Bachelor of Medical Radiology & Imaging Technology (B.MRIT)
Duration
Eligibility
The minimum qualification for admission to the Bachelor of Medical Radiology & Imaging Technology (B.MRIT) programme is a minimum of 50% marks in the 10+2 examination from PUC/ICSE/CBSE/12th Grade or an equivalent board. Candidates must have studied Physics, Chemistry, and Biology as compulsory subjects, along with English as a mandatory subject.
Programme Overview
The Bachelor of Medical Radiology & Imaging Technology (B.MRIT) programme is designed to develop expertise in advanced medical imaging modalities such as X-ray, Computed Tomography (CT), Magnetic Resonance Imaging (MRI), Ultrasound, and Nuclear Medicine. The programme equips students with comprehensive theoretical knowledge and practical skills required for accurate diagnostic imaging and patient care.
Students gain hands-on clinical experience in radiographic positioning, imaging protocols, radiation protection, and patient safety practices. The curriculum is carefully structured to provide a strong foundation in anatomy, physiology, radiographic procedures, imaging techniques, and healthcare ethics, ensuring a holistic understanding of the discipline.
The programme also focuses on developing technical proficiency in operating modern imaging equipment and interpreting imaging requirements in collaboration with healthcare professionals, preparing graduates for dynamic clinical environments.
Course Curriculum
- 01Human Anatomy
- 02Physiology
- 03Basics of Radiation Physics
- 04Introduction to Healthcare
- 05Medical Terminology and Record Keeping
- 06Basic Computers and Information Science
- 07Medical Law and Ethics
- 08Professionalism and Values
- 09Principles of Management
- 10English and Communication Skills
- 11Radiology Clinical Education – Part I
- 01Basics of Microbiology - BMRIT-011
- 02Basics of Biochemistry - BMRIT-012
- 03Conventional Radiography and Equipment - BMRIT-013
- 04Clinical Radiography Positioning (Part I) - BMRIT-014
- 05Radiology Clinical Education – Part II
- 01Pathology
- 02Clinical Radiography Positioning (Part II)
- 03Radiography and Image Processing Techniques
- 04Contrast Media and Special Radiological Procedures
- 05Radiology Clinical Education – Part III
- 01Cross sectional anatomy
- 02Modern Radiological Imaging Equipment and Physics
- 03Interventional Radiology Techniques
- 04Patient Care in Radiology
- 05Radiology Clinical Education – Part IV
- 01Basics Techniques in CT Technology
- 02Radiation Safety in Diagnostic Radiology
- 03Quality Assurance in Diagnostic Radiology and Regulatory Requirements
- 04Radiology Clinical Education – Part V
- 01Basics Techniques in MRI Technology
- 02Introduction to Nuclear Medicine Techniques
- 03Ultrasound Techniques
- 04Biostatistics And Research Methodology
- 05Radiology Clinical Education – Part VI
- 01Clinical Internship
Programme Educational Objectives
PEO-1: To prepare graduates to effectively operate diagnostic imaging equipment and support accurate medical diagnoses through high-quality image acquisition.
PEO-2: To instil in students a commitment to patient safety, radiation protection and adherence to imaging protocols and healthcare standards.
PEO-3: To promote advancement through continuous learning, innovation and integration of emerging imaging technologies in clinical practice.
Programme Outcomes (POs)
PO1: To understand the principles of radiographic physics and image formation.
PO2: To perform diagnostic procedures using X-ray, CT, MRI, and ultrasound systems.
PO3: To Position patients appropriately and select protocols based on clinical indications.
PO4: To Ensure radiation safety and protection for patients, staff, and self.
PO5: To maintain and calibrate imaging equipment according to manufacturer and regulatory standards.
PO6: To apply knowledge of anatomy and pathology for accurate image acquisition and interpretation.
PO7: To collaborate with radiologists and other medical professionals in diagnostic workflows.
PO8: To exhibit professionalism, patient sensitivity, and ethical conduct in imaging practices.
PO9: To integrate modern imaging software, PACS, and digital tools in clinical practice.
PO10: To stay current with innovations in imaging technology and advanced diagnostic modalities.
Programme Specific Outcomes
PSO-1: To operate diagnostic imaging equipment including X-ray, CT, MRI, and ultrasound machines.
PSO-2: To ensure radiation safety and compliance with ethical and regulatory standards.
PSO-3: To produce high quality diagnostic images and assist in preliminary image assessments.
Student handbook
Program Regulations
Download Brochure
USPs
- Industry-Oriented Curriculum: The curriculum is designed in collaboration with hospitals, diagnostic centres, and healthcare professionals to ensure alignment with current industry standards and emerging technologies.
- Early Clinical Exposure: Students receive structured clinical exposure and hands-on training in reputed multi-speciality hospitals and diagnostic laboratories from the early semesters of the programme.
- State-of-the-Art Simulation Laboratories: Well-equipped laboratories with advanced simulators and diagnostic equipment help students develop strong practical, analytical, and decision-making skills.
- Experienced Faculty and Clinical Mentors: A combination of academic experts and experienced clinical professionals provide guidance through evidence-based learning and real-world clinical practice.
- Compulsory Internship with Placement Assistance: The programme includes a one-year supervised clinical internship along with dedicated placement assistance through collaborations with leading hospitals and healthcare organisations.
- Focus on Interdisciplinary Healthcare Practice: Emphasis is placed on collaborative learning and interdisciplinary teamwork to reflect real-world hospital and healthcare environments.
- Skill-Based Certification Opportunities: Students are encouraged to pursue additional certifications in CPR, BLS/ACLS, infection control, and healthcare software applications to enhance employability.
- Research and Innovation-Oriented Learning: The programme promotes student-led research, case presentations, and participation in national and international academic conferences.
- Digital Learning Ecosystem: Smart classrooms, online learning resources, digital case libraries, and blended learning modules support flexible and interactive education.
- Global Career Readiness: The curriculum and clinical training prepare students for opportunities within global healthcare systems, including pathways for international certifications and career progression.
Career Opportunities
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Radiologic Technologist
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MRI Technologist
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CT Technologist
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Ultrasound Technologist
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Nuclear Medicine Technologist
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Radiation Therapist
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Healthcare Educator


Rajanukunte, Yelahanka, Bengaluru, Karnataka, Pin: 560119, India
+91 9022092222