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M-SC in Medical Imaging Technology at Saveetha Institute of Medical and Technical Sciences
Chennai, Tamil Nadu
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About the Specialization
What is Medical Imaging Technology at Saveetha Institute of Medical and Technical Sciences Chennai?
This Medical Imaging Technology program at Saveetha Institute of Medical and Technical Sciences focuses on equipping students with advanced knowledge and practical skills in various imaging modalities. The curriculum is designed to meet the growing demand for skilled professionals in India''''s rapidly expanding healthcare sector, emphasizing both theoretical foundations and hands-on clinical experience. It stands out by integrating a wide range of imaging techniques, preparing graduates for diverse roles in the industry.
Who Should Apply?
This program is ideal for B.Sc. Medical Imaging Technology, Radiology & Imaging Technology, BMIT, or Allied Health Sciences graduates seeking to specialize further and deepen their expertise. It also caters to working professionals in the imaging field who wish to upgrade their qualifications and stay abreast of technological advancements, making it suitable for those aiming for supervisory or advanced technical roles in diagnostics.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding career paths in India as advanced imaging technologists, MRI/CT specialists, ultrasound technicians, or even faculty in academic institutions. Entry-level salaries typically range from INR 3 to 5 lakhs per annum, with experienced professionals earning significantly more (INR 7-12 lakhs+). The program aligns with professional body guidelines, facilitating growth trajectories in leading hospitals, diagnostic centers, and medical device companies across India.
Student Success Practices
Foundation Stage
Build Strong Anatomical & Physiological Foundations- (Year 1 (Semesters 1-2))
Focus rigorously on understanding Human Anatomy & Physiology and Medical Physics, as these form the bedrock for all imaging modalities. Utilize anatomical atlases, 3D anatomy apps, and physics simulation tools to visualize complex concepts. Engage in peer study groups to solidify understanding and discuss clinical correlations.
Tools & Resources
Gray''''s Anatomy, Netter''''s Atlas, Essential Medical Physics textbooks, Visible Body 3D Anatomy App, online physics simulators
Career Connection
A deep understanding of the human body and physics principles is crucial for accurate image interpretation and operating sophisticated imaging equipment, essential for any medical imaging technologist role.
Master Basic Patient Care & Safety Protocols- (Year 1 (Semesters 1-2))
Actively participate in patient care practicals, focusing on communication, empathy, and safety procedures. Understand infection control, radiation safety, and basic life support. Seek opportunities to observe experienced technologists in clinical settings to grasp practical nuances.
Tools & Resources
Hospital policy manuals, WHO patient safety guidelines, BLS/ACLS certification courses
Career Connection
Excellent patient care and safety skills are paramount in healthcare, ensuring patient well-being and legal compliance, thereby enhancing employability in clinical environments.
Develop Research & Communication Skills- (Year 1 (Semesters 1-2))
Pay close attention to Research Methodology and Biostatistics, critical for understanding medical literature and conducting future thesis work. Actively participate in communication and soft skills practicals to improve verbal and written communication, presentation abilities, and inter-personal skills.
Tools & Resources
SPSS, R for Biostatistics tutorials, Grammarly, public speaking workshops, scientific journal clubs
Career Connection
Strong research aptitude supports evidence-based practice, while effective communication is vital for patient interaction, team collaboration, and professional growth in academic or clinical roles.
Intermediate Stage
Specialize in Advanced Imaging Modalities- (Year 2 (Semesters 3-4))
Deep dive into the principles and practical applications of Cross-Sectional Imaging (CT, MRI), Ultrasound, and Nuclear Medicine Technology. Seek additional online courses or workshops to gain specialized knowledge beyond the curriculum. Actively engage in practical sessions to develop hands-on proficiency with each modality.
Tools & Resources
Vendor-specific training materials (e.g., GE, Siemens, Philips manuals), online courses on Coursera/edX for specific modalities, clinical rotation observation
Career Connection
Specialization in advanced modalities makes you a highly sought-after expert, opening doors to specific roles like CT Technologist, MRI Specialist, or Nuclear Medicine Technologist, commanding higher salaries.
Pursue Clinical Rotations and Internships- (Year 2 (Semesters 3-4))
Leverage the clinical and practical components (CT, MRI, Ultrasound, Nuclear Medicine) as opportunities for extensive hands-on experience in real hospital settings. Actively seek summer internships or part-time clinical assignments to gain broader exposure and build a professional network within the healthcare industry.
Tools & Resources
Hospital tie-ups through the institution, professional networking platforms (LinkedIn), industry job fairs
Career Connection
Practical clinical experience is invaluable for placements, demonstrating readiness for real-world scenarios and often leading directly to job offers from host institutions.
Focus on Quality Control and Data Processing- (Year 2 (Semesters 3-4))
Thoroughly understand Quality Control in Imaging & Data Processing, a critical subject for ensuring image accuracy and patient safety. Learn to use imaging software for post-processing and analysis. Explore basic programming for medical image analysis (e.g., Python with libraries like DICOM, OpenCV).
Tools & Resources
PACS/RIS systems, image processing software (OsiriX, ImageJ), Python programming for medical imaging (e.g., Pydicom, SimpleITK)
Career Connection
Proficiency in QC and data processing is crucial for advanced roles in diagnostic labs, research, and for ensuring regulatory compliance, making graduates highly valuable to employers.
Advanced Stage
Excel in Thesis and Dissertation Project- (Year 2 (Semesters 3-4))
Dedicate significant effort to the Thesis/Dissertation project. Choose a topic aligned with current industry needs or emerging imaging technologies. Work closely with faculty mentors, apply advanced research methodologies, and strive for publishable quality research to showcase expertise.
Tools & Resources
Research journals (e.g., Journal of Medical Imaging, Radiology), academic databases (PubMed), institutional research labs, advanced statistical software
Career Connection
A strong thesis demonstrates independent research capabilities, problem-solving skills, and deep subject matter expertise, enhancing prospects for research roles or demonstrating academic rigor to potential employers.
Master Interventional and Cardiac Imaging Concepts- (Year 2 (Semesters 3-4))
Focus on specialized areas like Interventional Radiology & Cardiac Imaging, understanding their complex procedures and equipment. Attend webinars or workshops on these advanced techniques to gain a competitive edge. This specialized knowledge is often sought after in tertiary care hospitals.
Tools & Resources
Specialized textbooks on interventional radiology, online courses from professional bodies (e.g., IRIA, ICRI), case studies
Career Connection
Expertise in niche, high-demand areas like interventional and cardiac imaging opens doors to specialized roles in high-tech diagnostic and therapeutic centers, offering advanced career growth.
Prepare for Industry Placement and Professional Certifications- (Year 2 (Semesters 3-4))
Actively engage in career counseling, resume building workshops, and mock interviews offered by the institution. Research potential employers, tailor applications, and prepare for technical and HR rounds. Explore and pursue relevant professional certifications (e.g., ARRT in some international contexts, or relevant Indian certifications) to boost employability.
Tools & Resources
Career services department, LinkedIn Learning, interview preparation guides, professional certification bodies'''' websites
Career Connection
Proactive placement preparation and acquiring industry-recognized certifications significantly increase the chances of securing desirable positions in top healthcare institutions immediately after graduation.
Program Structure and Curriculum
Eligibility:
- B.Sc. Medical Imaging Technology / Radiology & Imaging Technology / BMIT/ BSc (NMT) / Allied Health Sciences
Duration: 2 years
Credits: 83 Credits
Assessment: Assessment pattern not specified
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MITT101 | Human Anatomy & Physiology | Core | 3 | |
| MITT102 | Medical Physics | Core | 3 | |
| MITT103 | General Pathology & Pharmacology | Core | 3 | |
| MITT104 | Imaging Modalities - I (Radiology) | Core | 3 | |
| MITP105 | Imaging Modalities – I (Radiology) Practical | Lab | 4 | |
| MITP106 | Patient Care & Management Practical | Lab | 4 | |
| MITT107 | Research Methodology & Biostatistics | Core | 2 | |
| MITT108 | Hospital Waste Management | Core | 2 | |
| MITT109 | Principles of Medical Ethics & Law | Core | 2 | |
| MITP110 | Communication & Soft Skill Practical | Lab | 2 | |
| MITT111 | Environmental Science | Core | 2 | |
| MITT112 | Value Education & Human Rights | Core | 2 | |
| MITP113 | Computer Applications Practical | Lab | 2 | |
| MITT114 | Professionalism & Leadership Skills | Core | 2 | |
| MITT115 | Critical Thinking & Problem Solving Skills | Core | 2 | |
| MITP116 | Community Oriented Projects Practical | Project | 2 | |
| MITP117 | Entrepreneurship Skills Practical | Lab | 2 |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MITT201 | Radiation Physics & Protection | Core | 3 | |
| MITT202 | Cross Sectional Imaging – I (CT) | Core | 3 | |
| MITT203 | Cross Sectional Imaging – II (MRI) | Core | 3 | |
| MITT204 | Ultrasound & Doppler Imaging | Core | 3 | |
| MITT205 | Nuclear Medicine Technology | Core | 3 | |
| MITT206 | Interventional Radiology & Cardiac Imaging | Core | 3 | |
| MITT207 | Quality Control in Imaging & Data Processing | Core | 3 | |
| MITP208 | Clinical & Practical (CT) | Lab | 4 | |
| MITP209 | Clinical & Practical (MRI) | Lab | 4 | |
| MITP210 | Clinical & Practical (Ultrasound & Doppler) | Lab | 4 | |
| MITP211 | Clinical & Practical (Nuclear Medicine) | Lab | 4 | |
| MITP212 | Thesis / Dissertation & Viva | Project | 4 |
