Overview Road Map Career Prospects
Program Details
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Duration
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4 Years
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Entry Requirements
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50% marks Required FSc Pre-Engineering, ICS, Pre-Medical, A Levels / DAE or Equivalent with mathematics and no third division in matric
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Minimum Percenatge marks in admission Test
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50%
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Learning Investment
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890000
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Quarterly Fee
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55625
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Program Type
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Morning
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Curriculum Roadmap
The BS Biomedical Engineering Technology program at UMT is structured to provide a balanced blend of foundational knowledge, hands-on laboratory experience, and specialized electives. Students progress through a carefully designed sequence of courses, building expertise in engineering fundamentals, biological sciences, and biomedical technologies.
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Year
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Core Courses & Focus Areas
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Laboratory Experience & Milestones
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Year 1
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Mathematics for Engineers
Physics
Introduction to Biology & Human Anatomy
Basic Electronics & Circuit Theory
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Electronics & Mechatronics Lab
Anatomy Models Workshop
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Year 2
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Engineering Mechanics
Biomaterials
Fluid Mechanics
Biomedical Signals & Instrumentation
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Biomechanics & Motion Analysis Lab
Biomedical Instrumentation Lab
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Year 3
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Medical Imaging System
Prosthetics & Orthotics Design
Digital Signal & Image Processing
Control Systems
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Prosthetics & Orthotics Fabrication Lab
Medical Image Processing Lab
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Year 4
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Assistive & Rehabilitation Robotics
Healthcare Technology Management
Capstone Design Project
Professional Practice & Ethics
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Assistive Robotics Lab
Capstone Design Showcase (Industry/Clinic Collaboration)
Internship (Summer)
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Elective Courses (offered in Years 3–4):
- Biomedical Signal Processing
- CAD/CAM
- Biotelemetry System
- Environmental Engineering
- Medical Device Quality System and Standards
- Energy Resources & Utilization
- Medical Device Regulatory Affairs
- Product Design and Development
- Power Electronics
- Total Quality Management
- Medical Robotics
- Mechatronics & Robotics Engineering
- Rehabilitation Techniques
- Control Engineering
- Tissue Engineering Technology
- Medical Image Processing
- Drug Delivery Systems
- Bioinformatics
- Applied Artificial Intelligence and Machine Learning
- Hospital Information System
- Orthotics & Prosthetics Modeling
- Finite Element Analysis for Implant Mechanics
- Biomechanical Simulation of Physiological Systems
- Computational Tissue Mechanics
- Fluid Structure Interaction in Biomedical Systems
- Vascular Access Device (CVAD) Design & Simulation
- Fluid Mechanics
Program Features:
- All courses mapped to CLOs and PLOs as per OBE standards
- Continuous curriculum review to keep pace with emerging trends
- Mandatory summer internship in hospital, industry, or research setting
- Real world capstone project with hospital or biomedical company partnership