B.Sc.  in Medical Imaging Technology (MIT) 

Duration
4 Years
Eligibility

The minimum qualification for B.Sc Medical Imaging Technology is a minimum of 50% in the 10+2 examination from PUC/ICSE/CBSE/ 12th Grade or an equivalent board. With Physics, Chemistry, and Biology as mandatory subjects, along with a passing grade in English.

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Programme Overview

This program develops expertise in imaging modalities like X-ray, CT, MRI, and ultrasound. Students gain hands-on experience in radiographic positioning, imaging protocols, and radiation safety for accurate diagnostic support. The well-structured program spans courses on anatomy, physiology, radiographic procedures, and imaging techniques, providing students with a holistic understanding of the field. Students are trained in understanding the workings of medical imaging modalities such as X-ray, computed tomography (CT), magnetic resonance imaging (MRI), ultrasound, and nuclear medicine.

Course Curriculum

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

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USP

  • Industry-Oriented Curriculum: Programs designed in collaboration with hospitals, diagnostic centers, and healthcare experts to ensure alignment with current industry standards.
  • Clinical Integration from Early Semesters: Structured clinical exposure and hands-on training in reputed multi-specialty hospitals and diagnostic labs from the early stages of the course.
  • State-of-the-Art Simulation Labs: Well-equipped labs with advanced simulators and diagnostic tools to develop strong practical and decision-making skills.
  • Experienced Faculty & Clinical Mentors: A blend of academic scholars and experienced clinicians guide students through evidence-based learning and real-world case handling.
  • Compulsory Internship with Placement Support: One year of supervised clinical internship with strong placement support through tie-ups with leading hospitals and healthcare providers.
  • Focus on Interdisciplinary Team-Based Care: Emphasis on collaborative practice with other healthcare professionals, mirroring real hospital-based team dynamics.
  • Skill-Based Certifications: Value-added short-term certifications in CPR, BLS/ACLS, infection control, and medical software training.
  • Strong Research & Innovation Culture: Encouragement for student-led research, case studies, and participation in national and international conferences.
  • Digital Learning Ecosystem: Smart classrooms, online case libraries, and hybrid modules support flexible and interactive learning.
  • Global Readiness: Curriculum and training prepare students for global healthcare systems, with options for international certifications and pathways.

Career Opportunities

  • Radiologic Technologist

  • MRI Technologist

  • CT Technologist

  • Ultrasound Technologist

  • Nuclear Medicine Technologist

  • Radiation Therapist

  • Healthcare Educator

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