The BSc Radiology and Imaging Technology syllabus is designed to help students understand how medical imaging supports diagnosis and patient care. Throughout the program, students learn the science behind imaging technologies, develop technical skills, and gain practical experience through hospital-based training.
Year 1: Foundations of Medical Sciences and Radiology
The first year introduces students to the basics of human health, disease, and medical terminology that form the foundation of radiology education.
| Subject | What You Will Study |
|---|
| Human Anatomy and Physiology | How different organs and body systems are structured and how they function together. |
| Biochemistry | The chemical processes that keep the human body functioning normally. |
| Pathology and Microbiology | How diseases develop, spread, and affect different parts of the body. |
| Medical Terminology and Communication | Medical vocabulary and communication skills used in healthcare environments. |
| Applied Physics | Fundamental physics concepts that support the working of imaging equipment. |
| Introduction to Radiology | The basics of diagnostic imaging and the role of radiology in modern medicine. |
Year 2: Principles of Imaging and Radiation Sciences
The second year focuses on the principles of radiography, imaging equipment, and safe practices followed in radiology departments.
| Subject | What You Will Study |
|---|
| Radiation Physics | How radiation is generated and used to produce diagnostic images. |
| Radiographic Positioning and Techniques | Methods of positioning patients correctly to obtain clear and accurate images. |
| Imaging Instrumentation | Components and functioning of different radiology and imaging systems. |
| Radiation Protection and Safety | Measures used to protect patients and healthcare professionals from unnecessary radiation exposure. |
| Patient Care and Communication | Preparing patients for procedures and ensuring their comfort and safety during imaging examinations. |
| Contrast Media Procedures | The use of contrast agents to improve the visibility of organs and tissues during imaging studies. |
Year 3: Advanced Imaging Technologies and Diagnostic Procedures
The third year introduces advanced imaging modalities and digital technologies used in diagnostic departments.
| Subject | What You Will Study |
|---|
| CT Imaging Technology | Techniques used to create detailed cross-sectional images of the body using computed tomography. |
| MRI Technology and Physics | The principles behind magnetic resonance imaging and its role in diagnosing various conditions. |
| Ultrasonography Principles | The use of sound waves to examine internal organs and soft tissues. |
| Image Processing and PACS | How medical images are processed, stored, and shared digitally within healthcare systems. |
| Advanced Imaging Procedures | Specialised diagnostic imaging procedures used for complex medical conditions. |
| Quality Assurance in Radiology | Standards and procedures followed to maintain image quality and equipment performance. |
Year 4: Clinical Training and Internship
The final year focuses on applying classroom knowledge in real healthcare environments through extensive clinical exposure and practical training.
| Component | What You Will Learn |
|---|
| Clinical Postings | Practical exposure to imaging procedures in hospital radiology departments. |
| Hospital Internship | Hands-on training in patient preparation, imaging workflows, and equipment handling under professional supervision. |
| Advanced Diagnostic Imaging Training | Application of diagnostic protocols and imaging procedures in clinical practice. |
| Professional Ethics and Healthcare Management | Professional responsibilities, teamwork, and ethical practices followed in healthcare organisations. |
The final year gives students significant hands-on experience in radiology departments, helping them build the confidence and practical skills required to work with imaging technologies and support patient care after graduation.