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B-SC-ALLIED-HEALTH-SCIENCES in Radiology Imaging Technology at SRM Institute of Science and Technology
Chengalpattu, Tamil Nadu
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About the Specialization
What is Radiology & Imaging Technology at SRM Institute of Science and Technology Chengalpattu?
This B.Sc. Medical Imaging Technology program at SRM Institute of Science and Technology, aligned with the broader field of Radiology & Imaging Technology, focuses on equipping students with expertise in modern diagnostic imaging techniques. India''''s burgeoning healthcare sector, fueled by technological advancements, demands skilled professionals in medical imaging. The program provides a strong foundation in physics, anatomy, and various imaging modalities, preparing graduates for critical roles in healthcare diagnostics. The emphasis on practical skills ensures readiness for the dynamic Indian healthcare landscape.
Who Should Apply?
This program is ideal for fresh 12th-grade science graduates with a strong interest in medical technology and patient care, seeking entry into the rapidly evolving field of diagnostic imaging. It also suits individuals who are meticulous, technically inclined, and possess good analytical skills, aiming to contribute significantly to healthcare diagnostics. Specific prerequisites typically include a strong academic background in Physics, Chemistry, and Biology, essential for understanding the underlying scientific principles of imaging.
Why Choose This Course?
Graduates of this program can expect diverse career paths in India, including Radiography Technologist, CT Technologist, MRI Technologist, Ultrasound Assistant, and Nuclear Medicine Technologist in hospitals, diagnostic centers, and research institutions. Entry-level salaries typically range from INR 2.5 to 4 LPA, growing significantly with experience to 6-10 LPA or more. The growth trajectory is positive, with opportunities to specialize further, move into departmental management, or pursue careers in academic and research roles within Indian healthcare.
Student Success Practices
Foundation Stage
Build a Strong Foundation in Core Sciences- (Semester 1-2)
Focus intently on understanding Human Anatomy, Physiology, Physics (General & Radiation), Pathology, Microbiology, and Biochemistry. These subjects are the bedrock for all future imaging concepts. Form study groups to discuss complex topics, utilize anatomical models, and regularly review practical exercises to solidify foundational knowledge.
Tools & Resources
Anatomy atlases (Netter''''s, Gray''''s), Physiology textbooks (Guyton & Hall), Online anatomy/physiology apps, College labs and specimens, Peer study groups
Career Connection
A solid grasp of these fundamentals is crucial for understanding disease processes, accurate patient positioning, and interpreting imaging findings, directly impacting diagnostic accuracy and career progression in radiology.
Develop Effective Communication and Computer Skills- (Semester 1-2)
Actively participate in Communicative English sessions to enhance verbal and written communication. Simultaneously, master basic computer knowledge, including MS Office and internet usage. Practice presenting information clearly and concisely, which is vital for patient interaction, medical documentation, and working with digital imaging systems.
Tools & Resources
Language labs, Online communication courses, MS Office tutorials, College IT labs, Public speaking clubs
Career Connection
Excellent communication skills are essential for building patient rapport and inter-professional collaboration. Computer literacy is fundamental for operating modern imaging equipment, hospital information systems (HIS), and picture archiving and communication systems (PACS).
Cultivate Early Lab Proficiency & Critical Thinking- (Semester 1-2)
Approach all practical sessions (Anatomy, Physiology, Physics, Pathology, Microbiology, Biochemistry) with keen interest. Document observations meticulously, understand the ''''why'''' behind each experiment, and connect theoretical knowledge to practical outcomes. This builds foundational lab skills and fosters critical thinking necessary for problem-solving.
Tools & Resources
Lab manuals, Departmental faculty for queries, Scientific journals (basic level), Online simulation tools (if available)
Career Connection
Early practical competence in basic sciences provides a strong analytical base, crucial for understanding imaging principles, identifying anomalies, and ensuring safety and accuracy in diverse clinical imaging settings.
Intermediate Stage
Master Imaging Modality Fundamentals and Practical Applications- (Semester 3-5)
Deep dive into the physics and operational aspects of Conventional Radiography, CT, Ultrasound, MRI, and Nuclear Medicine. Spend extra hours in the college''''s imaging labs or attached hospital departments to observe and understand equipment operation, patient positioning, and image acquisition protocols for different modalities.
Tools & Resources
Departmental imaging labs, Simulation software, Clinical observation at SRM Hospital/affiliated centers, Professional imaging textbooks
Career Connection
Hands-on proficiency in various imaging modalities is the core skill set for a technologist, directly translating to job readiness, operational efficiency, and versatility in a busy diagnostic setting.
Engage in Radiation Safety & Patient Care Training- (Semester 3-5)
Pay utmost attention to Radiobiology & Radiation Safety, and Patient Care & Ethics courses. Seek out opportunities to learn about radiation protection equipment, dosimetry, and advanced patient handling techniques. Participate in first-aid or basic life support workshops and understand hospital safety protocols.
Tools & Resources
Radiation safety guidelines (AERB if applicable), Hospital safety protocols, Mock drills and emergency response training, Patient education materials
Career Connection
Ensuring patient safety and adhering to ethical standards are paramount in medical imaging. Expertise in these areas boosts professional credibility, enhances patient trust, and is a critical component for responsible healthcare practice.
Network with Professionals and Explore Specializations- (Semester 3-5)
Attend departmental seminars, guest lectures by radiologists and senior technologists, and professional conferences (even online ones). Use these opportunities to network, understand current industry trends, and identify areas for potential specialization within imaging technology, such as cardiac imaging or neuroradiology.
Tools & Resources
Professional bodies like IRIA (Indian Radiological and Imaging Association), LinkedIn for professional networking, Departmental alumni network, Career counseling sessions
Career Connection
Building a professional network opens doors to internship leads, mentorship, and placement opportunities, providing invaluable insights into various sub-specialties and future career growth paths in the Indian healthcare industry.
Advanced Stage
Excel in Clinical Internship & Project Work- (Semester 6-8 (Internship is Sem 7-8, Project is Sem 6))
Treat the one-year compulsory internship as a full-time learning and professional development opportunity. Actively seek diverse clinical exposure across all imaging modalities, take initiative in learning advanced procedures, and maintain a meticulous logbook of cases. For the Project, choose a relevant topic, conduct thorough research, and present findings professionally.
Tools & Resources
Clinical supervisors and mentors, Departmental faculty for guidance, Hospital PACS/RIS systems for case review, Research databases, statistical software (if applicable)
Career Connection
Outstanding performance during the internship often leads to pre-placement offers. The project demonstrates research capability and problem-solving skills, highly valued by employers for advanced roles and potential academic pursuits.
Prepare for Placement & Professional Certifications- (Semester 6-8)
Start placement preparation early by refining your resume, practicing interview skills, and reviewing all technical concepts thoroughly. Explore relevant professional certifications (if offered or recognized in India by bodies like AERB for radiation safety, or modality-specific certifications) that can enhance your profile and specialized skill set.
Tools & Resources
Career services cell for resume/interview workshops, Mock interview sessions with faculty/alumni, Online job portals (Naukri, LinkedIn), Professional association websites for certification details
Career Connection
Dedicated placement preparation ensures successful transitions into the workforce at top hospitals and diagnostic centers. Certifications provide a competitive edge, validating specialized skills and potentially leading to higher remuneration and career advancement.
Develop Entrepreneurial & Leadership Acumen- (Semester 6-8)
Engage proactively with the Entrepreneurship & Business Skills curriculum to understand the operational and administrative side of healthcare. For those interested, explore the possibility of setting up a diagnostic center or contributing to healthcare innovation. Seek minor leadership roles in student societies or project teams to hone management skills.
Tools & Resources
Entrepreneurship cells and mentorship programs, Business plan competitions, Startup incubators and workshops, Leadership development programs
Career Connection
These skills are vital for future leaders in healthcare, enabling graduates to manage departments, innovate services, or even start their ventures, significantly contributing to the expansion and improvement of healthcare infrastructure in India.
Program Structure and Curriculum
Eligibility:
- A pass in H.Sc./12th/equivalent with Physics, Chemistry, Biology / Botany & Zoology with minimum 45% aggregate (40% for reserved category) in the qualifying examination.
Duration: 4 years (8 semesters, including 1 year of compulsory internship)
Credits: 152 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHPC21E01 | Communicative English | Core | 4 | Language skills, Grammar, Reading comprehension, Writing skills, Communication strategies |
| UHPC21C01 | Human Anatomy | Core | 4 | General anatomy, Musculoskeletal system, Cardiovascular system, Respiratory system, Digestive system |
| UHPC21C02 | Human Physiology | Core | 4 | Cell physiology, Nervous system, Endocrine system, Renal system, Reproductive system |
| UHPC21C03 | Physics (General & Radiation) | Core | 4 | Mechanics, Heat and Thermodynamics, Optics, Electricity and Magnetism, Atomic and Nuclear Physics |
| UHPC21P01 | Human Anatomy – Practical | Practical | 2 | Identification of bones, Surface anatomy, Palpation techniques, Anatomical models, Systemic identification |
| UHPC21P02 | Human Physiology – Practical | Practical | 2 | Hematology experiments, Nerve and muscle physiology, Respiratory function tests, Cardiovascular measurements, Clinical examination techniques |
| UHPC21P03 | Physics (General & Radiation) - Practical | Practical | 2 | Optics experiments, Electrical circuit analysis, Radiation detection, Half-life measurement, Safety protocols |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHPC21C04 | General Pathology | Core | 4 | Cell injury and adaptation, Inflammation and repair, Immunopathology, Neoplasia, Genetic disorders |
| UHPC21C05 | General Microbiology | Core | 4 | Microbial classification, Bacterial growth and metabolism, Sterilization and disinfection, Immunology basics, Diagnostic microbiology techniques |
| UHPC21C06 | Biochemistry | Core | 4 | Carbohydrates and lipids, Proteins and amino acids, Enzymes and coenzymes, Metabolism, Clinical biochemistry |
| UHPC21C07 | Basic Computer Knowledge | Core | 3 | Computer fundamentals, Operating systems, MS Office suite, Internet and email basics, Data security and privacy |
| UHPC21P04 | General Pathology – Practical | Practical | 2 | Histopathology slides, Gross specimens identification, Clinical correlation, Laboratory safety, Reporting protocols |
| UHPC21P05 | General Microbiology – Practical | Practical | 2 | Microscopy and staining, Culture media preparation, Bacterial isolation, Antibiotic sensitivity testing, Sterile techniques |
| UHPC21P06 | Biochemistry – Practical | Practical | 2 | Qualitative tests for biomolecules, Enzyme assays, Estimation of blood components, Urine analysis, Spectrophotometry |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHPC21C08 | General Pharmacology | Core | 4 | Pharmacokinetics, Pharmacodynamics, Drug classification, Adverse drug reactions, Drug interactions |
| UHPC21C09 | Radiation Physics | Core | 4 | X-ray production, Interaction of radiation with matter, Radiation detectors, Dosimetry, Quality assurance in radiation |
| UHPC21C10 | Conventional Radiography | Core | 4 | X-ray machine components, Image receptors and film processing, Patient positioning techniques, Radiographic projections, Contrast media in radiography |
| UHPC21C11 | Radiobiology & Radiation Safety | Core | 4 | Cellular radiation effects, Tissue radiosensitivity, Radiation protection principles, Dose limits and regulations, Monitoring and shielding |
| UHPC21P07 | Radiation Physics – Practical | Practical | 2 | X-ray tube operation, Radiation survey meters, Film densitometry, Collimator checks, Radiation area monitoring |
| UHPC21P08 | Conventional Radiography – Practical | Practical | 2 | Skeletal system positioning, Chest and abdomen radiography, Extremities projections, Contrast media handling, Image quality assessment |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHPC21C12 | Advanced Radiographic Imaging Techniques | Core | 4 | Mammography, Dental radiography, Fluoroscopy procedures, Computed radiography (CR), Digital radiography (DR) |
| UHPC21C13 | Computed Tomography (CT) | Core | 4 | CT physics, CT scanner types, Image reconstruction, CT protocols, Contrast media in CT |
| UHPC21C14 | Ultrasound Imaging | Core | 4 | Ultrasound physics, Transducer principles, Doppler ultrasound, Image artifacts, Clinical applications of ultrasound |
| UHPC21C15 | Patient Care & Ethics | Core | 3 | Patient safety and handling, Communication skills, Medical ethics and law, Informed consent, Emergency care in radiology |
| UHPC21P09 | Advanced Radiographic Imaging Techniques – Practical | Practical | 2 | Digital image processing, CR/DR workflow, Specialized projections, Contrast studies assistance, Image management |
| UHPC21P10 | Computed Tomography (CT) – Practical | Practical | 2 | CT workstation operation, Basic scanning protocols, Image post-processing, Patient positioning for CT, Contrast injection techniques |
| UHPC21P11 | Ultrasound Imaging – Practical | Practical | 2 | Basic probe handling, Scanning techniques (abdomen, pelvis), Image interpretation fundamentals, Artifact recognition, Doppler applications |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHPC21C16 | Magnetic Resonance Imaging (MRI) | Core | 4 | MRI physics, Magnets and coils, Pulse sequences, Contrast agents in MRI, Safety in MRI environment |
| UHPC21C17 | Nuclear Medicine Technology | Core | 4 | Radionuclide production, Radiopharmaceuticals, SPECT and PET imaging, Gamma camera operation, Radiation safety in Nuclear Medicine |
| UHPC21C18 | Quality Control & Equipment Maintenance | Core | 4 | Quality assurance programs, Equipment calibration, Troubleshooting imaging systems, Regulatory standards, Preventive maintenance |
| UHPC21C19 | Hospital Management & Communication Skills | Core | 3 | Healthcare administration, Communication strategies, Conflict resolution, Interdepartmental coordination, Leadership in healthcare |
| UHPC21P12 | Magnetic Resonance Imaging (MRI) – Practical | Practical | 2 | MRI console operation, Basic scanning protocols, Image analysis techniques, Safety procedures in MRI, Patient screening for MRI |
| UHPC21P13 | Nuclear Medicine Technology – Practical | Practical | 2 | Gamma camera operation, Radioisotope handling, Dose calibration, Image acquisition techniques, Waste disposal protocols |
| UHPC21P14 | Hospital Information System & Image Archiving | Practical | 2 | PACS system management, RIS functionality, HIS integration, Image storage and retrieval, Data security and teleradiology |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHPC21C20 | Interventional Radiology | Core | 4 | Angiography and vascular procedures, Non-vascular interventions, Interventional radiology equipment, Patient preparation for IR, Complications and management |
| UHPC21C21 | Recent Advances in Imaging Technology | Core | 4 | AI in radiology, Molecular imaging, Hybrid imaging (PET/CT, SPECT/CT), Advanced image processing, Future trends in medical imaging |
| UHPC21C22 | Research Methodology & Biostatistics | Core | 4 | Research design, Data collection methods, Statistical methods for analysis, Hypothesis testing, Ethical considerations in research |
| UHPC21C23 | Entrepreneurship & Business Skills | Core | 3 | Business planning basics, Marketing strategies for healthcare, Financial management, Legal aspects of business, Professional ethics and leadership |
| UHPC21P15 | Interventional Radiology – Practical | Practical | 2 | Simulation of IR procedures, Catheter and guide wire handling, Patient monitoring during IR, Sterile field setup, Post-procedure care |
| UHPC21PJ01 | Project | Project | 6 | Literature review, Research design and methodology, Data analysis and interpretation, Report writing, Project presentation |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHPC21I01 | Internship | Internship | 12 | Clinical rotations in general radiography, CT imaging procedures, MRI imaging protocols, Ultrasound scanning techniques, Patient interaction and documentation |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHPC21I02 | Internship | Internship | 12 | Advanced imaging procedures, Nuclear medicine applications, Interventional radiology assistance, Quality assurance participation, Professional development and reporting |
