Магистрат наук в области биомедицинской инженерии

Биомедицинская инженерия - это междисциплинарная специальность, которая применяет инженерные принципы для решения клинических проблем. Эта дисциплина в основном касается медицинской терапии, контроля устройств и диагностических инструментов. Вклад биомедицинской инженерии в общество быстро ростет со времен Второй мировой войны. На самом деле, сообщество биомедицинской инженерии недавно перечислило наиболее выдающиеся современные технологии и приложения, появившиеся в результате биомедицинской инженерии. Они включают:

  • Искусственные органы, такие как кардиостимуляторы, слуховые аппараты, синтетические кровеносные сосуды и системы гемодиализа
  • Компьютерное моделирование систем организма, таких как почечная функция и аппараты для измерения артериального давления
  • Медицинская визуализация, которая включает магнитно-резонансную томографию (МРТ), рентгеновскую томографию, ультразвук, позитронно-эмиссионную томографию и многое другое.

Другие применения биомедицинской инженерии включают разработку биоматериалов, регенеративную инженерию, спортивную медицину и современные терапевтические устройства. Кроме того, смарт технологии становятся важными в здравоохранении. Например, смарт технологии позволяют использовать анализ в реальном времени, чтобы помочь врачам в диагностике заболеваний, а также в использовании аналитиких данных для оказания помощи. Некоторые из этих возможностей могут присутствовать в машинах или оборудовании, разработанных биомедицинскими инженерами.

Total Number of Credits: 248 ECTS

Year 1
Year 2

* Student can choose an elective course from other Departments in SEDS or Schools per approval of the advisor and the Head of Department. At least two electives should be taken from the MBME Program.

Program Elective Courses

  • MBME 700 Strategies for Controlled Topical Delivery of Drugs
  • MBME 701 Microbiology
  • MBME 702 Diagnostic Methods and Clinical Chemistry
  • MBME 703 Medical Device Technology
  • MBME 705 Infectious Diseases and Antimicrobial Strategies
  • MBME 708 Biomedical Imaging
  • MBME 709 Mechanics of Living Tissues

Core courses

MSC600: Research Methods and Ethics
This course addresses the primary need for graduate students to undertake formal training that will help them in understanding how to conduct their research. The course will develop student’s understanding of research plan and engender skills enhancement for reading, interpreting, writing and presenting key ideas. The course will also instill an understanding of a variety of research methods and ethics, and implement appropriate strategies in lecture and workshop settings.
MSC601: Technical Communication
This graduate level course combines the application of rhetorical analysis to stylistic conventions of writing in engineering, with a focus on clarity, conciseness, and coherence. Students will employ process writing to produce genre specific writing familiar to engineers, including research reports, and scientific papers designed for specific audiences. This course also trains students to deliver effective and appealing professional and scientific presentations, with attention to best practices in use of technical English and oral communication.
MSC602: Advanced Applied Mathematics

This course reviews and deepens the advanced analytical and numerical methods to solve ordinary and partial differential equations. The whole course, lectures and tutorials, will be delivered through a mathematical software package capable of performing symbolical calculations.

The module is designed for graduate students to cover their research needs concerning mathematical modeling via analytical, semi-analytical or numerical techniques.

MBME 600: Research Seminar
This course enables students to gain and apply basic research knowledge and skills to select their research projects in Biomedical Engineering. Course will provide to students a series of presentations intended to broaden their understanding of Biomedical Science and Engineering and to provide them with opportunities to interact with scientists and engineers in the field. Presentations will also be given relating to the development of the studentsʼ academic and professional careers. In addition to lectures, each student will prepare a research proposal (assessed by Lead Supervisor, Co-Supervisor and External Examiner) and present one seminar with her/his intended topic of research in front of panel of faculty (Supervisors and extra faculty) and MSc students’ audience.
MBME601: Master Thesis I
This course intends to give students the opportunity to develop their Master Thesis research proposal and to develop a thorough literature review on their research topic in Biomedical Engineering. Student will prepare a research proposal (assessed by Lead Supervisor, Co-Supervisor and External Examiner) and present research progress report with her/his intended topic of research in front of panel of faculty (Supervisors and extra faculty).
MBME602: Master Thesis II
This course intends to give students the opportunity to fully implement the research proposal and bring it to a conclusion. The course develops the knowledge and skills about planning and conducting independent research at an advanced level, critically analyzing research results, effectively presenting results to a wide audience, and effectively compiling the results in the form of an authoritative thesis.
MBME 603: Biomaterials Science & Engineering
The course “Biomaterials Science & Engineering” will present an overview of synthetic and natural materials, which are currently used in different areas of biomedical engineering. Structure and function of these materials will be discussed. Special emphasis will be laid on polymeric biomaterials such as polyolefins, poly-urethanes, biodegradable poly-esters and poly-peptides, and crosslinked hydrogel systems. Polymer biomaterials are nowadays encountered in almost all medical subdisciplines such as dentistry, orthopedic surgery, vascular surgery, gynecology, oncology and ophthalmology. Specific examples in these fields will be highlighted. The use of metals in biomedical applications (e.g., titanium and shape-memory alloys) will also be discussed. Furthermore, the concept of “biocompatibility” will be covered with regard to in-vitro and in-vivo applications of biomaterials.
MBME 604: Biosensors
The Biosensors course will provide an interdisciplinary view of biosensors, focusing on the technological aspects, as well as on implementation and applications, with elements of electronics, photonics, surface chemistry, and biology. The course will present electronic biosensors, optical biosensors, biorecognition and functionalization, and applications of biosensors.
MBME 607: Advanced Tissue Engineering
This course is designed to cover the most recent advancements in different areas of applications of tissue engineering. The topics in this course will include tissue engineering strategies such as i) compositional, structural and functional analysis of different tissues in human body, ii) design, fabrication and 19 utilization of scaffold biomaterials and iii) cellular engineering including cell therapy, drug delivery; as well as cell-biomaterial interactions. Recent advances and major problems relevant to tissue engineering will also be presented and discussed. Instructor will present relevant topics in the class and guide students when needed. The students should appear in the class as they will be presenting/discussing topics with their classmates. Each student will choose an area of application and advance her/his knowledge in the particular area of tissue engineering. More specifically, the topics in this course will include Research methodology, Recent Progress in Tissue Engineering, Biomaterials, Scaffold design and Manufacturing, Controlled Release, Bone Tissue Engineering, Cartilage Tissue Engineering, Tendon/Ligament Tissue Engineering, Dental Tissue Engineering, Skin Tissue Engineering, Cartilage-bone interface regeneration, Tendon-bone interface regeneration, Tissue Engineering Products in the Market.The British Higher School of Art and Design (BHSAD) is a partner of the University of Hertfordshire (UH) running six validated BA (Hons) programs. Upon successful completion of studies, BHSAD students are eligible to receive academic awards issued by the University of Hertfordshire and identical to those provided for UH graduates. Our students can transfer freely to UH and return back for any semester during their studies.
MBME 700: Strategies for Controlled Topical Delivery of Drugs
The course will discuss the most important contemporary strategies and methods for controlled topical delivery of drugs in clinical practice. The course will focus on the use of advanced devices and biomaterials to achieve the aim of supplying drugs in adequate quantities to target tissues, during an extended time interval. Examples will be abstracted from oncology (e.g., local delivery of cytostatic and/or angiogenic agents to solid tumors), ophthalmology (e.g., delivery of drugs to anterior and posterior parts of the eye), pulmonary drug delivery, etc. Methods to achieve long-duration contraception will be discussed as well. Evidently, emphasis will be put on technical/engineering aspects, such as the use micropump technologies, use of synthetic hydrogel biomaterials in systems for controlled local drug delivery, use of drug-releasing micro- and nanoparticles, transdermal drug delivery, nasal/pulmonary drug delivery, and drug delivery from implanted devices, such as endovascular stents, subcutaneous contraceptive devices, and injected microparticles carrying and locally releasing antineoplastic cytostatic drugs. Master students will be expected to study, in depth, 5-6 recent scientific papers in the field of controlled drug delivery and to present the content of these works in a mini-seminar

MBME 703: Medical Device Technology
The course will discuss contemporary medical devices including innovation and advanced technologies for healthcare, challenges and future opportunities. The focus of the course is on a design and fundamental technologies from both the medical and engineering perspectives. Course will present an introduction of medical devices (electrical and mechanical device) and procedures including. The topics include understanding the needs for specific medical devices, physiology, risks and benefits of medical device design and ethical issues. Examples will be abstracted from sensors, pacemakers, heart valves, implantable cardio devices, mechanical ventilators etc. This course will also cover biocompatibility testing and accelerated age testing of the devices. Course will consist of lectures, case studies and class discussion. There will be a brief oral presentation complete with PowerPoint® slides to the class.