Best Bsc Imaging Technology Colleges in Bangalore -Acharya
The B.Sc in Imaging Technology at Acharya Institute of Allied Health Sciences stands as a specialized program aimed at providing students with comprehensive training in various advanced medical imaging techniques. The program helps students to produce high-quality medical images that help a medical specialist with the diagnosis, treatment and monitoring of the patient. Medical imaging includes many different branches of imaging such as Computed tomography (CT), X-ray Imaging, Molecular Imaging, Mammography, Ultrasound Imaging, Magnetic Resonance Imaging (MRI), Fluoroscopy and Radiography. Students of the program are provided with hands-on training on the utilization of different imaging techniques. BSc Imaging technology scope is rising because of the dire need for professional technicians in the healthcare sector.
Program Highlights
- Students learn the fundamental principles of radiation, its properties, and how it interacts with matter.
- Understanding human anatomy and physiology is crucial for producing high-quality medical images.
- Students are trained in the proper positioning of patients and equipment to obtain clear and diagnostic images.
- Course covers the operation of radiographic equipment, including X-ray machines and fluoroscopy units.
- Students study common diseases and conditions and learn how to interpret medical images to identify abnormalities and pathology.
Career Scope
BSc in Imaging Technology prepares students to join health care services with their expertise in the field of Medical Imaging. Graduates from this field acquire advanced theoretical and practical knowledge. The program also helps graduates to stay updated with the advancement in the field of Imaging Technology.
With the recent advancements in healthcare technology, doctors/physicians rely heavily on medical imaging equipment to diagnose patients. Imaging technologists work in hospitals and diagnostic centers, and extend their practical expertise to other healthcare professionals. Imaging professionals work together with the healthcare team to ensure the proper diagnosis of patients.
Technicians can also get employed in companies dealing with medical imaging equipment. Moreover, they can pursue a Master’s degree and can pursue a career in the field of medical research and development.The curriculum, which includes physics and medical subjects, opens up a diverse range of career opportunities.
Graduates can work as:
- Radiologic Technologist
- MRI Technologist
- CT Technologist
- Ultrasound Technologist/Sonographer
- Nuclear Medicine Technologist
- Mammography Technologist
- Cardiovascular Technologist
- Radiation Therapist
- Tutor
Overview
Duration : 4 years including 1 year of Internship
Eligibility : 10+2 (Science – PCB / PCMB). Min 45%.
Inclusions: Tuition Fee, University Registration, Eligibility Fee, Miscellaneous Fee, Laboratory Fee, Library Fee, Sports Fee and Clinical Fee.
Exclusions : Uniform & Stationery.
Examination fee as prescribed by the University / Board.
Note : Students are oered complimentary OBT and softskills.
Mandatory first-year hostel stay with four-sharing allotment with upgrades available at additional cost (mess not included).
FAQ's
B.Sc. Imaging Technology is a four-year undergraduate healthcare programme that trains students to create and analyse diagnostic medical images used by doctors for diagnosis, treatment, and patient monitoring.
The programme duration is 4 years, including 1 year of internship/clinical training.
Candidates must have completed 10+2 / PUC (Science stream) with Physics, Chemistry, Biology, and English, with at least 45% aggregate marks.
Students learn human anatomy, radiation physics, radiographic positioning, operation of imaging equipment, and interpretation of diagnostic images.
The course includes training in X-ray, CT scan, MRI, ultrasound, mammography, fluoroscopy, molecular imaging, and radiography.
Yes. Students receive hands-on clinical training in operating imaging equipment and positioning patients to obtain accurate diagnostic images.
Students develop skills in radiation safety, image acquisition, equipment handling, disease identification through imaging, and working with healthcare teams.
Graduates can work as Radiologic Technologists, MRI Technologists, CT Technologists, Sonographers, Mammography Technologists, Nuclear Medicine Technologists, or Radiation Therapists.
They can work in hospitals, diagnostic centres, imaging labs, and medical equipment companies.
Yes. The demand is growing because modern healthcare relies heavily on imaging technologies for accurate diagnosis, and AI-assisted image analysis is expanding the field further.
