• Swansea University Featured Masters Courses
  • Goldsmiths, University of London Featured Masters Courses
  • Anglia Ruskin University Featured Masters Courses
  • University of Southampton Featured Masters Courses
  • University of Edinburgh Featured Masters Courses
  • Ross University School of Veterinary Medicine Featured Masters Courses
  • Jacobs University Bremen gGmbH Featured Masters Courses
  • University of Edinburgh Featured Masters Courses
University of Manchester Featured Masters Courses
Cass Business School Featured Masters Courses
Nottingham Trent University Featured Masters Courses
Vlerick Business School Featured Masters Courses
Aberdeen University Featured Masters Courses
"regenerative" AND "denti…×
0 miles

Masters Degrees (Regenerative Dentistry)

We have 9 Masters Degrees (Regenerative Dentistry)

  • "regenerative" AND "dentistry" ×
  • clear all
Showing 1 to 9 of 9
Order by 
Academic, practical and research teaching covering all aspects of the latest developments in regenerative dentistry including dental stem cell culture, iPS and ES cells, tooth bioengineering, the role of stem cells in tooth repair and regeneration. Read more

Academic, practical and research teaching covering all aspects of the latest developments in regenerative dentistry including dental stem cell culture, iPS and ES cells, tooth bioengineering, the role of stem cells in tooth repair and regeneration. A major feature of the course is a research project carried out in one of our research labs and supported by practical demonstrations and evaluation of research publication.

Key benefits

  • Training in research methodologies and the critical evaluation of data.
  • Taught course on the very latest advances of stem cell research.
  • World renowned department.
  • Original research project.

Description

Taught course elements include: Introduction to stem cells, ES and iPS, Dental stem cells, Endogenous dentine repair, Endodontic applications of stem cells, Whole tooth regeneration, Scaffolds and bone regeneration, Salivary gland regeneration, Periodontal ligament restoration, GMP cell culture.

Research and practical elements include a research project, practical demonstrations of dental pulp stem cell culture combined with critical evaluation of research methods and approaches in dental stem cell biology.

Examples of research projects:

  • Salivary gland stem cells
  • Stem cells in the middle ear and their role in homeostasis and repair
  • Development of replacement teeth: location of stem cell niches in a range of species
  • A chemical genetics screen for regulators of cranial muscle stem cells
  • Dental pulp stem cells in tooth repair
  • Exploring the relationship between surface free energy and osseointegration with modifiable ceramic coatings
  • Human Embryonic tooth mesenchymal cells and bio-tooth engineering
  • Periodontal tissue regeneration - evaluating different human dental stem cell populations
  • Neural crest stem cells and ossification of the mandible

Course purpose

Regenerative dentistry is for both dentists and biological scientists who desire to learn more about the latest advances in cell and molecule-based dentistry and also gain experience in carrying out laboratory-based, cutting-edge research in dental stem cell biology.

Course format and assessment

Written exam, practical tests and written reports, seminar presentation.



Read less
Regenerative Medicine. MSc ( 1 year Full-time ). Overview. Regenerative medicine is an interdisciplinary field, which aims to repair diseased or damaged tissues using biological or cell-based technologies. Read more
Regenerative Medicine
MSc ( 1 year Full-time )

Overview

Regenerative medicine is an interdisciplinary field, which aims to repair diseased or damaged tissues using biological or cell-based technologies. It is a rapidly growing area of biomedical research that encompasses stem cell biology, tissue engineering, drug delivery, and nanotechnology. This MSc course provides advanced, multi-disciplinary training in the scientific principles and clinical applications of regenerative medicine, and is delivered jointly by Barts and The London School of Medicine and Dentistry and the School of Engineering and Materials Science.

Taught modules will develop a strong scientific foundation in the biology of stem cells and regeneration and the fundamental principles of biomaterials, tissue engineering and cellular reprogramming. Through an intensive 12-week research project, students will then gain hands on experience applying these concepts to problems in human health and the development of novel regenerative technologies.

Upon completion of the MSc in Regenerative Medicine, students will be well placed for further training at the PhD level or professional careers in the biotechnology and pharmaceutical industries.

Structure
The MSc in Regenerative Medicine is a one year, full-time programme. Students are required to complete 180 credits comprising taught and research modules.


Taught Modules (15 credits each)

o Cellular and Molecular Basis of Regeneration
o Stem Cell and Developmental Biology
o Advanced Tissue Engineering and Regenerative Medicine
o Research Skills and Methodology
o Biomaterials in Regenerative Medicine
o Tissue-specific Stem Cells
o Induced Pluripotent Stem Cells and Genome Engineering
o Ethics and Regulatory Affairs

Research Project in Regenerative Medicine (60 credits)
During the final 12 weeks of the course, students will work full time on their laboratory-based research projects. Students will select research projects from a wide range of topics in regenerative medicine. Examples include research on the cellular and molecular aspects of tissue regeneration, disease pathogenesis, development of stem cell therapies, design of novel nano-biotechnologies, or engineering biomaterials and tissue scaffolds.


Entry requirements
As a multi-disciplinary course, the MSc is appropriate for a wide range of students. Graduates with degrees in biological sciences or medicine will gain an in-depth understanding of the cellular and molecular aspects of regenerative medicine as well as an introduction to the interdisciplinary fields of biomaterials and tissue engineering. Similarly, students with a physical sciences background will have the opportunity to broaden their experiences and acquire new skills in the biological sciences.
Admission to the course is selective, and based upon academic credentials, research experience, and motivation. At a minimum, students must have an undergraduate degree equivalent to UK second-class honours from a recognised academic institution. Applicants are required to submit a statement of purpose and letter of recommendation with their application.
Applications are accepted all year round, but there are limited places to ensure high-quality training, so please apply early to avoid disappointment.

Read less
This is a research-focused Master's training course in Stem Cells and Regenerative Biology. It is ideal preparation for future PhD progression or early career industrial entry. Read more
This is a research-focused Master's training course in Stem Cells and Regenerative Biology. It is ideal preparation for future PhD progression or early career industrial entry.

This course focuses on developing investigative laboratory-based research skills while addressing theoretical and applicable questions in stem cells and regenerative biology. The course provides an intensive research-led environment, which will give you the opportunity to develop a career in academic or applied biomedical or biological sciences.

Why study Stem Cell and Regenerative Biology with us?

Our lecturers have specialist knowleadge and work with a diverse range of skill sets that have application in the field of stem cell research and regenerative biology.

The Faculty of Medicine, Dentistry and Life Sciences at Chester is unique in having academic staff who’s research involves a variety of relevant model organisms. As well as humans, the team researches into fundamental biology of a variety of other mammallian species, birds, fish, amphibians and invertebrates. Students undertaking the MRes are able to draw on this expertise.

In addition, Chester is an active member of the Mercia Stem Cell Alliance and the UK Mesenchymal Stem Cell research community.

What will I learn?

In the module Models of Regenerative Biology, you will attend lectures, small group teaching and practical sessions relating to:

- various model systems of regeneration, with cell culture based models and in vivo systems, e.g. planaria; responses to injury;
- regulatory factors governing tissue regeneration;
- aspects of regenerative medicine.

In the module on Stem Cells and Tissue Engineering, you will attend lectures, small group teaching and practical sessions relating to:

- how to define stem cells;
- stem cell culture and maintenance;
- the principles of tissue engineering;
- the application of stem cell and tissue engineering, e.g. in the clinic or in drug screening and development.

The individual research project is undertaken following completion of these two taught modules and is the primary focus of this course.

Read less
The Masters of Research in Tissue Engineering for Regenerative Medicine (TERM) is a collaborative degree course that brings together interdisciplinary expertise from the Faculty of Biology, Medicine and Health and the Faculty of Science and Engineering. Read more
The Masters of Research in Tissue Engineering for Regenerative Medicine (TERM) is a collaborative degree course that brings together interdisciplinary expertise from the Faculty of Biology, Medicine and Health and the Faculty of Science and Engineering.

This course provides:
-Postgraduate-level training to equip students from biological, engineering and/or medical-related backgrounds with the specialist knowledge and research skills to pursue a career in the field of tissue engineering/regenerative medicine
-A primary focus on strategies to repair, replace and ultimately regenerate various tissues and organs to solve major clinical problems
-A comprehensive insight into topical issues including stem cells, polymer technology, surface fabrication and gene delivery
-Training for students to identify major clinical needs and formulate novel therapeutic solutions

Tissue engineering/regenerative medicine as a discipline shows enormous potential for future health and, economically, there is a national demand for specific interdisciplinary training in this area.

The University of Manchester has a vast research network in this field comprising international experts from multiple disciplines, and so is extremely well-placed to deliver a truly unique masters course of exceptional quality.

This programme has both taught and research components and is suitable for those with little or no previous research experience.

Career opportunities

After the course, many students will continue their studies and register for a PhD.

However, the programme is also of value to students wishing to progress in the pharmaceutical industry, biotechnology companies or specialist clinical training.

The masters is also ideal for MBChB intercalating students who wish to undertake directly channelled research training in the tissue engineering/regenerative medicine field.

Read less
A multi-disciplinary course, students will be introduced to the field of biomaterials, and important factors in the selection, design, and development of biomaterials for clinical applications. Read more

About the course

A multi-disciplinary course, students will be introduced to the field of biomaterials, and important factors in the selection, design, and development of biomaterials for clinical applications. You’ll develop an understanding of biomaterials science, engineering, regenerative medicine and associated specialisms.

This course will be of particular interest to students interested in facilitating their development into the medical field aiming to contribute in the health care sector.

A welcoming department

A friendly, forward-thinking community, our students and staff are on hand to welcome you to the department and ensure you settle into student life.

Your project supervisor will support you throughout your course. Plus you’ll have access to our extensive network of alumni, offering industry insight and valuable career advice to support your own career pathway.

Your career

Prospective employers recognise the value of our courses, and know that our students can apply their knowledge to industry. Our graduates work for organisations including Airbus, Rolls-Royce, the National Nuclear Laboratory and Saint-Gobain. Roles include materials development engineer, reactor engineer and research manager. They also work in academia in the UK and abroad.

90 per cent of our graduates are employed or in further study 6 months after graduating, with an average starting salary of £27,000, the highest being £50,000.

Equipment and facilities

We have invested in extensive, world-class equipment and facilities to provide a stimulating learning environment. Our laboratories are equipped to a high standard, with specialist facilities for each area of research.

Materials processing

Tools and production facilities for materials processing, fabrication and testing, including wet chemical processing for ceramics and polymers, rapid solidification and water atomisation for nanoscale metallic materials, and extensive facilities for deposition of functional and structural coatings.

Radioactive nuclear waste and disposal

Our £3million advanced nuclear materials research facility provides a high-quality environment for research on radioactive waste and disposal. Our unique thermomechanical compression and arbitrary strain path equipment is used for simulation of hot deformation.

Characterisation

You’ll have access to newly refurbished array of microscopy and analysis equipment, x-ray facilities, and surface analysis techniques covering state-of-the-art XPS and SIMS. There are also laboratories for cell and tissue culture, and facilities for measuring electrical, magnetic and mechanical properties.

The Kroto Research Institute and the Nanoscience and Technology Centre enhance our capabilities in materials fabrication and characterisation, and we have a computer cluster for modelling from the atomistic through nano and mesoscopic to the macroscopic.

Stimulating learning environment

An interdisciplinary research-led department; our network of world leading academics at the cutting edge of their research inform our courses providing a stimulating, dynamic environment in which to study.

Teaching and assessment

Working alongside students and staff from across the globe, you’ll tackle real-world projects, and attend lectures, seminars and laboratory classes delivered by academic and industry experts.

You’ll be assessed by formal examinations, coursework assignments and a dissertation.

Core modules

Materials for Biological Applications; Scientific Writing and Health Informatics; Polymers Materials Chemistry; Biomaterials II (Advances in Biomaterials); Tissue Engineering and Regenerative Medicine; Structural and Physical Properties of Dental and Biomaterials.

Examples of optional modules

Group Projects in Bioengineering; Dental Materials Science; Tissue Structure and Function; Design of Medical Devices and Implants; Introduction to Digital Dentistry and Dental Manufacturing.

Read less
Our programme consists of clinical training, formal taught elements and the completion of a research project and dissertation. Read more
Our programme consists of clinical training, formal taught elements and the completion of a research project and dissertation. The clinical training (60 per cent) in diagnosis and management of periodontal disease emphasises the practice of advanced techniques in periodontology and includes the relationship between periodontology and other dental disciplines. The formal teaching element (25 per cent) is designed to provide a wide scientific background in the practice of periodontology. Your supervised research project will constitute of 15 per cent of your total programme activity. All the taught and clinical modules in the programme are core modules.

You will have a wide range of opportunities and topic choices for your research project, which you will conduct in our exemplary modern research laboratory and clinical facilities.

The full programme includes attendance at weekly new patient diagnostic clinics, clinical practice in periodontology including surgical, antimicrobial, regenerative and mucogingival procedures, management of periodontal disease in patients with other restorative problems, and principles and practice of implant dentistry.

Read less
Tissue engineering is an ever-emerging interdisciplinary field of biomedical research, which combines life, engineering and materials sciences, to progress the maintenance, repair and replacement of diseased and damaged tissues. Read more
Tissue engineering is an ever-emerging interdisciplinary field of biomedical research, which combines life, engineering and materials sciences, to progress the maintenance, repair and replacement of diseased and damaged tissues. The Cardiff Institute of Tissue Engineering & Repair (CITER) MSc in Tissue Engineering aims to provide graduates from life sciences and clinical backgrounds with an advanced knowledge, understanding and skills in the science and practice of tissue engineering; from theoretical science, through to research translation and clinical application. The Programme provides in-depth training in this branch of biomedical science, including stem cell biology, biomaterials and tissue/organ engineering. The MSc offers a balanced combination of theory and practice; and can serve either as preparation for a PhD or as a self-contained advanced qualification in its own right. The MSc in Tissue Engineering is both lecture- and laboratory-based, and includes a number of opportunities to visit relevant clinical settings and local industrial partners. Graduates from this Programme will have a broad spectrum of knowledge and a variety of skills, making them highly attractive both to potential employers and research establishments.

Distinctive features of this course include:

• The first course of its kind in the UK, created in response to demand in the field of tissue engineering for interdisciplinary teaching.

• Excellent clinical, academic and research facilities.

• High probability of further research study and careers in tissue engineering and repair, relevant to the CITER MSc remit.

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

• Opportunity to join a vibrant postgraduate community.

Structure

The CITER MSc Programme commences in September each year with Stage 1, a 6-month, taught component.

Stage 1 is taught almost entirely at a small group teaching level, supported by laboratory sessions, interactive workshops and tutorials, in addition to visits to relevant hospital clinics and local companies involved in producing tissue engineering and repair therapies. Modules are assessed by various written assignments, presentations and formal examinations.

On completing Stage 1, students undertake a 5-month, laboratory-based research project within the CITER network, between April-September (Stage 2). Projects are chosen by students from topics supplied by academic supervisors within CITER. Previous student projects have been in research areas such as embryonic or mesenchymal stem cell biology; cartilage, bone, skin or oral tissue repair; fibrosis; and biomaterials and drug delivery. Stage 2 culminates in the submission of an MSc Dissertation, based on MSc Project findings.

Core modules:

Cellular & Molecular Biology
Tissue Engineering From Concept To Clinical Practice
Research Methods
Stem Cells and Regenerative Medicine
Dissertation

Teaching

Teaching is delivered via lectures, laboratory sessions, interactive workshops and tutorials, in addition to visits to relevant hospital clinics, such as orthopaedics, nephrology and dermatology, and local companies involved in producing tissue engineering and repair therapies.

This Programme is based within the School of Dentistry and taught by academic staff from across Cardiff University and by external speakers.

All taught modules within the Programme are compulsory and students are expected to attend all lectures, laboratory sessions and other timetabled sessions. Students will receive supervision to help them complete the dissertation, but are also expected to engage in considerable independent study. Dissertation topics are normally chosen by the students from a list of options proposed by CITER academic staff in areas relevant to the MSc in Tissue Engineering.

Assessment

The 4 taught Modules within the Programme are assessed through in-course assessments, including:

Extended essays.
Oral presentations.
Poster presentations.
Statistical assignments.
Critical appraisals.
Dissertation (no more than 20,000 words).

Career prospects

After successfully completing this MSc, you should have a broad spectrum of knowledge and a variety of skills, making you highly attractive both to potential employers and research establishments.

Since its introduction in 2006, 95% of our MSc graduates have progressed onto career paths highly relevant to the CITER MSc remit. These include PhDs within CITER and at other UK, EU and USA Universities, Graduate-Entry Medicine, Specialist Registrar Training, Teaching, and positions in Industry and Clinical Laboratory settings.

Placements

You will have the opportunity to attend clinical attachments, in areas such as orthopaedics, nephrology and dermatology. Furthermore, you will also have the opportunity to visit local companies involved in producing tissue engineering and repair therapies for clinical use. These include Cell Therapy Ltd., Reneuron plc, Biomonde Ltd., and MBI Wales Ltd.

Read less
This innovative master program enables you to meet the demands of employers in the scientific field worldwide. You will be trained in all aspects of cutting edge molecular stem cell biology including legal and ethical aspects, good medical practice and acquisition of third party funding. Read more

Overview

This innovative master program enables you to meet the demands of employers in the scientific field worldwide. You will be trained in all aspects of cutting edge molecular stem cell biology including legal and ethical aspects, good medical practice and acquisition of third party funding. The course combines cutting edge approaches such as iPSC and bioprinting with traditional basic disciplines such as histology to secure an in-depth understanding towards innovative translational approaches in medicine. The course is entirely taught in English.

Learning outcome

Holding our degree means you have acquired a robust expertise in theory and practice in one of the most scientifically and ethically demanding biomedical fields of today.

During the first year of the program, students achieve a fundamental understanding of developmental processes that are linked to the current progress of stem cell research. This theoretical knowledge is further deepened and expanded on by hands-on experience in the relevant laboratories.

The inclusion of local national and international guest lecturers gives students the opportunity to get an idea what is going on in the field of stem cell research and which labs can be chosen for specialized practicals.

During the second year, the curriculum emphasizes application-oriented courses suited to understand the cellular and molecular basis of human diseases and to familiarize with the complex demands of modern medicine. The 4th semester is reserved for the master thesis; multiple international collaborations and a mobility window offer the chance to perform practicals and master thesis abroad.

Modules

The major modules in the program are listed below:

Stem Cell Physiology (I and II)
3x Lecture Series on recent developments in stem cell research (by national and international experts)
Bioinformatics
Stem Cell Practical Courses- 2 weeks-long practical courses (4 times)
Molecular Tracing Methods
Molecular Genetic Methods
Tissue Engineering
Lab Rotation
Pathology of Degenerative Diseases
Course in Animal Care and Handling
Scientific Responsibility in Biomedicine
Lab Bench Project & Grant Writing
Master Project
Language Courses

Possibility for International Double degree program `Stem Cell Biology and Regenerative Medicine´

In addition to the regular master program, we also offer a double degree master program in `Stem Cell Biology and Regenerative Medicine’ in collaboration with Jinan University in China. This program is supported by the DAAD (Deutscher Akademischer Austauschdienst) with a stipend of 800, -- Euros/month plus travel expenses (flight) for every participating student. The selection for this program will be made from the regular master students. More information is available on our website.

Ruhr University Bochum (RUB)

Ruhr University Bochum (RUB) has a very international outlook and it is closely interconnected with the thriving research and business initiatives of the surrounding Ruhr region. Aside from the RUB, the surrounding Ruhr region offers a lot of opportunities to young researchers, such as 15 universities, 4 Fraunhofer institutes, 4 Leibnitz institutes and 3 Max-Planck institutes, which makes it easy for the students to interact with the experts and get hands-on experience in the state-of-the-art laboratories.

Read less
Tissue engineering is an ever-emerging interdisciplinary field of biomedical research, which combines life, engineering and materials sciences, to progress the maintenance, repair and replacement of diseased and damaged tissues. Read more
Tissue engineering is an ever-emerging interdisciplinary field of biomedical research, which combines life, engineering and materials sciences, to progress the maintenance, repair and replacement of diseased and damaged tissues. The Cardiff Institute of Tissue Engineering & Repair (CITER) MSc in Tissue Engineering aims to provide graduates from life sciences and clinical backgrounds with an advanced knowledge, understanding and skills in the science and practice of tissue engineering; from theoretical science, through to research translation and clinical application. The Programme provides in-depth training in this branch of biomedical science, including stem cell biology, biomaterials and tissue/organ engineering. The MSc offers a balanced combination of theory and practice; and can serve either as preparation for a PhD or as a self-contained advanced qualification in its own right. The MSc in Tissue Engineering is both lecture- and laboratory-based, and includes a number of opportunities to visit relevant clinical settings and local industrial partners. Graduates from this Programme will have a broad spectrum of knowledge and a variety of skills, making them highly attractive both to potential employers and research establishments.

Distinctive features of this course include:

• The first course of its kind in the UK, created in response to demand in the field of tissue engineering for interdisciplinary teaching.

• Excellent clinical, academic and research facilities.

• High probability of further research study and careers in tissue engineering and repair, relevant to the CITER MSc remit.

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

• Opportunity to join a vibrant postgraduate community.

Course structure

The CITER MSc Programme commences in September each year with Stage 1, a 6-month, taught component.

Stage 1 is taught almost entirely at a small group teaching level, supported by laboratory sessions, interactive workshops and tutorials, in addition to visits to relevant hospital clinics and local companies involved in producing tissue engineering and repair therapies. Modules are assessed by various written assignments, presentations and formal examinations.

On completing Stage 1, students undertake a 5-month, laboratory-based research project within the CITER network, between April-September (Stage 2). Projects are chosen by students from topics supplied by academic supervisors within CITER. Previous student projects have been in research areas such as embryonic or mesenchymal stem cell biology; cartilage, bone, skin or oral tissue repair; fibrosis; and biomaterials and drug delivery. Stage 2 culminates in the submission of an MSc Dissertation, based on MSc Project findings.

Core modules:

Cellular & Molecular Biology
Tissue Engineering From Concept To Clinical Practice
Research Methods
Stem Cells and Regenerative Medicine
Dissertation

Teaching

Teaching is delivered via lectures, laboratory sessions, interactive workshops and tutorials, in addition to visits to relevant hospital clinics, such as orthopaedics, nephrology and dermatology, and local companies involved in producing tissue engineering and repair therapies.

This Programme is based within the School of Dentistry and taught by academic staff from across Cardiff University and by external speakers.

All taught modules within the Programme are compulsory and students are expected to attend all lectures, laboratory sessions and other timetabled sessions. Students will receive supervision to help them complete the dissertation, but are also expected to engage in considerable independent study. Dissertation topics are normally chosen by the students from a list of options proposed by CITER academic staff in areas relevant to the MSc in Tissue Engineering.

Support

All Modules within the Programme make extensive use of Cardiff University’s Virtual Learning Environment (VLE) Blackboard, on which students will find course materials and links to related materials. Students will be supervised when undertaking their dissertation. Supervision will include scheduled regular meetings to discuss progress, provide advice and guidance; and provide written feedback on draft dissertation contents.

Feedback:

Students will receive written feedback on all assessments, in addition to oral feedback on assessed oral/poster presentations.

Assessment

The 4 taught Modules within the Programme are assessed through in-course assessments, including:

Extended essays.
Oral presentations.
Poster presentations.
Statistical assignments.
Critical appraisals.
Dissertation (no more than 20,000 words).

Career prospects

After successfully completing this MSc, you should have a broad spectrum of knowledge and a variety of skills, making you highly attractive both to potential employers and research establishments.

Since its introduction in 2006, 95% of our MSc graduates have progressed onto career paths highly relevant to the CITER MSc remit. These include PhDs within CITER and at other UK, EU and USA Universities, Graduate-Entry Medicine, Specialist Registrar Training, Teaching, and positions in Industry and Clinical Laboratory settings.

Read less

  • 1
Show 10 15 30 per page



Cookie Policy    X