL PROGRAM OVERVIEW

The Department of Medical Genetics, through Graduate and Postdoctoral Studies (G+PS) at the University of British Columbia, offers a unique two year graduate program leading to an MSc degree in Genetic Counselling. The program has full accreditation status by the American Board of Genetic Counseling (ABGC). Students, upon graduating, will be eligible to apply for “Active Candidate” status for both the ABGC and the Canadian Association of Genetic Counsellors (CAGC) certification exams.

Six students are accepted into the Program each year to begin their studies in September. Genetic counsellors, geneticists, other healthcare professionals and UBC faculty members instruct and supervise students during their course of study.

The program balances strong academic grounding, direct clinical experiences and independent research to prepare graduates for the dynamic field of genetic counselling.

Academic coursework provides a comprehensive overview of:
- Molecular genetics and genomics
- Clinical genetics
- Counselling techniques and psychology
- Bioethics

Clinical experiences cover a broad range of specialties, preparing graduates for the expanding professional role. These include both private and public settings in the areas of:
- Prenatal genetics
- Pediatric and adult genetics
- Reproductive medicine
- Cancer
- Psychiatric genetics
- Focused practical rotations in embryofetopathology, fetal ultrasound and prenatal procedures, prenatal biochemistry laboratory, molecular biochemical and cytogenetic laboratories.

Interprofessional health education prepares graduates for a patient centred, team-based approach to healthcare delivery. Collaborating with the College of Health Disciplines, unique experiences include:
- Health Mentorship Program
- The Interprofessional Education (IPE) Passport
- Rounds and educational seminars held by the Department of Medical Genetics, Hereditary Cancer Program, Child and Family
Research Institute, BC Clinical Genomics Network and other departments within the hospital and university network.

While this is not a thesis program, all graduates complete an independent research project. The program provides mentorship, research skills development and encouragement towards contributing to the published literature in genetic counselling outcomes.

Quick Facts

- Degree: Master of Science
- Specialization: Genetic Counselling
- Subject: Health and Medicine
- Mode of delivery: On campus
- Program components: Coursework only
- Faculty: Faculty of Medicine

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This MSc aims to provide medical and science-based students with a comprehensive knowledge and understanding of the field of reproductive science and women's health. Read more
This MSc aims to provide medical and science-based students with a comprehensive knowledge and understanding of the field of reproductive science and women's health. There is a strong focus on development of key skills and careers advice in the programme.

Degree information

Students will develop knowledge and understanding of the theoretical (including clinical) and laboratory aspects of reproductive science and women's health, specifically in the areas of basic genetics, gametogenesis and IVF, female reproductive anatomy, physiology and pathology, pregnancy and childbirth, breast and reproductive cancers, prenatal diagnosis and screening, reproductive health, and preimplantation genetic diagnosis and developing technology. They gain transferable skills including information technology, analysis of scientific papers, essay writing, seminar presentation, research techniques, peer review and laboratory skills.

Students undertake modules to the value of 180 credits.

The programme consists of eight core modules (120 credits) and a research project (60 credits).

A Postgraduate Diploma comprising eight core modules (120 credits, full-time nine months or flexible study two to five years) is offered. There are no optional modules for this programme.

Mandatory modules
-Basic Genetics and Technology
-Gametogenesis, Preimplantation Development and IVF
-Female Reproductive Physiology and Anatomy, Physiology and Pathology
-Pregnancy and Childbirth
-Breast and Reproductive Cancers
-Prenatal Diagnosis and Screening
-Reproductive Health
-Preimplantation Genetic Diagnosis and Developing Technology

Dissertation/research project
All MSc Students undertake a clinical, laboratory, audit or library-based research project, which culminates in a dissertation of 10,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, practical demonstrations in laboratories, observation days in fetal medicine, reproductive medicine and IVF units, and student presentations. There are a number of peer-led learning activities. Assessment is through essays, patient case reports, critical reviews of papers, online problem booklet, examinations and the dissertation.

Careers

On completion of the programme, all students will have gained knowledge of both the clinical and laboratory aspects of reproductive science and women's health. This will enable the science-orientated students to go on to pursue research degrees, careers in embryology, or other careers in the field or in general science. Medically-orientated students will be able to develop their careers in the field of reproductive science and women's health.

Top career destinations for this degree:
-Research Fellow, NHS Harris Birthright Research Center for Fetal Medicine
-Trainee Embryologist, Assisted Reproduction and Gynaecological Centre
-University Teaching Assistant, King Saud University
-Medical Laboratory Assistant, Imperial College Healthcare NHS Trust
-Senior House Officer (Obstetrics and Gynaecology), NHS Health Education South London / St Thomas' Hospital (NHS

Employability
Throughout the MSc programme students learn key skills through peer-led activities, such as evaluating and presenting orally on patient cases and media coverage of scientific papers. Basic laboratory techniques are taught as are essay writing, critical evaluation of papers, debates and ethical discussions. We also offer a comprehensive careers programme involving our alumni, covering job applications, CV writing, general careers in science and specific advice on careers in embryology, clinical genetics, medicine and research degrees.

Why study this degree at UCL?

The Institute for Women's Health delivers excellence in research, clinical practice, education and training in order to make a real and sustainable difference to women's and babies' health worldwide.

The institute houses the UK's largest group of academics working in women's health and the UCL/UCL Hospitals NHS Foundation Trust collaboration at its core provides an academic environment in which students can pursue graduate studies taught by world-class researchers and clincians.

Our diversity of expertise in maternal and fetal medicine, neonatology, reproductive health and women's cancer ensures a vibrant environment in which students develop subject-specific and generic transferable skills, supporting a broad range of future employment opportunities.

Read less
The UCL Institute for Women’s Health is an internationally recognised centre of excellence and leading provider of postgraduate taught programmes in women’s health. Read more
The UCL Institute for Women’s Health is an internationally recognised centre of excellence and leading provider of postgraduate taught programmes in women’s health. This new MRes gives students the opportunity to take a programme with greater emphasis on research skills and experience, and on development of transferable academic and professional skills.

Degree information

Students choose taught modules and select research areas from a variety of subjects across reproductive science and women's health, spanning the four themes of the institute: maternal and fetal health; neonatology; women’s cancer; and reproductive health. Students learn how to conduct an independent research project. They will also gain practical experience and theoretical understanding in research methodologies and critical analysis.

Students undertake modules to the value of 180 credits.

The programme consists of four optional modules (60 credits) and a research project (120 credits).

Core modules
All students undertake an independent research project in women's health.

Students may choose to focus on a laboratory or non-laboratory project (such as a social or ethical-based project), or an epidemiology project (analysing cohort or registry data).

Optional modules
Students choose four optional modules; a minimum of three from the reproductive science and women's health modules listed below. One option can also be chosen from the transferable skills modules marked * below.

-Basic Genetics and Technology
-Breast and Reproductive Cancer
-Female Reproductive Anatomy, Physiology and Pathology
-Gametogenesis, Preimplantation Development and IVF
-Pregnancy and Childbirth
-Preimplantation Genetic Diagnosis and New Technology
-Prenatal Diagnosis and Screening
-Reproductive Health
-Leadership and Professional Development*
-Research Methodology and Statistics*
-Understanding Research and Critical Appraisal*

Dissertation/research project
The independent research project in women's health culminates in a dissertation of 20,000 words. Students will be involved in the conceptualisation, design, data collection, analysis, interpretation and presentation of the project. This will allow the development of research skills in a specific field as well as a range of transferable skills, including literature searching, statistical analysis and written and verbal communication.

Teaching and learning
In addition to taught modules and the long research project, there is a full induction week at the start of the programme and six careers afternoons. A comprehensive range of assessment methods cover the key research, communication and practical skills required for future employment.

Careers

The first cohort of students on this proramme will graduate in 2018. We expect the programme will prepare science-orientated students to go on to further research. Medically-orientated students may wish to develop their careers in the field of reproductive science and women’s health or undertake further research.

Employability
The programme provides students with an excellent introduction to research both in the UK and overseas. It will equip them with the general and scientific skills required to embark on lifelong careers in research and related fields.

Why study this degree at UCL?

The UCL Institute for Women's Health delivers excellence in research, clinical practice, education and training in order to make a real and sustainable difference to women's and babies' health worldwide.

The institute houses the UK's largest group of academics working in women's health. The UCL/UCL Hospitals NHS Foundation Trust collaboration provides an academic environment in which students can pursue graduate studies with world-class researchers and clincians. We offer excellent basic science facilities, opportunities to work in cutting-edge clinical and translational research, and expertise in study methodology.

A comprehensive careers programme is embedded in all our degrees. This ensures students are exposed to a range of different job opportunities. We have alumni who give talks on their disparate career journeys.

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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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