Undergraduate Program
B.E. Technology (Biomedical)
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Introduction
Biomedical Engineering Technology (BMET) is a rapidly advancing discipline that blends engineering technology with modern healthcare. It focuses on the operation, maintenance, management, and troubleshooting of biomedical equipment and healthcare technologies. As hospitals become increasingly technology-dependent, the need for qualified biomedical technologists continues to rise locally and internationally.
The B.E. Technology (Biomedical) program at SHU equips students with strong hands-on skills, technical knowledge, and applied problem‑solving abilities. Students engage extensively with real biomedical devices, laboratory equipment, imaging systems, and healthcare IT tools through SHU’s well-equipped teaching and research labs.
The curriculum follows HEC and NTC guidelines and is benchmarked with Sydney Accord standards, ensuring alignment with global engineering technology education frameworks .
About Program
Program Objectives
The B.E. Technology (Biomedical) program aims to produce graduates who:
- Possess hands‑on technical skills aligned with hospital and industry needs
- Can operate, maintain, troubleshoot, and calibrate biomedical equipment
- Understand engineering technology fundamentals, biomedical sciences, and healthcare workflows
- Communicate effectively and work professionally within multidisciplinary teams
- Demonstrate ethical practice, safety compliance, and responsible decision-making
- Are prepared for lifelong learning, emerging technologies, and evolving healthcare standards
Internship and Career Prospects
Internship Opportunities
- 16‑week mandatory Supervised Industrial Training (SIT) in the final year
- Placements in:
- Hospital Clinical Engineering Departments
- Diagnostic & research laboratories
- Medical equipment service & maintenance companies
- Medical device manufacturers & distributors
- Healthcare IT units (PACS / HIS / DICOM / Telemedicine)
Career Prospects
- Biomedical Equipment Technologist (installation, calibration, troubleshooting)
- Clinical Engineering Technologist (hospital-based roles)
- Medical Imaging Equipment Technologist (X‑ray/CT/MRI/Ultrasound)
- Laboratory & Diagnostic Equipment Technologist
- Technical Support / Field Service Engineer for medical devices
- Medical Device Applications Specialist (training & product support)
- Healthcare IT Technician (PACS/HIS/DICOM systems)
- Quality Assurance / Regulatory Affairs Assistant (DRAP compliance)
- R&D / Production Technologist in biomedical technology industries
Eligibility Criteria
Applicants seeking admission to the B.E. Technology (Biomedical) program must have:
- Minimum 50% marks in:
- HSc (Pre‑Engineering, Pre-Medical, ICS) / A-levels, or
- DAE in a relevant field.
Qualify the Aptitude Test and Interview
List of Electives
| Course Code | Course Title | Theory | Lab | Credit Hours | Pre-requisite |
| BME302 | Artificial Intelligence | 3 | 0 | 3 | N. A. |
| BME307 | Introduction to Molecular Biology | 2 | 1 | 3 | N. A. |
| BME403 | Introduction to Bioinformatics | 2 | 1 | 3 | N. A. |
| BME321 | Telemedicine Systems | 3 | 0 | 3 | N. A. |
| BME411 | Rehabilitation Engineering | 2 | 1 | 3 | N. A. |
| BME421 | Medical Device Quality System and Standards | 3 | 0 | 3 | N. A. |
Scheme of Study (Semester Wise)
1st Year
Semester 1
|
SEMESTER I |
Weekly Contact Hrs. (Th+Lab) |
|||
| Course Codes |
Course Title |
Knowledge Area/Domain |
Credit Hrs. (Th+Lab) | |
| MTH 101/ BIO101 | Basic Biology (for Pre-Engineering Students)/ Basic Mathematics (for Pre-Medical Students) | Natural Sciences | 3+0 | 3+0 |
| ENG102 | Communication Skills | Humanities | 3+0 | 3+0 |
| IST101 | Islamic Studies/Social Ethics | Humanities | 3+0 | 3+0 |
| PHC101 | Applied Physics | Natural Sciences | 3+1 | 3+3 |
| BME105 | Applications of ICT | Computing | 1+1 | 1+3 |
| BMT111 | Workshop Practices | Foundation | 0+1 | 0+3 |
| BMT112 | Technical Drawing | Foundation | 0+1 | 0+3 |
| Subtotal | 13+4 = 17 | 24 | ||
Semester 2
|
SEMESTER-II |
Weekly Contact Hrs. (Th+Lab) |
|||
| Course Codes | Course Title | Knowledge Area/Domain | Credit Hrs. (Th+Lab) | |
| MTH103 | Calculus and Analytical Geometry | Natural Sciences | 3+0 | 3+0 |
| ELE102 | Basic Electrical Technology | Foundation | 2+1 | 2+3 |
| BMT121 | Human Anatomy & Physiology | Foundation | 3+1 | 3+3 |
| CSC102 | Computer Programming | Computing | 1+1 | 1+3 |
| MS131 | Management Sciences Elective I | Management Sciences | 3+0 | 3+0 |
| SSE141 | Social Sciences Elective I | Social Sciences | 3+0 | 3+0 |
| Subtotal | 13+3 =16 | 15+3 =18 | 24 | |
2nd Year
Semester 3
|
SEMESTER-III |
Weekly Contact Hrs. (Th+Lab) |
|||
|
Course Codes |
Course Title | Knowledge Area | Credit Hrs. (Th+Lab) | |
| BSC102 | Biochemistry | Natural Sciences Forced Elective | 2+1 | 2+3 |
| MTH201 | Linear Algebra & Differential Equations | Natural Sciences | 3+0 | 3+0 |
| ELE201 | Electrical Circuit Analysis | Foundation | 2+1 | 2+3 |
| ELE203 | Digital Logic Design | Breadth | 2+1 | 2+3 |
| SSE241 | Social Sciences Elective II | Social Sciences | 3+0 | 3+0 |
| Subtotal | 12+3=15 | 21 | ||
Semester 4
|
SEMESTER-IV |
Weekly Contact Hrs. (Th+Lab) |
|||
|
Course Codes |
Course Title | Knowledge Area | Credit Hrs. (Th+Lab) | |
| ELE302 | Signals and Systems | Breadth | 2+1 | 2+3 |
| BMT231 | Electronic Devices and Circuits | Foundation | 2+1 | 2+3 |
| BMT242 | Microprocessors and Microcontrollers | Depth | 2+1 | 2+3 |
| BME203 | Biomechanics | Breadth | 2+1 | 2+3 |
| BMT251 | Molecular Biology | Breadth | 2+1 | 2+3 |
| MSE232 | Management Science Elective II | Management Sciences | 2+0 | 2+0 |
| Subtotal | 12+5 =17 | 27 | ||
3rd Year
Semester 5
|
SEMESTER-V |
Weekly Contact Hrs. (Th+Lab) |
|||
|
Course Codes |
Course Title | Knowledge Area | Credit Hrs. (Th+Lab) | |
| BME306 | Biomaterials | Breadth | 2+1 | 2+3 |
| BMT311 | Biomedical Instrumentation | Breadth | 2+1 | 2+3 |
| BME305 | Biomedical Control Systems | Depth | 2+1 | 2+3 |
| PST101 | Pakistan Studies | Humanities | 3+0 | 3+0 |
| ENG401 | Technical Report Writing | Humanities | 2+0 | 2+0 |
| BMT351 | Project-I | Project | 0+3 | 0+9 |
| Subtotal | 9+8 =17 | 29 | ||
Semester 6
|
SEMESTER-VI |
Weekly Contact Hrs. (Th+Lab) |
|||
|
Course Codes |
Course Title | Knowledge Area | Credit Hrs. (Th+Lab) | |
| BME401 | Medical Imaging Devices | Depth | 2+1 | 2+3 |
| MTH301 | Probability and Statistics | Natural Sciences | 2+0 | 2+0 |
| BMT322 | Clinical Laboratory Equipment | Depth | 2+1 | 2+3 |
| BMT361 | IDTE-I | IDTE | 3+0 | 3+0 |
| BMT362 | IDTE-II | IDTE | 2+1 | 2+3 |
| BMT352 | Project-II | Project | 0+3 | 0+9 |
| Subtotal | 11+6 =17 | 29 | ||
4th Year
Semester 7
|
SEMESTER-VII |
Weekly Contact Hrs. (Th+Lab) |
|||
|
Course Codes |
Course Title | Knowledge Area | Credit Hrs. (Th+Lab) | |
| ELT411 | Supervised Industrial Training (Optional) | Biomedical Engineering Technology Domain Industrial Training |
16 |
40 (per Week) |
| MSE431 | Management Sciences Elective-III | Management Sciences | 3+0 | 3+0 |
| BMT471 | Depth Elective-I | Depth | 2+1 | 2+3 |
| BMT472 | Depth Elective-II | Depth | 2+1 | 2+3 |
| BMT473 | Depth Elective-III | Depth | 2+1 | 2+3 |
| BMT441 | Troubleshooting of Medical Devices | Depth | 0+1 | 0+3 |
| BMT474 | Depth Elective-IV | Depth | 3+0 | 3+0 |
| Subtotal | 12+4=16 | 24 | ||
Semester 8
|
SEMESTER-VIII |
Weekly Contact Hrs. (Th+Lab) |
|||
|
Course Codes |
Course Title | Knowledge Area | Credit Hrs. (Th+Lab) | |
| BIT421 | Supervised Industrial Training (Compulsory) | Biomedical Engineering Technology Domain Industrial Training |
16 |
40 (per Week) |
| Subtotal | 0+16= 16 | 0+40= 40 | ||
| Total Credit Hours & Contact Hours in Four Years
(When SIT was conducted in both 7th and 8th semesters) |
64+65=133 | 64+195=259 | ||
| Theory vs Practical with respect to Contact Hours | Theory
Practical |
64 (24.71%)
195 (75.29%) |
||
| Total Credit Hours & Contact Hours in Four Years
(When optional courses are conducted instead of SIT in the 7th Semester) |
75+54=129 |
75+162=237 |
||
| Theory vs Practical with respect to Contact Hours | Theory
Practical |
75 (31.65%)
162 (68.35%) |
||
