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Masters Degrees (Pathobiology)

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The graduate program in Laboratory Medicine and Pathobiology provides a curriculum of courses and a broad-based multidisciplinary approach to research in mechanisms of human disease leading to the Master of Science and Doctor of Philosophy degrees. Read more
The graduate program in Laboratory Medicine and Pathobiology provides a curriculum of courses and a broad-based multidisciplinary approach to research in mechanisms of human disease leading to the Master of Science and Doctor of Philosophy degrees. The program emphasizes:
-Bone and Matrix Pathobiology
-Cancer
-Vascular and Cardiovascular Pathobiology
-Immunopathology, Lymphatics, and Transplantation
-Neuropathobiology and Endocrine Disorders
-Microbiology and Infectious Disease

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The Institute of Aquaculture is one of a handful of institutions worldwide wholly devoted to aquaculture science and is the only university department of its kind in the UK. Read more

Introduction

The Institute of Aquaculture is one of a handful of institutions worldwide wholly devoted to aquaculture science and is the only university department of its kind in the UK. The Institute is internationally recognised for both research and teaching and has more than 70 staff and 80 postgraduate students.
Our goal is to develop and promote sustainable aquaculture and in pursuit of this carry out research across most areas of aquaculture science including:
- Reproduction and Genetics
- Health Management
- Nutrition
- Environmental Management
- Aquaculture Systems and International Development

Key information

- Degree type: Postgraduate Diploma, MSc
- Study methods: Full-time
- Start date: September The course is available on a block-release basis (by selecting individual or a series of modules) over a period not exceeding five academic years.
- Course Director: Dr Trevor Telfer

Course objectives

You will gain an understanding of the biology, husbandry and environment of farmed aquatic species, in addition to specialist expertise in the prevention, diagnosis and treatment of aquatic animal diseases in cultured organisms. It is also intended as preparation for students who plan to pursue a PhD in the area of aquatic animal health or disease.

English language requirements

If English is not your first language you must have one of the following qualifications as evidence of your English language skills:
- IELTS: 6.0 with 5.5 minimum in each skill
- Cambridge Certificate of Proficiency in English (CPE): Grade C
- Cambridge Certificate of Advanced English (CAE): Grade C
- Pearson Test of English (Academic): 54 with 51 in each component
- IBT TOEFL: 80 with no subtest less than 17

For more information go to English language requirements https://www.stir.ac.uk/study-in-the-uk/entry-requirements/english/

If you don’t meet the required score you may be able to register for one of our pre-sessional English courses. To register you must hold a conditional offer for your course and have an IELTS score 0.5 or 1.0 below the required standard. View the range of pre-sessional courses http://www.intohigher.com/uk/en-gb/our-centres/into-university-of-stirling/studying/our-courses/course-list/pre-sessional-english.aspx .

Structure and content

The full Master’s course for each degree outcome is divided into four taught modules containing 12 subject areas or topics; two foundation modules, two advanced modules and a single Research Project module. The overall course is divided into three parts:

- Foundation modules
The Foundation modules are taught between September and December. There are six compulsory topics of study within two taught modules, taken consecutively, giving instruction in basic aquaculture concepts and skills. Successful completion of both Foundation modules will qualify you for a Postgraduate Certificate in Sustainable Aquaculture.

- Advanced modules
The two advanced modules consisting of six compulsory topics of study are taught between January and April. Successful completion of the advanced modules, subsequent to the Foundation modules, will qualify you for a Postgraduate Diploma in Aquatic Pathobiology.

- Research Project module
The Research Project module is normally completed between April and August, and involves research in many areas of aquatic animal health. These projects are mostly laboratory based and often result in peer-reviewed publications. Successful completion of the module, subsequent to foundation and advanced modules, will qualify you for an MSc in Aquatic Pathobiology.

Delivery and assessment

The course is delivered though a variety of formats including lectures, practical classes, seminars, field visits and directed study. Assessment consists of a number of assignments in a range of formats. The Research Project is graded on your activities during the project, your dissertation and a seminar presentation made in front of your peers, supervisors and examiners. The dissertation is examined by Aquaculture and external examiner.

Why Stirling?

REF2014
In REF2014 Stirling was placed 6th in Scotland and 45th in the UK with almost three quarters of research activity rated either world-leading or internationally excellent.

Rating

The Institute of Aquaculture, with a rating of 2.45 in the latest Research Assessment Exercise (RAE), was graded the top aquaculture department in the UK.

Strengths

The degree has been taught for almost 40 years and only one of its kind. It give students the unique opportunity to study the prevention, diagnosis and treatment of aquatic animal diseases in cultured organisms in one of the top institutions of the world.

Career opportunities

This course has run for almost 40 years and has trained over 200 students (in combination with Aquatic Veterinary Studies) from all over the world. It equips graduates with expertise applicable to a wide range of potential careers. The career path selected depends on your personal interests, as well as your previous experiences. Our graduates generally find employment in their area of interest and the world employment market in the area of aquatic animal health remains buoyant.
The course provides a natural career progression for most candidates and a conversion course for others wishing to enter the field. It also provides training for those who wish to pursue a PhD, especially in aquaculture, aquatic health, fisheries and aquatic resources management.
Over the last five intakes, in combination with the Aquatic Veterinary Studies degree, about 30 percent of graduates have gone on to a PhD or further research, about 25 percent have taken employment as aquatic health consultants, about 20 percent work in government fisheries departments, about 15 percent are university lecturers and the remainder are managers of farms or aquaria or have other types of employment.

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The department of pathobiology is dedicated to the advancement of knowledge in veterinary and comparative pathology, infectious diseases and immunology. Read more
The department of pathobiology is dedicated to the advancement of knowledge in veterinary and comparative pathology, infectious diseases and immunology. research in the department addresses such diverse areas as the pathogens of animals and how they interact with their hosts, emerging and zoonotic pathogens, antimicrobial resistance, the immunologic and genetic bases of resistance to infectious disease, development and progression of cancer, and mechanisms of immune-mediated and inflammatory diseases. We work on diseases of domestic mammals, poultry, laboratory animals, fish, wildlife, zoo and companion animals, from the molecular level to that of the population.

Programs

Research-based Msc or phd degrees are offered to veterinarians and non-veterinarians in all fields of study in the department. Veterinary specialty training is offered through dvsc and graduate diploma programs in anatomic pathology, clinical pathology, comparative pathology, laboratory animal science, fish disease, and zoo medicine/pathology for applicants with a dvM degree. Our graduate students typically continue their career in a diversity of positions, including academics, the public sector in Canada (provincial and federal government) and abroad, private industry and laboratories, as well as in speciality practice.

Faculty and laboratories

At the present time, there are 25 faculty, 42 staff members, and 60 graduate students who work in a new building with well-equipped shared laboratories and state-of-the-art equipment for quantitative rt-pCr, flow cytometry, fluorescent and optical microscopy, analysis of microarrays, 2d protein gel electrophoresis, multiplex elisa, laser capture microdissection, and tissue microarray. As well, our investigators have close interactions with other departments and other universities, and with the animal health laboratory, Center for public health and Zoonoses, and the public health agency of Canada.

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Food from aquatic systems is essential for much of the world’s population – but wild catches are declining. Fortunately Aquaculture (farming of aquatic animals) is an alternative source of high quality nutrition and employment. Read more

Introduction

Food from aquatic systems is essential for much of the world’s population – but wild catches are declining. Fortunately Aquaculture (farming of aquatic animals) is an alternative source of high quality nutrition and employment. Aquaculture has been very successful but diseases can be damaging. Aquaculture has over 40 years of experience in investigating and controlling fish and shrimp diseases worldwide, which it utilises to improve your problem-solving skills, equipping you to make a real contribution to the sustainability of aquaculture.

Key information

- Degree type: MSc, Postgraduate Diploma
- Study methods: Full-time
- Start date: September
- Course Director: Dr Trevor Telfer

Course objectives

The course is specifically aimed at students with a veterinary science qualification with the object of giving training in the wide range of disciplines and skills necessary for the investigation, prevention and control of aquatic animal diseases. You will gain an understanding of the biology, husbandry and environment of farmed aquatic species, in addition to specialist expertise in aquatic animal diseases. It is also intended to prepare students who plan to pursue a PhD in the area of aquatic animal health or disease.

English language requirements

If English is not your first language you must have one of the following qualifications as evidence of your English language skills:
- IELTS: 6.0 with 5.5 minimum in each skill
- Cambridge Certificate of Proficiency in English (CPE): Grade C
- Cambridge Certificate of Advanced English (CAE): Grade C
- Pearson Test of English (Academic): 54 with 51 in each component
- IBT TOEFL: 80 with no subtest less than 17

For more information go to English language requirements https://www.stir.ac.uk/study-in-the-uk/entry-requirements/english/

If you don’t meet the required score you may be able to register for one of our pre-sessional English courses. To register you must hold a conditional offer for your course and have an IELTS score 0.5 or 1.0 below the required standard. View the range of pre-sessional courses http://www.intohigher.com/uk/en-gb/our-centres/into-university-of-stirling/studying/our-courses/course-list/pre-sessional-english.aspx .

Structure and content

The full Master’s course for each degree outcome is divided into four taught modules containing 12 subject areas or topics; two Foundation modules, two Advanced modules and a single Research Project module. The overall course is divided into three parts:

- Foundation modules
The Foundation modules are taught between September and December. There are six compulsory topics of study within two taught modules, taken consecutively, giving instruction in basic aquaculture concepts and skills. Successful completion of both Foundation modules will qualify you for a Postgraduate Certificate in Sustainable Aquaculture.

- Advanced modules
The two Advanced modules consisting of six compulsory topics of study are taught between January and April. Successful completion of the advanced modules, subsequent to the Foundation modules, will qualify you for a Postgraduate Diploma in Aquatic Pathobiology.

- Research Project module
The Research Project module is normally completed between April and August, and involves research in many areas of aquatic animal health. These projects mostly laboratory based and often result in peer reviewed publications. Successful completion of the module, subsequent to foundation and advanced modules, will qualify you for an MSc in Aquatic Veterinary Studies.

Delivery and assessment

The course is delivered through a variety of formats including lectures, practical classes, seminars, field visits and directed study. Assessment consists of a number of assignments in a range of formats. The Research Project is graded on activities undertaken during the project, the thesis and a presentation you make in front of your peers, supervisors and examiners. The dissertation is examined by internal and external examiners.

Why Stirling?

REF2014
In REF2014 Stirling was placed 6th in Scotland and 45th in the UK with almost three quarters of research activity rated either world-leading or internationally excellent.

Rating

The Institute of Aquaculture, with a rating of 2.45 in the latest Research Assessment Exercise (RAE), was graded the top aquaculture department in the UK.

Strengths

The degree has been taught for almost 40 years and only one of its kind. It gives students the unique opportunity to study the prevention, diagnosis and treatment of aquatic animal diseases in cultured organisms in one of the top institutions of the world.

Career opportunities

The course has run for almost 40 years and has trained over 200 students (in combination with Aquatic Pathobiology) from all over the world. It equips you with expertise applicable to a wide range of potential careers. Our graduates generally find employment in their area of interest, and the world employment market in the area of aquatic animal health remains buoyant.
The course provides a natural career progression for most candidates and a conversion course for others wishing to enter the field. It also provides training for those who wish to pursue a PhD, especially in aquaculture, aquatic health, fisheries and aquatic resources management.
Over the last five intakes, in combination with the Aquatic Pathobiology degree, about 30 percent of graduates have gone on to a PhD or further research, about 25 percent have taken employment as fish health consultants or veterinarians, about 20 percent work in government fisheries departments, about 15 percent are university lecturers and the remainder are managers of farms or aquaria or have other types of employment.

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Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. Read more
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. The MRes in Translational Medicine provides high quality graduates with the research rigour, the innovation culture and the leadership skills to be at the forefront of this translational revolution and so develop a cohort of appropriately qualified scientific medical/dental and veterinary graduates.

Translational Medicine allows experimental findings in the research laboratory to be converted into real benefit for the health and well-being of the patient, through the development of new innovative diagnostic tools and therapeutic approaches.

The main objective of the MRes Programme in Translational Medicine is to provide high quality candidates with the research rigour, innovation culture and the leadership skills to be at the forefront of this translational revolution. Students will receive expert training in all aspects of translational medicine including how new experimental findings are translated into treatments for patients; the experimental steps in the process, the development of innovative solutions, management and leadership skills and an appreciation of marketing and financial aspects of translational medicine through interaction with business leaders and scientists from Biotech and Pharmacy

This research intensive programme incorporates a 38 week research project in an area selected by the student in consultation with the research project co-ordinator. student selected area.

QUB has an international reputation in translational medicine, achieved through the recognised metrics of high impact peer review publications, significant international research funding, the generation of exploitable novel intellectual property and the establishment of successful spin-out biotech companies. This ethos of innovation was recently recognised with the award of the Times Higher Education Entrepreneurial University of the Year.

This unique course offers students the chance to choose one of these three research streams with the indicated specialist modules:

-

Precision Cancer Medicine

This stream provides students with a unique opportunity to study cancer biology and perform innovative cancer research within the Centre for Cancer Research and Cell Biology (CCRCB). Prospective students are immersed in this precision medicine milieu from Day 1, providing for them the opportunity to understand the key principles in discovery cancer biology and how these research advances are translated for the benefit of cancer patients. The strong connectivity with both the biotech and biopharmaceutical sectors provides a stimulating translational environment, while also opening up potential doors for the student's future career.

-

Cardiovascular Medicine

This stream contains two complementary modules which significantly build on the foundation provided by undergraduate medicine or biomedical science to provide students with an advanced insight into current understanding of cardiovascular pathobiology and an appreciation of how this knowledge is being applied in the search for novel diagnostic, prognostic and therapeutic approaches for the clinical management of cardiovascular disease, which remains the leading cause of death worldwide. Students who select the Cardiovascular Medicine Stream will be taught and mentored within the Centre for Experimental Medicine which is a brand new, purpose-built institute (~7400m2) at the heart of the Health Sciences Campus. This building represents a significant investment (~£32m) by the University and boasts state-of-the-art research facilities which are supported by a world-leading research-intensive faculty, ensuring that all of our postgraduate students are exposed to a top quality training experience.

-

Inflammation, infection and Immunity

This stream exposes students to exciting concepts and their application in the field of infection biology, inflammatory processes and the role of immunity in health and disease. There will be detailed consideration of the role of the immune system in host defence and in disease. There is a strong emphasis is on current developments in this rapidly progressing field of translational medicine. Students learn how to manipulate the inflammatory/immune response and their interaction with microbes to identify, modify and prevent disease. Students will also be introduced to the concepts of clinical trials for new therapeutics, and the basic approach to designing a trial to test novel methods to diagnose/prevent or treat illness.

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Tropical animal science focuses on animal health and reproduction in tropical climates. Study areas may include. *Animal nutrition. Read more

What is tropical animal science?

Tropical animal science focuses on animal health and reproduction in tropical climates. Study areas may include:
*Animal nutrition
*Applied pathology
*Aquatic pathobiology
*Epidemiology and biometrics
*Immunology
*Microbiology
*Parasitology.

Who is this course for?

This course is for graduates from agricultural science, animal science, rural science, and science or related degrees who want to specialise in tropical animal health and reproduction.

Course learning outcomes

Tropical animal science covers the field of animal nutrition, welfare, and production with the aim of improving productivity of livestock, and better utilisation of animal resources in tropical, subtropical and similar agro-ecological environments.
Graduates of the Graduate Certificate of Tropical Animal Science will be able to:
*Apply advanced and integrated knowledge, including an understanding of recent developments in animal production and health issues relevant to developing countries and tropical regions of the World
*Analyse and synthesise complex information, problems, concepts and theories in new situations or contexts with creativity and independence
*Communicate theoretical knowledge using high level written English language and, where appropriate, numeracy skills, to a variety of audiences
*Make high level independent judgements in a range of professional functions, including professional competencies, behaviours and ethical frameworks, with responsibility and accountability for personal outputs and all aspects of the work.

Award title

GRADUATE CERTIFICATE OF TROPICAL ANIMAL SCIENCE (GCertTropAnimSc)

Course articulation

Students who complete this course are eligible for entry to the Graduate Diploma of Tropical Animal Science, and may be granted advanced standing for all subjects completed under this course.

Post admission requirements

Q Fever immunisation:
Students must provide evidence of being immune to Q Fever within the first teaching period of their studies. Students who are not immune to Q fever will not be permitted on-site at some facilities and consequently this may result in their inability to complete the requirements of the course as accredited by the relevant professional accrediting body. If a student has not complied with the above requirement by the last day of the first teaching period of their studies, their enrolment will be terminated immediately.

Entry requirements (Additional)

English band level 2 - the minimum English Language test scores you need are:
*Academic IELTS – 6.5 (no component lower than 6.0), OR
*TOEFL – 570 (plus minimum Test of Written English score of 4.5), OR
*TOEFL (internet based) – 90 (minimum writing score of 21), OR
*Pearson (PTE Academic) - 64

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English language proficiency requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 3a – Schedule II of the JCU Admissions Policy.

Why JCU?

James Cook University has:
*Purpose-built emergency veterinary clinic including operating theatres and radiology facilities
*anatomy and biomedical science teaching and research laboratories, including housing for small, large and aquatic animals
*veterinary teaching facilities in Atherton, Malanda, Townsville and Charters Towers.

Application deadlines

*1st February for commencement in semester one (February)

Read less
Tropical animal science focuses on animal health and reproduction in tropical climates. Study areas may include. *Animal nutrition. Read more

What is tropical animal science?

Tropical animal science focuses on animal health and reproduction in tropical climates. Study areas may include:
*Animal nutrition
*Applied pathology
*Aquatic pathobiology
*Epidemiology and biometrics
*Immunology
*Microbiology
*Parasitology.

Who is this course for?

This course is for graduates from agricultural science, animal science, rural science, and science or related degrees who want to specialise in tropical animal health and reproduction.

Course learning outcomes

Graduates of the Graduate Diploma of Tropical Animal Science will be able to:
*Apply advanced and integrated knowledge, including an understanding of recent developments, in the area of Tropical Animal Science and related professional competencies, behaviours and ethical frameworks
*Apply an integrated understanding of tropical animal science and its application to improve human quality of life by means of increased and cost effective food production in tropical regions
*Analyse and synthesise complex information, problems, concepts and theories in new situations or contexts with creativity and independence
*Demonstrate a high level of personal autonomy and accountability for their own future professional development through selection and integration of available subjects in tropical animal science
*Interpret and justify theoretical propositions, methodologies and conclusions to non-specialist audiences through high level written and oral communication and numeracy skills.

Award title

Graduate Diploma of Tropical Animal Science (GDipTropAnimSc)

Course articulation

Students who complete this course are eligible for entry to the Master of Tropical Animal Science, and may be granted advanced standing for all subjects completed under this course.

Post admission requirements

Q Fever immunisation:
Students must provide evidence of being immune to Q Fever within the first teaching period of their studies. Students who are not immune to Q fever will not be permitted on-site at some facilities and consequently this may result in their inability to complete the requirements of the course as accredited by the relevant professional accrediting body. If a student has not complied with the above requirement by the last day of the first teaching period of their studies, their enrolment will be terminated immediately.

Entry requirements (Additional)

English band level 2 - the minimum English Language test scores you need are:
*Academic IELTS – 6.5 (no component lower than 6.0), OR
*TOEFL – 570 (plus minimum Test of Written English score of 4.5), OR
*TOEFL (internet based) – 90 (minimum writing score of 21), OR
*Pearson (PTE Academic) - 64

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English language proficiency requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 3a – Schedule II of the JCU Admissions Policy.

Why JCU?

James Cook University has:
*Purpose-built emergency veterinary clinic including operating theatres and radiology facilities
*anatomy and biomedical science teaching and research laboratories, including housing for small, large and aquatic animals
*veterinary teaching facilities in Atherton, Malanda, Townsville and Charters Towers.

Application deadlines

*1st February for commencement in semester one (February)

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Biomedical science is integral to human and veterinary practice. It looks at how the body works and investigates ways to treat diseases through advanced tools and strategies. Read more

What is biomedical science?

Biomedical science is integral to human and veterinary practice. It looks at how the body works and investigates ways to treat diseases through advanced tools and strategies.
Students can do a general course or choose from three majors:
*Aquatic Microbiology
*Clinical Microbiology
*Physiology and Pharmacology.
These majors offer advanced level training in aquatic pathobiology, and clinical microbiology, and physiology and pharmacology, relevant to the domains of human and veterinary endeavour.

Course learning outcomes

Biomedical Science examines how the body works and investigates ways to treat diseases using advanced tools and strategies. It covers the fields of biochemistry, microbiology, physiology and anatomy with the aim of improving health outcomes for humans and animals in tropical, rural and remote and indigenous communities.
Graduates of the Masters of Biomedical Sciences will be able to:
*Apply and adapt advanced and integrated knowledge, including an understanding of recent developments, in the area of biomedicine and related professional competencies, behaviours and ethical frameworks
*Apply an integrated understanding of biomedical science and its application to improve human and animal health in rural, remote and indigenous community settings
*Analyse and synthesise complex information, problems, concepts and theories in new situations or contexts with creativity and independence
*Demonstrate a high level of personal autonomy and accountability for their own future professional development through reflection on current skills, knowledge and attitudes in the biomedical science arena
*Interpret and justify scientific propositions, methodologies and conclusions to specialist and non-specialist audiences through high level written and oral communication and numeracy skills
*Plan and execute or critically evaluate a substantial body of novel research with a large degree of independence.

Award title

MASTER OF BIOMEDICAL SCIENCES (MBiomedSc)

Post admission requirements

Hepatitis B immunisation:
Students must provide evidence of being immune to hepatitis B within the first teaching period of their studies. A blood-borne viral disease may result in a student’s inability to obtain a placement in a Queensland Health facility and consequently may result in their inability to complete the requirements of the course as accredited by the relevant professional accrediting body. If a student has not complied with the above requirement by the last day of the first teaching period of their studies, their enrolment will be terminated immediately.

Entry requirements (Additional)

English band level 2 - the minimum English Language test scores you need are:
*Academic IELTS – 6.5 (no component lower than 6.0), OR
*TOEFL – 570 (plus minimum Test of Written English score of 4.5), OR
*TOEFL (internet based) – 90 (minimum writing score of 21), OR
*Pearson (PTE Academic) - 64

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English Language Proficiency Requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 2 – Schedule II of the JCU Admissions Policy.

Why JCU?

James Cook University is dedicated to quality education and research. We have:
*Purpose-built emergency veterinary clinic including operating theatres and radiology facilities
*anatomy and biomedical science teaching and research laboratories, including housing for small, large and aquatic animals
*veterinary teaching facilities in Atherton, Malanda, Townsville and Charters Towers.

Application deadlines

*1st February for commencement in semester one (February)
*1st July for commencement in semester two (mid-year/July)

Read less
Tropical animal science focuses on animal health and reproduction in tropical climates. Study areas may include. *Animal nutrition. Read more

What is tropical animal science?

Tropical animal science focuses on animal health and reproduction in tropical climates. Study areas may include:
*Animal nutrition
*Applied pathology
*Aquatic pathobiology
*Epidemiology and biometrics
*Immunology
*Microbiology
*Parasitology.

Who is this course for?

This course is for graduates from agricultural science, animal science, rural science, and science or related degrees who want to specialise in tropical animal health and reproduction.

Course learning outcomes

Tropical animal science has become an area of global importance as world trade continues to expand and the challenge of future research is to develop better methods for improving production in all livestock species within tropical regions.
Tropical animal science covers the field of animal nutrition, welfare, and production with the aim of improving productivity of livestock, and better utilisation of animal resources in tropical, subtropical and similar agro-ecological environments.
Graduates of the Master of Tropical Animal Science will be able to:
*Demonstrate advanced and integrated knowledge, including an understanding of recent developments, in the area of tropical animal science and related professional competencies, behaviours and ethical frameworks
*Demonstrate an integrated understanding of tropical animal science and its application to improve human quality of life by means of increased and cost effective food production in tropical regions
*Evaluate and apply established and evolving evidence and concepts to reflect critically on theory and professional practice
*Design, plan and ethically execute a research project related to tropical animal science
*Analyse and synthesise complex information, problems, concepts and theories in new situations or contexts with creativity and independence
*Prepare a dissertation on a topic related to tropical animal science and compare and contrast the results obtained with those reported in the literature
*Demonstrate a high level of personal autonomy and accountability for their own future professional development through selection and integration of available subjects in tropical animal science
*Interpret and justify theoretical propositions, methodologies and conclusions to specialist and non-specialist audiences through high level written and oral communication and numeracy skills.

Award title

Master of Tropical Animal Science (MTropAnimSc)

Post admission requirements

Q Fever immunisation:
Students must provide evidence of being immune to Q Fever within the first teaching period of their studies. Students who are not immune to Q fever will not be permitted on-site at some facilities and consequently this may result in their inability to complete the requirements of the course as accredited by the relevant professional accrediting body. If a student has not complied with the above requirement by the last day of the first teaching period of their studies, their enrolment will be terminated immediately.

Entry requirements (Additional)

English band level 2 - the minimum English Language test scores you need are:
*Academic IELTS – 6.5 (no component lower than 6.0), OR
*TOEFL – 570 (plus minimum Test of Written English score of 4.5), OR
*TOEFL (internet based) – 90 (minimum writing score of 21), OR
*Pearson (PTE Academic) - 64

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English language proficiency requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 3a – Schedule II of the JCU Admissions Policy.

Why JCU?

James Cook University has:
*Purpose-built emergency veterinary clinic including operating theatres and radiology facilities
*anatomy and biomedical science teaching and research laboratories, including housing for small, large and aquatic animals
*veterinary teaching facilities in Atherton, Malanda, Townsville and Charters Towers.

Application deadlines

*1st February for commencement in semester one (February)
*1st July for commencement in semester two (mid-year/July)

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The Pre-Masters in Biomedical Science (Graduate Diploma in Biomedical Science) provides a discipline-specific pathway (a pre-masters year) into the taught Biomedical Blood Science masters level programme. Read more

Overview

The Pre-Masters in Biomedical Science (Graduate Diploma in Biomedical Science) provides a discipline-specific pathway (a pre-masters year) into the taught Biomedical Blood Science masters level programme. It is a one-year full-time programme designed for both home and international students, with a background in life sciences, who wish to study at postgraduate level for the MSc in Biomedical Blood Science. The programme is open to science graduates who do not meet the academic criteria for a direct entry into the MSc. The MSc in Biomedical Blood Science is accredited by the Institute of Biomedical Science (IBMS). The IBMS is the professional body of Biomedical Scientists within the United Kingdom. The IBMS aims to promote and develop the role of Biomedical Science within healthcare to deliver the best possible service for patient care and safety.

See the website https://www.keele.ac.uk/pgtcourses/biomedicalsciencegraduatediploma/

Course Aims

The overall aim is to provide the students with the academic background necessary for the masters programme and to enable them to develop and practise the subject specific academic skills required for the intensive pace of study at masters level. The course also aims to allow international students to benefit from English language support that will help them to develop their academic English language skills.

Intended learning outcomes of the programme reflect what successful students should know, understand or to be able to do by the end of the programme. Programme specific learning outcomes are provided in the Programme Specification available by request; but, to summarise, the overarching course aims are as follows:

- To provide students with core knowledge, understanding and skills relevant to Biomedical Science

- To produce skilled and motivated graduates who are suitably prepared for the MSc in Biomedical Science and for further study.

- To cultivate interest in the biosciences, particularly at the cellular and molecular level, within a caring and intellectually stimulating environment.

- To get an accurate insight into the role of Biomedical Scientists in the diagnosis, treatment and monitoring of disease.

- To develop an understanding of the analytical, clinical and diagnostic aspects of Cellular Pathology, Clinical Biochemistry, Medical Microbiology, Blood Transfusion, Clinical Immunology and Haematology pathology laboratories.

- To promote the development of a range of key skills, for use in all areas where numeracy and an objective, scientific approach to problem-solving are valued.

- To provide students with a wide range of learning activities and a diverse assessment strategy in order to fully develop their employability and academic skills, ensuring both professional and academic attainment.

- To promote the development of critical thinking, autonomous learning, independent research and communication skills to help prepare the students for the MSc in Biomedical Blood Science and for a lifetime of continued professional development.

Course Content

All the modules in this one year programme are compulsory. The programme consists of a total of 90 credits made up of one 30 credit module and four 15 credit modules. An additional English module (English for Academic Purposes) will be offered for non-native English speakers if required. This module will not form part of the overall award, but successful completion is required for progression to the Masters programme.

Modules:
- Biomedical Science and Pathology (30 credits):
The module provides the student with the knowledge and understanding of the pathobiology of human disease associated with Cellular Pathology, Clinical Immunology, Haematology, Clinical Biochemistry, Medical Microbiology and Clinical Virology. It also examines the analytical and clinical functions of three more of the major departments of a modern hospital pathology laboratory, including Haematology, Clinical Pathology, Clinical Immunology, Blood Transfusion, Clinical Biochemistry and Medical Microbiology. In addition, the module will give an accurate insight into the role of Biomedical Scientists and how they assist clinicians in the diagnosis, treatment and monitoring of disease.

- Biochemistry Research Project (non-experimental) (15 credits):
This module aims to introduce students to some of the key non-experimental research skills that are routinely used by biochemists and biomedical scientists, such as in depth literature searching, analysis of experimental data and the use of a computer as tool for both research (bioinformatics) and dissemination of information (web page construction). The student will research the literature on a specific topic, using library and web based resources and will produce a written review. In addition, the student will either process and interpret some raw experimental data provided to them.

- Advances in Medicine (15 credits):
This module will describe and promote the understanding of advances in medicine that have impacted on diagnosis, treatment, prevention of a range of diseases. It will highlight fast emerging areas of research which are striving to improve diagnosis including nanotechnology and new biochemical tests in the fields of heart disease, cancer and fertility investigations which will potentially improve patient care.

- Clinical Pathology (15 credits):
The majority of staff that contribute to the module are employees of the University Hospital of North Staffordshire (UHNS). Students will benefit from lectures and expertise in Clinical Diagnostic Pathology, Pharmacology, Biochemistry, Genetics and Inflammatory Diseases. Students will gain an insight into how patients are managed, from their very first presentation at the UHNS, from the perspective of diagnosis and treatment. The course will cover both standardised testing options and the development of new diagnostic procedures with a particular emphasis on genetic and epigenetic aspects of disease. Students will also gain an appreciation of the cost benefit of particular routes for diagnosis and treatment and the importance of identifying false positive and false negative results. Finally, the students will have the opportunity to perform their own extensive literature review of a disease-related topic that is not covered by the lectures on the course.

- Case Studies in Biomedical Science (15 credits):
This module aims to give you an understanding of the UK health trends and the factors that affect these trends. Through clinical case studies and small group tutorials, you will explore why the UK has some of the highest incidences of certain diseases and conditions in Europe and consider what factors contribute to making them some of the most common and/or rising health problems faced by this country. This will include understanding the relevant socioeconomic factors as well as understanding the bioscience of the disease process and its diagnosis and management. You will also focus on what is being done by Government and the NHS to tackle these major health problems.

- English for Academic Purposes (EAP ):
For non-native English speakers if required

Teaching & Assessment

In addition to the lecture courses and tutorials, problem based learning (PBL) using clinical scenarios is used for at least one module. Students will also be given the opportunity to undertake an independent non-experimental research project, supervised and supported by a member of staff. Web-based learning using the University’s virtual learning environment (KLE) is also used to give students easy access to a wide range of resources and research tools, and as a platform for online discussions and quizzes. Students will be given many opportunities to become familiar with word processing, spreadsheets and graphics software as well as computer-based routes to access scientific literature.

All modules are assessed within the semester in which they are taught. Most contain elements of both ‘in-course’ assessment (in the form of laboratory reports, essays, posters) and formal examination, although some are examined by ‘in-course’ assessment alone.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this post graduate programme.

Find information on Scholarships here - http://www.keele.ac.uk/studentfunding/bursariesscholarships/

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Accredited by the Institute of Biomedical Science (IBMS), this programme provides a solid foundation for hospital laboratory-based employees to progress through Agenda for Change bandings and can form part of the requisite qualifications for eligibility for Chartered Scientist. Read more
Accredited by the Institute of Biomedical Science (IBMS), this programme provides a solid foundation for hospital laboratory-based employees to progress through Agenda for Change bandings and can form part of the requisite qualifications for eligibility for Chartered Scientist.

Applicants to the programme must be employed as biomedical scientists in an NHS pathology service laboratory to enable the completion of the work-based learning components.

This is a part-time programme involving periods of day-release study, designed to enhance the career prospects of NHS biomedical scientists. It encompasses the advanced study of pathophysiology, aspects of quality and laboratory management, research methods, research planning and an extensive laboratory-based project relating to a topic agreed in association with your employer.

The syllabus includes an integrated systems approach to the study of disease in pathobiology. Our modules incorporate work-based learning in the form of an IBMS Specialist Training Portfolio in your specific discipline.

In conjunction with the Masters research project, this delivers discipline-specific elements to the programme, which is otherwise a broad, generic biomedical science course.

Professional Accreditation

The MSc qualification links into the NHS career and salary structures and it is the only IBMS accredited, taught, generic postgraduate programme of its kind offered in the city of Glasgow.

The Institute of Biomedical Science (IBMS) is the professional body for those who work within the field of biomedical science.

An IBMS accredited degree programme provides students with a wide ranging, research-informed scientific education, covering the molecular, cellular and systemic basis of disease and the application of scientific principles and techniques to its investigation, diagnosis and treatment.

IBMS accreditation is an internationally recognised quality benchmark, which ensures a biomedical science degree programme is taught to a high standard, relevant to current professional practice and anticipates future developments in the scientific field.

IBMS accreditation ensures that your honours degree course meets the academic requirements for registration as a biomedical scientist with the Health and Care Professions Council (HCPC).

Employment Opportunities

The inclusion of aspects of training, quality and laboratory management will equip you with the necessary skills mix to practice in the profession at a leadership level.

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Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. Read more
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. The MRes in Translational Medicine provides high quality graduates with the research rigour, the innovation culture and the leadership skills to be at the forefront of this translational revolution and so develop a cohort of appropriately qualified scientific medical/dental and veterinary graduates.

Translational Medicine allows experimental findings in the research laboratory to be converted into real benefit for the health and well-being of the patient, through the development of new innovative diagnostic tools and therapeutic approaches.

The main objective of the MRes Programme in Translational Medicine is to provide high quality candidates with the research rigour, innovation culture and the leadership skills to be at the forefront of this translational revolution. Students will receive expert training in all aspects of translational medicine including how new experimental findings are translated into treatments for patients; the experimental steps in the process, the development of innovative solutions, management and leadership skills and an appreciation of marketing and financial aspects of translational medicine through interaction with business leaders and scientists from Biotech and Pharma

This research intensive programme incorporates a 38 week research project in an area selected by the student in consultation with the research project co-ordinator. student selected area.

QUB has an international reputation in translational medicine, achieved through the recognised metrics of high impact peer review publications, significant international research funding, the generation of exploitable novel intellectual property and the establishment of successful spin-out biotech companies. This ethos of innovation was recently recognised with the award of the Times Higher Education Entrepreneurial University of the Year.

This unique course offers students the chance to choose one of these three research streams with the indicated specialist modules:

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Precision Cancer Medicine

This stream provides students with a unique opportunity to study cancer biology and perform innovative cancer research within the Centre for Cancer Research and Cell Biology (CCRCB). Prospective students are immersed in this precision medicine milieu from Day 1, providing for them the opportunity to understand the key principles in discovery cancer biology and how these research advances are translated for the benefit of cancer patients. The strong connectivity with both the biotech and biopharmaceutical sectors provides a stimulating translational environment, while also opening up potential doors for the student's future career.

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Cardiovascular Medicine

This stream contains two complementary modules which significantly build on the foundation provided by undergraduate medicine or biomedical science to provide students with an advanced insight into current understanding of cardiovascular pathobiology and an appreciation of how this knowledge is being applied in the search for novel diagnostic, prognostic and therapeutic approaches for the clinical management of cardiovascular disease, which remains the leading cause of death worldwide. Students who select the Cardiovascular Medicine Stream will be taught and mentored within the Centre for Experimental Medicine which is a brand new, purpose-built institute (~7400m2) at the heart of the Health Sciences Campus. This building represents a significant investment (~£32m) by the University and boasts state-of-the-art research facilities which are supported by a world-leading research-intensive faculty, ensuring that all of our postgraduate students are exposed to a top quality training experience.

-

Inflammation, infection and Immunity

This stream exposes students to exciting concepts and their application in the field of infection biology, inflammatory processes and the role of immunity in health and disease. There will be detailed consideration of the role of the immune system in host defence and in disease. There is a strong emphasis is on current developments in this rapidly progressing field of translational medicine. Students learn how to manipulate the inflammatory/immune response and their interaction with microbes to identify, modify and prevent disease. Students will also be introduced to the concepts of clinical trials for new therapeutics, and the basic approach to designing a trial to test novel methods to diagnose/prevent or treat illness.

Read less
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. Read more
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. The MRes in Translational Medicine provides high quality graduates with the research rigour, the innovation culture and the leadership skills to be at the forefront of this translational revolution and so develop a cohort of appropriately qualified scientific medical/dental and veterinary graduates.

Translational Medicine allows experimental findings in the research laboratory to be converted into real benefit for the health and well-being of the patient, through the development of new innovative diagnostic tools and therapeutic approaches.

The main objective of the MRes Programme in Translational Medicine is to provide high quality candidates with the research rigour, innovation culture and the leadership skills to be at the forefront of this translational revolution. Students will receive expert training in all aspects of translational medicine including how new experimental findings are translated into treatments for patients; the experimental steps in the process, the development of innovative solutions, management and leadership skills and an appreciation of marketing and financial aspects of translational medicine through interaction with business leaders and scientists from Biotech and Pharmacy

This research intensive programme incorporates a 38 week research project in an area selected by the student in consultation with the research project co-ordinator. student selected area.

QUB has an international reputation in translational medicine, achieved through the recognised metrics of high impact peer review publications, significant international research funding, the generation of exploitable novel intellectual property and the establishment of successful spin-out biotech companies. This ethos of innovation was recently recognised with the award of the Times Higher Education Entrepreneurial University of the Year.

This unique course offers students the chance to choose one of these three research streams with the indicated specialist modules:

-

Precision Cancer Medicine

This stream provides students with a unique opportunity to study cancer biology and perform innovative cancer research within the Centre for Cancer Research and Cell Biology (CCRCB). Prospective students are immersed in this precision medicine milieu from Day 1, providing for them the opportunity to understand the key principles in discovery cancer biology and how these research advances are translated for the benefit of cancer patients. The strong connectivity with both the biotech and biopharmaceutical sectors provides a stimulating translational environment, while also opening up potential doors for the student's future career.

-

Cardiovascular Medicine

This stream contains two complementary modules which significantly build on the foundation provided by undergraduate medicine or biomedical science to provide students with an advanced insight into current understanding of cardiovascular pathobiology and an appreciation of how this knowledge is being applied in the search for novel diagnostic, prognostic and therapeutic approaches for the clinical management of cardiovascular disease, which remains the leading cause of death worldwide. Students who select the Cardiovascular Medicine Stream will be taught and mentored within the Centre for Experimental Medicine which is a brand new, purpose-built institute (~7400m2) at the heart of the Health Sciences Campus. This building represents a significant investment (~£32m) by the University and boasts state-of-the-art research facilities which are supported by a world-leading research-intensive faculty, ensuring that all of our postgraduate students are exposed to a top quality training experience.

-

Inflammation, infection and Immunity

This stream exposes students to exciting concepts and their application in the field of infection biology, inflammatory processes and the role of immunity in health and disease. There will be detailed consideration of the role of the immune system in host defence and in disease. There is a strong emphasis is on current developments in this rapidly progressing field of translational medicine. Students learn how to manipulate the inflammatory/immune response and their interaction with microbes to identify, modify and prevent disease. Students will also be introduced to the concepts of clinical trials for new therapeutics, and the basic approach to designing a trial to test novel methods to diagnose/prevent or treat illness.

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The collaborative specialization in Neuroscience provides a unique opportunity for students engaged in research in the rapidly expanding field of Neuroscience by permitting students to combine their departmental degree with multidisciplinary exposure to the field of Neuroscience. Read more
The collaborative specialization in Neuroscience provides a unique opportunity for students engaged in research in the rapidly expanding field of Neuroscience by permitting students to combine their departmental degree with multidisciplinary exposure to the field of Neuroscience. This unique combination of multidisciplinary studies provides students with the best possible foundation for academic careers in Neuroscience and related areas. The collaborative specialization includes participation from core faculty in the following departments: Animal Biosciences, Biomedical Science, Clinical Studies, Human Health & Nutritional Sciences, Integrative Biology, Molecular & Cellular Biology, Pathobiology, Population Medicine, and Psychology.

Courses

In addition to courses required by their home department, students enrolled in the collaborative specialization in Neuroscience must complete: NEUR*6000 Principles in Neuroscience and NEUR*6100 Seminar in Neuroscience. Students must register for NEUR*6100 every fall and winter semester that they are in the collaborative specialization.

Faculty

Graduate studies at the University of Guelph are supported by internationally renowned faculty who are engaged in cutting-edge research and practice. You will have an opportunity to work closely with faculty members who are committed to the development of their students and will empower you to think critically, explore new realms of knowledge, and apply what you have learned in order to develop the skills you need to be competitive in your chosen discipline.

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This programme addresses both academic and professional requirements. Read more
This programme addresses both academic and professional requirements: it integrates academic knowledge and understanding with both the needs of the working professional clinical perfusion scientist and the demands of professional registration with the Society of Clinical Perfusion Scientists of Great Britain and Ireland (SCPS).

It will develop your interest in and knowledge and understanding of perfusion science. Successful completion of the programme will lead to accreditation as a clinical perfusion scientist by the SCPS.

This MSc provides high-quality, research-led education that is focused on the needs and expectation of students interested in perfusion science. It will equip you with enhanced knowledge, understanding and critical awareness of the current approaches and emerging research in the field. It will cover:

- Advanced physiology and disease states of organs that are affected by Cardiopulmonary bypass (CPB) and thereby relevant to perfusion science.
- Composition and function of blood and implications of transfusion and use of CPB on function.
- Detailed knowledge regarding pathobiology, epidemiology and symptoms of cardiovascular diseases (coronary artery disease, valve and heart disease, paediatric heart disease) and their current treatments.
- Current pre-clinical and clinical research to improve the treatment of patients with cardiovascular disease.
- A theoretical background in quantitative statistics leading to more advanced knowledge on clinical trial design and management.
- Principles and practical aspects of the currently used techniques in adult and paediatric perfusion science.
- The key elements of a well-designed research project.

The programme provides a firm theoretical grounding in the basic scientific principles and clinical applications of perfusion science. In conjunction with work-based practical training, this will provide you with the essential skills for employment or a further degree in this field. In addition, you will also be introduced to key practical techniques that you will require as a perfusion scientist.

Programme structure

This programme will be delivered in a blended learning format, utilising both distance (online) learning and campus-based teaching. Students will be required to attend Bristol for eight one-week blocks during the two years, for either lectures or exams.

All units are mandatory.
- Anatomy and physiology (20 credits)
- Clinical Trials and Statistics (10 credits)
- Coronary Artery Disease (20 credits)
- Adult CPB principles and practice (20 credits)
- Heart and Valve Disease (20 credits)
- Paediatric perfusion and circulatory support (20 credits)
- Work-based assessment (10 credits)
- Research project (60 credits): This can either be a 'wet' or a 'dry' project of an appropriate area of study. It will be presented both in written form and orally with a mini-presentation and viva.

Careers

This programme will accredit trainees as clinical perfusion scientists.

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