The BSc Medical Imaging Technology syllabus is designed to train students in diagnostic imaging techniques used in hospitals and imaging centers. The course focuses on medical imaging procedures, radiology equipment handling, patient safety, and radiation protection. Students learn X-Ray, CT Scan, MRI, Ultrasound, and imaging protocols through both theory and practical hospital exposure.
The first year builds a strong base in anatomy, physiology, and basic imaging fundamentals. Students learn how imaging works and how to maintain safety while using radiology equipment.
The second year focuses on core diagnostic imaging procedures and radiology equipment knowledge. Students learn detailed X-ray positioning, imaging techniques, and basics of CT and ultrasound.
The final year focuses on advanced imaging like MRI and specialized radiology procedures. Students also receive strong clinical training and internship exposure in hospital radiology departments.
| Subject | Book Title | Author |
|---|---|---|
| Radiographic Physics | Radiographic Imaging and Exposure | Sherer & Visconti |
| Radiology Positioning | Merrill's Atlas of Radiographic Positioning | Frank E. Merrill |
| CT & MRI Basics | Computed Tomography and MRI Principles | Special Reference Text |
| Radiation Safety | Radiation Protection in Medical Imaging | W. Graham |
BSc Medical Imaging Technology is a 3-year undergraduate course divided into 6 semesters. The first year covers anatomy, physiology, and radiology basics. The second year focuses on X-ray positioning, CT scan, and ultrasound basics. The final year includes MRI, digital imaging systems, and internship training.
Radiographic physics is important to understand imaging principles and radiation science. Radiographic positioning is essential for proper patient scanning and accurate images. CT scan and MRI technology build advanced imaging machine knowledge. Radiation protection is a must for safe clinical practice.
Yes, practical training is included in every year of this course. Students practice X-ray positioning, machine handling, and basic scan protocols. They also get exposure to CT scan, MRI, and ultrasound departments. Clinical training helps students become job-ready imaging professionals.
Yes, radiation safety is a compulsory subject in imaging courses. It teaches how to protect patients and healthcare staff from radiation exposure. Students learn shielding methods, safety rules, and correct scan protocols. This subject is essential for safe working in radiology departments.
MRI may feel difficult because it is based on advanced physics and imaging sequences. Students should focus on MRI principles, imaging sequences, and safety guidelines. Learning coil types and scan protocols helps in practical understanding. Regular revision and clinical exposure make MRI easier to understand.
Yes, digital imaging and PACS (Picture Archiving and Communication System) is included in many syllabi. Students learn basic image processing and hospital image storage systems. This helps in managing digital patient reports and imaging workflows. PACS knowledge increases job opportunities in modern diagnostic centers.
Yes, internship is compulsory in most institutes in the final year. Students work in radiology departments such as X-ray, CT scan, MRI, and ultrasound units. They learn patient handling, scan assistance, and clinical workflow management. Internship builds strong skills and improves job placement chances.
Students are evaluated through theory exams, internal assessments, and practical exams. Practical performance affects final marks because clinical skills are important in imaging. Colleges also conduct viva and practical record submission checks. Good clinical training improves exam scores and job readiness.
Merrill’s Atlas is one of the best books for radiographic positioning practice. Sherer & Visconti is useful for radiographic physics and imaging basics. Students should also study hospital notes and practical manuals for exams. Regular practice and clinical exposure are key for strong learning and scoring well.