Biomedical Engineering with Healthcare Technology Management

Study mode:On campus Study type:Full-time Languages: English
Local:$ 11.6 k / Year(s) Foreign:$ 18 k / Year(s)  
StudyQA ranking:7481 Duration:24 months

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This exciting programme has been developed for science and engineering graduates who wish to work in an area of Clinical or Biomedical Engineering in the NHS, international healthcare organisations or in the medical devices industry. The course also welcomes those who already work in hospitals or industry who wish to gain academic training to further their career. The course focuses on developing up-to-date biomedical technology management skills and an innovative approach to research and design in biomedical engineering. It is suitable for recent graduates as well as clinical engineers already working in healthcare wishing to advance to management-level positions. As healthcare becomes increasingly dependent on advanced technology, this course meets the growing international need for Clinical Engineers with good technical and management skills.

Why study Biomedical Engineering with Healthcare Technology Management at City?
* Clinical and Biomedical Engineering is the fastest growing engineering discipline offering graduates a wide range of career opportunities in healthcare organisations and industries worldwide
* City University London has unique links with internationally-renowned London teaching hospitals, from which many of our teaching staff are drawn
* The course includes modules covering Biomedical Engineering and Instrumentation, Technology Infrastructure Management, as well as the latest advances in Medical Imaging and Telemedicine
* Individual projects are supported by the Biomedical Engineering Research Group at City as well as NHS Clinical Scientists
* A special module will provide an introduction to Anatomy, Physiology and Pathology designed for non-clinical science graduates
* The course can be taken full-time (12 months) or part-time (24 months)
* City University London is located in Central London, one of the world's most exciting and vibrant cities.

The syllabus has been designed in consultation with colleagues from the NHS and the healthcare industry based on the demand for Clinical Engineering graduates in the healthcare sector. This course provides specialised knowledge and invaluable skills in information technology, life sciences, mathematical methods, technology management, physical science and biomedical engineering. The most innovative areas of biomedical and clinical engineering will be covered and the course content draws from our research expertise in biomedical sensors, bio-optics, medical imaging imaging, signal processing and modelling. Modules are taught by academic lecturers as well as Clinical Scientists drawn from our collaborating institutions and departments, which include:

* Charing Cross Hospital, London
* The Royal London Hospital
* St Bartholomew's Hospital, London
* The London Chest Hospital
* Department of Radiography, School of Community and Health Sciences, City University London
* Department of Medical Informatics, School of Informatics, City University London

Course Structure Anatomy, Physiology and Pathology This module provides an introduction to the basic principles of biological medicine, and is designed for non-biological science graduates. An overview of human anatomy is provided designed on a systems-based approach. The basic principles of human and animal physiology will be studied alongside a range of important disease processes. Systems covered include: the respiratory system, the cardiovascular system, the brain and central nervous system, vision and hearing, skeletal and muscular systems and the digestive system. There will also be lectures focusing on key areas of medical practice such as anaesthesia and high-altitude medicine.
Clinical instrumentation This module focuses on the study of the design, construction and clinical testing of biomedical electronics and instrumentation for acquisition of bio-signals from the body. The module is split into two parts, lectures and laboratory sessions. The basic scientific principles underlying modern clinical measurement systems will be studied, including sensors, signal conditioning, calibration, data acquisition, analogue-to digital conversion and signal processing. Key clinical equipment will be studied in detail, including ECG, patient monitoring, pulse oximetry, laser Doppler systems etc. The laboratory sessions will allow students to design and test their own hardware and software with the aim of recording and interpreting real physiological measurements.
Cardiovascular Diagnostics and Therapy Cardiovascular medicine is an area with considerable dependence on engineering technology. The application of biomedical instrumentation applied to clinical measurement of the function of the heart and circulatory systems will be studied. In addition the module will provide insight into therapeutic systems including non-surgical interventions for treatment of coronary artery disease. The module culminates in a visit to St Bartholomew's hospital cardiothoracic operating theatres and intensive care units. Cardiac surgery will also be covered with a focus on new technology in surgery.
Medical Imaging Modalities Many aspects of modern medical imaging systems in currently in use in hospitals will be covered including CT, MRI and PET imaging. The module Includes lectures and demonstrations of X-ray imaging, CT, Ultrasonic imaging, MRI, PET etc. The module aims to enable graduates to apply their knowledge of clinical engineering to imaging technology in a clinical setting. Visits to the Department of Radiography will enable students to see each modality in practice. The module will provide sufficient knowledge of medical imaging technology to embark on specialist training (e.g. from a manufacturer) in management of specific medical imaging equipment.
Clinical Engineering Practice Teaching in Clinical Engineering Practice is given from the beginning of the MSc course. The module provides key skills, invaluable to Clinical Engineers such as fault-finding methodology, safety testing, calibration, environmental issues etc. The clinical use of a range of medical devices will be explained such as drug infusors, anaesthetic machines, surgical laser systems, endoscopic systems, defribillators, ventilators, etc. The technical challenges associated with the use of these devices in the clinical environment will also be explored. The module also gives a comprehensive introduction to risk management, quality systems and wireless networking technologies.
Healthcare Technology Management This module focuses on the management of technology, with an emphasis on the equipment life cycle. Lectures will cover the Identification/evaluation of need, the procurement process, purchasing, compliance risk assessment, safety certification, training, legal considerations, planned preventative maintenance, and quality control. Other topics such as contractual agreements, monitoring, audit etc, will be covered. The module has a strong emphasis on continuing professional development and is taught by senior Clinical Engineers from Charing Cross Hospital, where some teaching takes place.
Research skills This module provides background training in research skills to enable completion of the final project and will be invaluable for careers involving research. These skills include reading and appraising medical and scientific literature, searching for papers and articles, correct referencing, report writing and making presentations. Other areas covered include research ethics, analysis and representation of data, statistical methods, intellectual property, patent search, avoiding plaigarism etc. During the module, students choose the topic of their final project, so the later parts of the module are tailored to their individual project needs.

Applicants should have a first or second class Honours degree from a UK university or an equivalent qualification from a recognised overseas institution, in a physical science. However, we will also consider other qualifications with relevant experience in a field related to biomedical engineering and medical imaging as well as proficiency in mathematics.For those students whose first language is not English, one of the following qualifications is also required: * IELTS: 6.5 * TOEFL (internet based): 90 English Language Requirements IELTS band: 6.5 TOEFL iBT® test: 90 IMPORTANT NOTE: Since April 2014 the ETS tests (including TOEFL and TOEIC) are no longer accepted for Tier 4 visa applications to the United Kingdom. The university might still accept these tests to admit you to the university, but if you require a Tier 4 visa to enter the UK and begin your degree programme, these tests will not be sufficient to obtain your Visa. The IELTS test is most widely accepted by universities and is also accepted for Tier 4 visas to the UK- learn more.

Scholarships and Bursaries

* UK/EU applicants - up to £2,000
* Loyalty Bursary Scheme for City University London graduates - up to £2,500

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