BSc in Medical Imaging Technology

The Bachelor of Science in Medical Imaging Technology (BSc MIT) is a 3-year undergraduate program designed to equip students with the knowledge and practical skills required to operate advanced medical imaging equipment and support diagnostic procedures in modern healthcare. Offered in academic collaboration with the prestigious Tata Institute of Social Sciences (TISS), this course combines theoretical learning with rigorous clinical training, ensuring students graduate as competent imaging professionals ready for real-world medical environments.

Course Highlights:

Duration: 3 Years (6 Semesters)
Affiliation: Tata Institute of Social Sciences – School of Skill Education (TISS–SSE)
Industry-Integrated Training: Real-time clinical exposure in reputed hospitals and diagnostic centers
Advanced Imaging Techniques: Hands-on training in X-Ray, CT, MRI, Ultrasound, and other diagnostic modalities
Comprehensive Curriculum: Subjects include Anatomy, Physiology, Radiation Physics, Radiographic Techniques, and more
Skill-Based Education: Focus on technical skills, patient care, radiation safety, and ethical practices
Career-Oriented Learning: Prepares students for roles in both domestic and international healthcare sectors
Job-Ready Graduates: Emphasis on employability with soft skills, communication, and professional development
Progression Opportunities: Pathway to M.Sc. MIT, Radiology, or other advanced allied health programs
TISS Certification: Nationally recognized degree from a premier institute with high academic standards

Eligibility Criteria:

12th Science Pass.

Course Duration:

This is a three-year program divided into six semesters, including coursework, lab training, and internships.

Syllabus:

GE 1.1 - Functional English
GE 1.2 - Computing Skills and Digital Literacy
MIT 1.1 - Anatomy and Physiology
MIT 1.2 - Clinical Pathology
MIT 1.3 - Radiation Physics and Image Processing Techniques
MIT ST1 - Skill Training
CDPNE - *Domain Practicum

GE 2.1 - Communication Skills
GE 2.2 - Environmental Studies and Sustainability
MIT 2.1 - Radiology: Equipment, Positioning Techniques and Procedures
MIT 2.2 - Radiological Procedures
MIT 2.3 - Radiology : Quality Control and Patient Care
MIT ST2 - Skill Training
CDPNE - *Domain Practicum

GE 3.1 - Financial Literacy
GE 3.2 - Basics of Legal and HR Policies
MIT 3.1 - Computed Tomography - I
MIT 3.2 - Computed Tomography - II
MIT 3.3 - Ultrasound Imaging
MIT ST3 - Skill Training
CDPNE - *Domain Practicum

GE 4.1 - Design Thinking
GE 4.2 - Organizational Behaviour
MIT 4.1 - Computed Tomography - III
MIT 4.2 - Mammography, Bone Densitometry and Orthopantomography
MIT 4.3 - MRI Physics, Systems and Components
MIT ST4 - Skill Training
CDPNE - *Domain Practicum

GE 5.1 - Health and Wellness
GE 5.2 - Personal Grooming
MIT 5.1 - MRI - Physics and Angiography
MIT 5.2 - Protocols in MRI
MIT 5.3 - Recent advances in Radiology
MIT ST5 - Skill Training
CDPNE - *Domain Practicum

GE 6.1 - Entrepreneurship
GE 6.2 - Employment Readiness
MIT 6.1 - Effective Administration Skills
MIT 6.2 - Doppler Ultrasound and PET Scan
MIT 6.3 - Interventional Radiology and Radiation Therapy
MIT ST6 - Skill Training
CDPNE *Domain Practicum

Learning Outcomes:

Candidates will:

Understand human anatomy, physiology, and pathology relevant to medical imaging.
Demonstrate in-depth knowledge of imaging modalities like X-ray, CT, MRI, and Ultrasound.
Operate medical imaging equipment safely and effectively as per clinical standards.
Apply radiation physics and protection protocols in real-time clinical settings.
Accurately position patients and acquire high-quality diagnostic images.
Differentiate between normal and pathological imaging findings.
Adhere to ethical, legal, and professional standards in radiologic practice.
Communicate effectively with patients, doctors, and healthcare teams.
Use PACS (Picture Archiving and Communication System) and digital imaging software confidently.
Maintain clinical records and assist in preparing preliminary reports under supervision.
Interpret basic imaging results and assist in diagnostic and interventional procedures.
Demonstrate empathy and patient care during imaging procedures.
Apply critical thinking in identifying imaging errors and troubleshooting issues.
Engage in lifelong learning and stay updated with technological advancements in imaging.
Prepare for advanced education, or specialized training in Radiology and related fields.

Career / Job Opportunities:

Radiologic Technologist
Operate X-ray, MRI, and CT scan machines to capture high-quality images for diagnostic purposes. Work in hospitals, diagnostic centers, or clinics.

MRI Technologist
Specialize in Magnetic Resonance Imaging (MRI), assisting in detailed imaging of soft tissues, brain, and other organs. Ensure patient safety during imaging procedures.

CT Scan Specialist
Perform advanced imaging procedures using computed tomography (CT) equipment. Your expertise will be essential for diagnosing internal injuries and conditions.

Interventional Radiology Assistant
Assist radiologists during minimally invasive procedures such as biopsies, catheter insertions, or stent placements, using imaging guidance.

Radiology Equipment Trainer
Train healthcare staff or students on the operation, calibration, and maintenance of radiology equipment for optimal usage.

Radiation Safety Officer (RSO)
Ensure compliance with safety standards in radiology departments. Manage radiation exposure for staff and patients and implement safety protocols.

Nuclear Medicine Technologist
Work in nuclear medicine departments, administering radioactive substances and capturing images to evaluate organ function and detect abnormalities.

Healthcare Administrator in Radiology
Manage the administrative operations of radiology departments, including staff coordination, scheduling, and compliance with health regulations.

Educator/Trainer in Radiology
Pursue a career in academics as a lecturer or trainer in vocational colleges, teaching radiology techniques and theory.

Radiology Information Systems (RIS) Specialist
Manage digital radiology systems, including storing, retrieving, and analyzing imaging data for improved patient care and operational efficiency.

Why Choose us

✅ Industry-relevant paramedical programs aligned with UGC norms
✅ Modern labs with advanced imaging equipment (X-ray, CT, MRI, Ultrasound)
✅ Experienced faculty from clinical and academic backgrounds
✅ Tie-ups with leading hospitals for internship and placements
✅ Focus on soft skills, communication, and patient care training
✅ Recognized affiliations with TISS university
✅ Career guidance for jobs, higher education, and global opportunities
✅ Student-friendly learning environment with seminars, workshops, and practicals
✅ 100% placement assistance with interview training