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Home B.Sc. Radiography & Imaging Technology (RIT)

B.Sc. Radiography & Imaging Technology (RIT)

Courses Offered

B.Sc. Radiography & Imaging Technology (RIT)

(Allied Health Sciences – SIMSAR)

Department of Radiography & Imaging Technology

The Department of Radiography & Imaging Technology at SIMSAR is committed to producing highly skilled imaging professionals capable of operating advanced diagnostic equipment with precision and care. The department is equipped with simulation labs, imaging training modules, and faculty with strong clinical expertise to ensure students gain deep knowledge of radiological sciences.

With exposure to real-time imaging procedures through tie-ups with top hospitals, students learn to work with cutting-edge modalities such as X-Ray, CT, MRI, Ultrasound, Fluoroscopy, and digital imaging systems. The program emphasizes patient safety, radiation protection, image quality evaluation, and clinical diagnosis support—ensuring students are industry-ready upon graduation.

About The Course

B.Sc. Radiography & Imaging Technology is a 3-year undergraduate program designed to train students in diagnostic imaging sciences. The course develops proficient imaging technologists who assist radiologists in diagnosing diseases using advanced imaging equipment.

Students learn:

  • Basics of Radiological Physics
  • Operation of X-Ray, CT, MRI, Ultrasound systems
  • Patient preparation & positioning techniques
  • Radiation safety and protection
  • Image acquisition & quality control
  • Contrast studies & special imaging procedures
  • Emergency imaging and trauma response

The course integrates theory, simulation lab practice, and extensive hospital-based clinical training to build strong technical and analytical skills.

Curriculum Overview

Year 1
Fundamental Sciences
  • Human Anatomy
  • Physiology & pathology
  • General physics & Basics of Radiological Physics
  • Physics of Diagnostic Radiology
  • Radiography equipments
  • Maintenance and Quality control
  • Radiation Protection & Safety
  • Basic Imaging Techniques
  • Practical: X-ray positioning, darkroom techniques, basic imaging
Year 2
Core Imaging Techniques
  • Radiographic Techniques – I (General Imaging)
  • Image processing Techniques
  • Radiographic Anatomy
  • Clinical Radiology
  • CT Imaging Technology – I
  • Applied Physics in Imaging
  • Patient Care & Medical Ethics
  • Contrast & special Radiography procedures
  • Practical: Contrast media procedures, advanced X-ray imaging, CT basics
Year 3
Advanced Medical Imaging
  • MRI Technology
  • CT Imaging Technology – II
  • Ultrasound Basics & Imaging Concepts
  • Digital Imaging & PACS
  • Specialized Radiological Procedures
  • Internship / Clinical Postings
  • Practical: MRI protocols, CT angiography, fluoroscopy, trauma imaging
Internship
Compulsory Internship
  • Students get hands-on exposure in:
  • Patient care & positioning
  • Radiation protection & safety
  • various Imaging Technical exposure
  • Individual Handling of X-RAY, CT & MRI Techniques
  • Radiological Special procedures
  • Emergency & Trauma Imaging
  • Fluoroscopy Units
  • Mammography (where available)
  • Government & Private Diagnostic Centers

This ensures clinical competence across various imaging disciplines.

Career Scopes

Graduates of RIT find excellent opportunities in diagnostic imaging, hospital radiology departments, and global healthcare institutions.

Career Roles
  • X-ray & mammography Technologist
  • CT Technologist
  • MRI Technologist
  • Quality control technologist
  • Nuclear medicine technologist
  • Diagnostic Imaging Specialist
  • Radiology Assistant
  • PACS Administrator
  • Radiology Quality Control Technologist
  • Emergency/Trauma Imaging Technologist
Employment Sectors
  • Multi-specialty hospitals
  • Government hospitals
  • Diagnostic imaging centres
  • Cancer centres
  • Orthopaedic hospitals
  • Tele-radiology centres
  • Medical research institutions

The demand for radiology professionals continues to rise due to advancements in imaging and increased need for diagnostic services.

Radiology technologists enjoy one of the highest global demands in the allied health category.

Top Countries Hiring

  • USA
  • UK
  • Canada
  • Australia
  • UAE
  • Saudi Arabia
  • Germany

Why Radiology is Globally Preferred

  • Advanced healthcare technologies
  • Strong global acceptance of radiology qualifications
  • High pay scale & career growth
  • Shortage of skilled imaging technologists

Pathways Abroad

  • International licensing exams (where needed)
  • Migration pathways for healthcare technologists
  • Postgraduate specialization in CT/MRI
  • Direct placement in hospitals & Imaging centres

Labs & Facilities

The Radiography & Imaging Lab provides comprehensive training in imaging sciences using advanced digital imaging equipment and simulation setups. Students learn positioning, radiation safety, and imaging procedures under expert guidance.

Key Facilities

  • Digital X-ray Simulation Unit
  • Radiographic Positioning Mannequins
  • CR/DR Imaging Demonstration Systems
  • Radiation Protection Devices
  • CT/MRI Demonstration Modules
  • C-Arm Simulation for OT Imaging
  • Lead Aprons, Shields & Radiation Dosimeters

Practical Training Includes

  • Radiographic positioning techniques
  • Contrast studies (simulated)
  • CT & MRI imaging concepts
  • Trauma and emergency imaging protocols
  • Radiation safety and dosimetry

Students gain the technical confidence required to perform high-quality diagnostic imaging.