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  • #39 Boburshokh
    Andijan, Uzbekistan
  • +8374 234 31 64
  • 09:00am to 6:00pm
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Master program in the field of Clinical Engineering


The Master of Science in Clinical Engineering was created to respond to increased needs for healthcare in our society. A Clinical engineer acts as an integrator between medical specialists and engineering specialists.

The broad technological background that is essential in Clinical engineering also makes Clinical engineers attractive to conventional industrial sectors.

Integrated approaches to enable prevention of injury and disease and support healthy aging and engineered novel therapeutics.

Special subjects

  • Introduction to Clinical Engineering (6 ECTS)
  • Clinical technology assessment (6 ECTS)
  • Technical English for Clinical Engineering (4 ECTS)
  • Simulation Methods in Clinical Engineering (6 ECTS)
  • Telemedicine Systems and Technologies (4 ECTS)
  • Automated Analysis of Images (6 ECTS)
  • Motion Analysis Systems and Technologies (4 ECTS)
  • Automation of Biomedical Research (4 ECTS)
  • Maintenance and Repair of Modern Medical Equipment (9 ECTS)
  • Advanced Methods and Tools for Biomedical Data Analysis (6 ECTS)
  • Modern Problems of Clinical Engineering (3 ECTS)
  • Technologies for sensors and clinical instrumentation (6 ECTS)

General Information

Language of instructions: English

Degree acquired: Master's

Number of students: 10-15

Program: 120 ECTS credits, full-time Master’s Degree (2 years)

Eligibility: Candidates must hold a Bachelor's Degree in an engineering or medical related field

Academic year includes: 2 semesters beginning on 1st September and 10st February

Holidays: Winter holidays - 2 weeks (January); Summer holidays - 2 months (July, August)

Application deadline: August

Master’s Thesis defense: June

  • How do Clinical engineers differ from other engineers?

    • Clinical engineers must integrate technology and medicine with engineering to solve problems related to medical devices systems.
    • Clinical engineers are expected to integrate their engineering skills with their understanding of the complexity of technological systems in order to improve medical practice.
  • Where is a Clinical engineer working?

    Medical technology companies
    Health delivery organizations
    Planning and consultancy offices, certification authorities
    Research and development
  • Learning outcomes of the study program

    • Ability to apply different methods for signal and image processing for implementing a project in the biomedical engineering field and to use of assistive technology devices and services and to understand the functional approach to the assessment of assistive technology needs and various technologies used by people with disabilities
    • Ability to apply knowledge of engineering science in the solution of radiation therapy and dosimetry, and to use and to design an e-health or a telemedicine
    • Performing of laboratory clinical analysis, selection of working techniques, principles and methods of dosing, investigating correlations between physiological and pathological variations in order to establish a positive and differential diagnosis;
    • Identify and manipulate equipment and specific advanced techniques for obtaining and processing of bio products. Perform the quality control according to the international ethical standards, and the risk assessment.