3 Years
Under Graduate
Paramedical Science
Full Time
B.Sc. Radiotherapy Technology jobs are radiotherapy technologists, medical imaging technologists, dosimetrists, or radiation safety officers in hospitals, cancer treatment centres and in diagnostics laboratories. These professionals are responsible for applying the right dose of radiation to patients while ensuring all safety protocols have been strictly adhered to. The field of radiotherapy technologists is growing, with opportunities available to better manage and technically treat cancers as they improve. Most new graduates would earn between INR 2.5 to INR 4.5 lakh per annum, along with experience, location and if the facility is a government-type healthcare institution.
A B.Sc. Radiotherapy Technology is a three- or four-year undergraduate program that combines theory and practice. The program encompasses coursework in radiation physics, anatomy, oncology, and radiobiology in addition to treatment planning and a range of imaging modalities, namely CT, MRI, and PET. The training includes clinical practice in almost all semesters, mostly through internships in cancer hospitals or clinical departments offering radiotherapy courses. Students will practice under supervision the operation of machines (linear accelerators), the simulation of treatment sites, and radiation safety practice. The B.Sc. will help prepare graduates to assist and communicate with radiation oncologists in diagnosing the cancer and therapy provided.
Here are the key details about the B.Sc. Radiotherapy Technology Course Details:
| Parameter | Description |
| Full Course Name | Bachelor of Science in Radiotherapy Technology |
| Level | Undergraduate Degree |
| Duration | 3 Years (6 Semesters) + 6 to 12 months Internship |
| Stream | Allied Health Sciences / Paramedical |
| Course Objective | To train students in the application of radiation techniques for cancer treatment and diagnosis |
| Core Focus Areas | Oncology Basics, Radiation Physics, Radiotherapy Planning, Patient Safety, Equipment Handling |
| Key Subjects | Radiation Physics, Human Anatomy, Oncology, Radiobiology, Treatment Planning, Brachytherapy |
| Practical Training | Hands-on experience with Linear Accelerators, Simulation Units, CT-based Treatment Planning |
| Industries of Employment | Oncology Hospitals, Cancer Research Institutes, Radiotherapy Clinics |
| Higher Education | M.Sc. Radiotherapy, M.Sc. Medical Physics, PG Diploma in Radiation Technology |
| Average Salary Range | INR 2.5 LPA to INR 6 LPA (can increase with specialization and experience) |
| Certifications/Regulations | AERB compliance, BARC certifications, and radiation safety licensing |
B.Sc. Radiotherapy Technology eligibility criteria require applicants to have completed 10+2 or equivalent with Physics, Chemistry, Biology, and English, generally with a minimum mark of 50–60%. Some institutions may give a 5 percent relaxation of marks for candidates of a reserved category. Generally, all institutions will require a stream of compulsory science subjects, and may include a fitness component for the practical setting of the course. Only few universities will allow lateral entry into the second year for candidates with a diploma in radiography or a related subject. In addition to being computer literate, many universities prefer candidates who possess modicum of excellent communication skill.
Here are the key details about the B.Sc. Radiotherapy Technology Eligibility Criteria 2026:
| Criteria Type | Description |
| Academic Qualification | Passed 10+2 or equivalent with Science stream |
| Compulsory Subjects | Physics, Chemistry, Biology / Mathematics |
| Minimum Aggregate Marks | 45% to 60% (varies by institute) |
| Age Limit | Typically 17–25 years at time of admission |
| Medical Fitness | Mandatory medical fitness certificate required |
| Reservation Quotas | As per government regulations (SC/ST/OBC/PwD) |
| Foreign Candidates | Must produce equivalence certificate and may require English proficiency test |
B.Sc. Radiotherapy Technology admission process is based on entrance exams or merit in 10+2. Top universities and institutions may have their own entrance exams or may accept national/state level entrance exams such as NEET-UG, CET and others, or conduct their own test. Invitations to counseling is made to candidates who qualify to the next stage with verification of documents and physician check-ups. Selection is made post-counseling. Private institutions may grant admission via the management quota. Admission usually commences April to June every year and consists of submission of application, entrance exam results, college allotments in some cases.
Here are the key details about the B.Sc. Radiotherapy Technology Admission Process 2026:
| Stage | Description |
| Step 1: Application | Apply online or offline via the institution’s admission portal |
| Step 2: Entrance Test (if applicable) | Some universities require national/state/university-level entrance tests |
| Step 3: Merit List / Ranking | Based on entrance score or 12th-grade marks (for merit-based admissions) |
| Step 4: Counseling / Interview | Document verification, seat allotment, sometimes followed by interviews |
| Step 5: Admission Confirmation | Fee payment and confirmation of admission |
| Step 6: Medical Clearance | Mandatory fitness verification from certified medical officer |
Depending on the school or institution, admission to this program will mostly qualifying the entrance exam. These B.Sc. Radiotherapy Technology entrance exams will either be national/state level entrance exams, like NEET-UG or state CETs, university entrance examinations like AIIMS, JIPMER, PGIMER. Some private institutions will conduct their own entrance tests and may also hold interviews or aptitude exams. The entrance tests basically covers Physics, Chemistry, and Biology related to 10+2 curriculum. A qualifying test score would typically add to chances of admission to certain institutions- especially those affiliated with a specific medical college; the test results are used in counselling rounds carried out according to ranks or merit lists.
Here are the key details about the B.Sc. Radiotherapy Technology Entrance Exam 2026:
| Exam Name | Conducted By | Level | Mode | Subjects Covered | Institutes Accepting It |
| NEET-UG | National Testing Agency (NTA) | National | Offline (OMR) | Physics, Chemistry, Biology | AIIMS, some central/private universities |
| CUET (UG) | NTA | National | Online | Domain-Specific (Science) | Central & State Universities |
| AIIMS Paramedical Exam | AIIMS Delhi | National | Online | Physics, Chemistry, Biology | AIIMS campuses |
| JIPMER Paramedical | JIPMER Puducherry | Institutional | Online | PCB & Reasoning | JIPMER |
| State CETs (e.g., KCET, MHT CET) | State Governments | State | Varies | PCB / PCMB | State Government & Affiliated Colleges |
| University-Specific Exams | Private Universities | Varies | Online/Offline | Based on Class 12 Syllabus | SRM, Amity, NIMS, etc. |
The standard full-time B.Sc. Radiotherapy Technology program is the predominant delivery model for this program which is offered by medical colleges and universities. The full-time or regular B.Sc. Radiotherapy which is subject to classroom learning or theory and mandatory clinical training. The course is rarely offered in a distance or offsite mode because of the hands-on nature of the course and safety standards. Part-time options may be available in situational colleges to allow working professionals willing to study part time but may otherwise be limited. In the case of clinical practice, there is a requirement for in-person practice regulated by governing bodies.
Here are the key details about the Types of B.Sc. Radiotherapy Technology:
| Type of Program | Description | Mode of Delivery | Availability in India | Suitability |
| Regular (Full-Time) | Standard 3-year + internship format with in-person classes and lab sessions | On-campus | Widely available | Ideal for freshers and practical-based learners |
| Distance Learning | Self-paced course with minimal/no physical attendance | Printed/E-materials | Rare for radiotherapy | Not recommended due to practical nature |
| Online | Theory delivered online, minimal hands-on training (if any) | LMS / Virtual Classes | Very limited (often not valid) | Suitable for theoretical knowledge only |
| Part-Time | Evening or weekend classes for working professionals | Hybrid/Offline | Very few institutes offer | Good for hospital staff looking to upskill |
| Hybrid (Blended) | Mix of online theory + offline practical sessions | Online + Clinical Labs | Growing but limited | Useful if supported by accredited hospitals |
The B.Sc. Radiotherapy Technology syllabus contains the following core components; Human Anatomy; Radiation Physics; Radiobiology; Medical Imaging; Clinical Oncology; Radiation Safety; Treatment Planning; Patient care. As well, students will learn Applied Physics, Biostatistics, Computer Applications and Research Methodologies, Professional ethics. Participants of the program are required to demonstrate clinical practice and case study reviews. The curriculum is described as semester or year based and it is applicable to practical exams, viva voce, and written exams. The final year program will include an internship in a hospital to practice using the radiation therapy equipment and protocols in real-world settings.
Here are the key details about the B.Sc. Radiotherapy Technology Syllabus 2026:
| Subject Name | Description |
| Human Anatomy | Study of human body structure, organs, and systems |
| Physiology | Function of organ systems and body mechanisms |
| Biochemistry | Chemical principles in body processes; enzymes, proteins |
| Physics (Basic + Radiation) | Fundamental and radiation physics; ionizing radiation concepts |
| Pathology & Microbiology | Disease processes, infections, and microbial biology |
| Introduction to Oncology | Basics of cancer biology, tumor classification |
| Communication Skills & Ethics | Patient interaction, consent, ethical conduct in radiation therapy |
| Practical - Anatomy/Physiology | Dissection, slides, body part recognition |
| Practical - Basic Radiation Physics | Radiation units, devices, simulation |
| Subject Name | Description |
| Radiation Therapy Techniques I | Conventional radiotherapy procedures and planning |
| Radiographic Procedures | Radiological imaging related to therapy planning |
| Radiobiology | Study of biological effects of ionizing radiation |
| Radiation Safety & Protection | ALARA principles, shielding, exposure control |
| Medical Imaging | Basics of CT, MRI, simulation for treatment planning |
| Oncology Nursing & Patient Care | Cancer patient handling, chemotherapy support |
| Clinical Posting I | Introduction to radiotherapy units and patient set-up |
| Practical - Simulation & Imaging | Immobilization techniques, simulator use |
| Subject Name | Description |
| Radiation Therapy Techniques II | 3DCRT, IMRT, IGRT, SRS, Brachytherapy techniques |
| Treatment Planning Systems (TPS) | Contouring, dosage calculation, planning with software |
| Applied Dosimetry | Measuring and calculating radiation doses |
| Oncology & Palliative Care | Cancer staging, treatment protocols, palliative care |
| Quality Assurance (QA) in Radiotherapy | QA protocols, equipment calibration, AERB compliance |
| Research Methodology & Biostatistics | Basics of research, clinical trials, data analysis |
| Clinical Posting II | Advanced clinical exposure to linear accelerators, brachytherapy suites |
| Practical - TPS & QA | Hands-on with treatment planning software and dosimetry tools |
Radiotherapy technologists require a combination of technical ability and people skills. The core competencies consist of having an understanding of radiation equipment, treatment planning software, and human anatomy sometime together. It is important to be committed to accuracy, attention to detail, and an understanding of radiation standards. Communication is equally important, as technologists will interact with patients receiving treatment, staff within the healthcare team, as well as education in the workplaces. Technologists will need to demonstrate empathy and patience, as well as the capacity to develop an internalized approach to dealing with stress in a clinical space. Time-management, critical thinking, and problem-solving are critical competencies to help them on the job.
Here are the key details about the B.Sc. Radiotherapy Technology Skills Required:
| Skill Area | Description |
| Technical Proficiency | Operating linear accelerators, simulators, TPS software |
| Radiation Safety | Adhering to safety norms, ALARA principles, shielding techniques |
| Medical Knowledge | Cancer biology, human anatomy, patient care |
| Computer & Software Skills | Planning systems, dosimetry software, image-guided platforms |
| Communication Skills | Interaction with oncologists, patients, team coordination |
| Precision & Attention | Exact measurements for dose delivery and patient positioning |
| Problem Solving | Handling equipment malfunctions, troubleshooting treatment errors |
| Empathy & Patient Handling | Dealing with terminally ill patients, emotional intelligence |
| Quality Assurance Skills | Daily, weekly, and monthly QA protocols for radiotherapy equipment |
Some of the most reputable B.Sc. Radiotherapy Technology colleges include, AIIMS Delhi, PGIMER Chandigarh, JIPMER Puducherry, Tata Memorial Hospital Mumbai, and Christian Medical College (CMC) Vellore. These colleges are known to be competitive with a strong academic standing, on-campus interventional radiology labs, and clinical practice and placements at their affiliated hospitals. They admit students based on merit and typically only via an entrance exam. Hospitals and cancer treatment centers value graduates with course and skills from these institutions and in-particular the programs rigorous and demanding education, training and hands-on exposure to interventions in advanced technological modalities.
Here are the key details about the Top B.Sc. Radiotherapy Technology Colleges in India:
| College Name | Location | Type | Highlights |
| All India Institute of Medical Sciences (AIIMS) | New Delhi | Government | Top-tier, world-class facilities, central funding |
| Christian Medical College (CMC) | Vellore | Private/Trust | Advanced cancer institute, renowned faculty |
| Postgraduate Institute of Medical Education & Research (PGIMER) | Chandigarh | Government | Strong clinical exposure, AERB-certified program |
| JIPMER | Puducherry | Government | High-end simulation and clinical learning |
| Manipal Academy of Higher Education | Manipal | Private/Deemed | International standard equipment, internships |
| SRM Institute of Science and Technology | Chennai | Private/Deemed | Dedicated radiotherapy lab units, TPS training |
| NIMS University | Jaipur | Private | Budget-friendly, cancer specialty units |
Some of the well-known B.Sc. Radiotherapy Technology private colleges include Amrita Institute of Medical Sciences (Kochi), SRM Institute of Science and Technology (Chennai), Manipal Academy of Higher Education, DY Patil University (Mumbai), and Kalinga Institute of Medical Sciences (Bhubaneswar). Private colleges generally provide students with state-of-the-art infrastructure, experienced faculty, and collaborations with reputable hospitals. The admission process typically involves institutional entrance tests or admission based on merit. Private colleges usually provide students with better campus facilities, internships, and placement assistance than smaller public colleges.
Here are the key details about the Top B.Sc. Radiotherapy Technology Private Colleges in India:
| College Name | Location | Key Features |
| Christian Medical College (CMC) | Vellore | Oldest radiotherapy unit, excellent faculty |
| Manipal University | Manipal | High-end cancer care centre with full-time mentors |
| Amrita Institute of Medical Sciences | Kochi | Modern radiology and radiotherapy labs |
| SRM Institute of Science and Technology | Chennai | International exposure, PACS-integrated systems |
| KLE Academy of Higher Education | Belagavi | Dedicated oncology unit with LAs and CT sims |
| NIMS University | Jaipur | Budget-oriented, placement focused |
| DY Patil Deemed University | Navi Mumbai | Clinical tie-ups with cancer centers |
There are good B.Sc. Radiotherapy Technology government colleges are AIIMS Delhi, PGIMER Chandigarh, JIPMER Puducherry, Rajiv Gandhi Cancer Institute (New Delhi), and NIMHANS Bangalore. Students will pay less for tuition fees and will receive valuable education with opportunities to practice with advanced radiotherapy equipment. Admission to the government colleges will generally need students to appear for competitive entrance tests like NEET or for institution-specific tests. Students at government colleges will benefit from better clinical exposures with hospitals attached to the government colleges. Hence, students feel confident in moving into situations dealing with patients.
Here are the key details about the Top B.Sc. Radiotherapy Technology Government Colleges in India:
| College Name | Location | Special Features |
| AIIMS (All India Institute of Medical Sciences) | Delhi, Bhopal, etc. | Best infrastructure, free or low-cost education |
| Tata Memorial Hospital (TMC) | Mumbai | Premier cancer care hospital with own B.Sc. program |
| PGIMER | Chandigarh | Research-integrated learning, top placements |
| JIPMER | Puducherry | Government-funded, quality teaching, clinical focus |
| Government Medical College & Hospital | Nagpur, Thiruvananthapuram | State-run, with cancer specialty clinics |
| Dr. B.R. Ambedkar Institute of Paramedical Sciences | Bangalore | Government-affiliated, oncology exposure |
B.Sc. Radiotherapy Technology fee structure is depends on the location and type of colleges. GThe government colleges charge INR 10,000 - INR 50,000 (Most government colleges charge between these two amounts), while private universities or colleges generally charge from INR 70,000 - INR 2,50,000, depending on the infrastructure and the region. In addition to tuition fees, students may need to pay for registration, exam and lab fees, and uniforms and other costs. Students can apply for a variety of scholarships offered to deserving students and reserved category students. Some colleges also offer students a choice of an installment fee payment scheme, or education loans from recognized banks, to assist in supporting students and families.
Here are the key details about the B.Sc. Radiotherapy Technology Fee Structure 2026:
| Institution Type | Annual Fee Range (INR) | Inclusions | Exclusions |
| Government Colleges | INR 8,000 – INR 40,000 | Tuition, lab access, hospital posting | Hostel, uniform, tools, insurance |
| Private Colleges (Tier-1) | INR 90,000 – INR 1.8 Lakhs | Advanced equipment access, simulation labs | Hostel, clinical tools, exam fees |
| Private Colleges (Tier-2) | INR 50,000 – INR 1.2 Lakhs | Basic facilities, local hospital tie-ups | Travel, certification, study material |
| Deemed Universities | INR 1.5 – INR 3 Lakhs | International exposure, integrated internship | High-end tools, books, hostel |
| Other Costs | INR 10,000 – INR 30,000/year | Uniforms, internship travel, insurance | Varies based on location |
As graduates, Radiotherapy Technologist can work in cancer hospitals, radiology departments, diagnostic centers, and oncology clinics. B.Sc. Radiotherapy Technology career options are operating radiotherapy machines, providing treatment plans, ensuring that patients are safe, and supporting the oncologist. There are career opportunities available in both the government and private sectors. There may also be the opportunity to become a Medical Physicist Assistant or Radiation Safety Officer with continued education and qualifications. Radiotherapy technologists also have research, equipment sales, and higher education opportunities. With experience and certifications, they may also reignite an interest in senior technical or supervisory jobs.
Here are the key details about the B.Sc. Radiotherapy Technology Career Opportunities:
| Job Title / Role | Description | Work Setting | Key Responsibilities |
| Radiotherapy Technologist | Operates radiotherapy equipment like Linear Accelerators (LINACs) | Cancer hospitals, oncology centers | Patient positioning, beam setting, dose delivery |
| Dosimetrist (with PG or training) | Plans and calculates radiation doses prescribed by radiation oncologists | Radiotherapy departments, treatment planning units | Using TPS software to generate accurate dose plans |
| Radiation Safety Officer (RSO) | Ensures compliance with safety protocols and radiation limits | Hospitals, diagnostic centers, research labs | Monitoring radiation exposure, reporting, auditing |
| Treatment Planner | Works with TPS systems to design treatment beams and contours | Oncology centers, tertiary care hospitals | Image fusion, contouring, field setup |
| Simulation Specialist | Sets up patients for simulation before treatment planning begins | Cancer centers, simulation labs | Immobilization, reference imaging, patient marking |
| Medical Physicist Assistant | Assists in calibration, QA, and equipment evaluation | Research hospitals, equipment vendors | QA reports, machine dosimetry, phantom studies |
| Oncology Department Coordinator | Manages day-to-day operations of a radiotherapy unit | Corporate hospitals, private centers | Patient scheduling, workflow management |
| Clinical Research Coordinator | Involved in research projects or clinical trials in radiation oncology | Research institutes, pharma companies | Trial protocols, data collection, regulatory paperwork |
| Academic Faculty / Lecturer | Teaches B.Sc. or diploma students in radiotherapy programs | Paramedical institutes, universities | Curriculum delivery, practical training, mentoring |
| Radiotherapy Applications Specialist | Trains hospital staff in operating radiotherapy software/equipment | Equipment companies like Elekta, Varian | Software demo, clinical workflow support |
B.Sc. Radiotherapy Technology salary range is between INR 20,000 and INR 35,000 per month with a government or private health care service. Starting salaries typically increase in the range of INR 50,000 per month at mid-career, depending on their experience level (2–5 years). Senior technologists or supervisors, or certified individuals, should earn salaries of INR 60,000–INR 1,00,000 per month with experience. Other private cancer hospitals provide higher salaries, particularly when compared to hospitals in Tier 2 cities. Of course, salary does depend on the institution, location and qualifications. Many international opportunities also exist, primarily in the Middle East or Europe, with significantly higher packages.
Here are the key details about the B.Sc. Radiotherapy Technology Salary in India:
| Job Title / Role | Entry-Level Salary (0–2 Years) | Mid-Level Salary (3–6 Years) | Senior-Level Salary (7+ Years) | Salary Influencing Factors |
| Radiotherapy Technologist | INR 2.5 – INR 4.5 LPA | INR 5 – INR 7.5 LPA | INR 8 – INR 10 LPA | City tier, hospital reputation, shifts |
| Dosimetrist (with PG) | INR 4 – INR 6 LPA | INR 7 – INR 10 LPA | INR 11 – INR 14 LPA | TPS expertise (Eclipse, Monaco), contouring skills |
| RSO (with Certification) | INR 4.5 – INR 6 LPA | INR 6.5 – INR 9 LPA | INR 9 – INR 12 LPA | AERB license, compliance expertise |
| Simulation Technician | INR 2.5 – INR 4 LPA | INR 4.5 – INR 6.5 LPA | INR 6.5 – INR 8 LPA | Immobilization knowledge, precision handling |
| Treatment Planner | INR 3 – INR 5.5 LPA | INR 6 – INR 8.5 LPA | INR 9 – INR 11 LPA | Contouring, fusion skills, software proficiency |
| Academic Faculty | INR 2.5 – INR 4 LPA | INR 4.5 – INR 6.5 LPA | INR 7 – INR 9 LPA | Teaching experience, M.Sc. degree |
| Application Specialist | INR 4.5 – INR 6.5 LPA | INR 7 – INR 9.5 LPA | INR 10 – INR 15 LPA | Company (Elekta, Varian, Siemens), travel readiness |
Scope of B.Sc. Radiotherapy Technology is growing rapidly with cancer becoming more common and infrastructure investment in health care field . Advances in radiotherapy techniques and technology are translating into greater demand for trained professionals. There are job opportunities in multi-specialty hospitals, cancer centers, research facilities, and medical/device equipment companies. Graduates have the option to enter postgraduate courses (M.Sc., PG Diploma) to further their careers. The government's focus on providing oncology services to tier-2 and rural areas is also increasing job availability in India.
Here are the key details about the B.Sc. Radiotherapy Technology Scope in India:
| Area of Scope | Description | Emerging Trends & Opportunities |
| Healthcare Institutions | Public and private cancer centers require skilled technologists | Growth of oncology departments in tier-2 cities |
| Advanced Radiotherapy Techniques | Technologies like IGRT, SBRT, Proton Therapy expanding | Trained professionals in high demand |
| Medical Physics (with PG) | Research and academic field linked to radiation safety and technology | Requires M.Sc. or PG Diploma in Medical Physics |
| Teleradiotherapy | Remote treatment planning and monitoring via cloud platforms | AI-driven treatment algorithms in development |
| Global Opportunities | UAE, UK, Canada, Germany need radiotherapy experts | Additional licenses may be required (ARRT, HCPC, DHA) |
| Academics and Teaching | Increasing need for skilled faculty in paramedical colleges | Faculty shortage expected due to rising seats |
| Medical Equipment Industry | Demand in companies for trainers and technical advisors | Roles in application training and tech development |
| Cancer Research & Trials | Clinical studies on new radiotherapy protocols, side-effect analysis | Collaborative projects with pharma companies |
| Entrepreneurship | Own diagnostic & oncology support services | Requires capital investment and clinical partners |
B.Sc. Radiotherapy Technology top recruiters are Tata Memorial Hospital, Apollo Hospitals, Fortis Healthcare, Max Healthcare, AIIMS, Medanta, Rajiv Gandhi Cancer Institute, and the Cancer Centre HCG. Yet government hospitals, and private diagnostic centres, as well as cancer research centres, hire widely. The same applies to international organizations to recruit Indian technologists, especially in the UAE, UK, and Australia, as they meet the training requirements. Equipment manufactures, e.g., Elekta, Siemens Healthineers, and Varian, hire graduates for application specialists in capacities. Teaching and research institutes employ imaging technologists for academic and lab-based research.
Here are the key details about the B.Sc. Radiotherapy Technology Top Recruiters:
| Recruiter / Organization | Type | Location Base | Roles Offered |
| Tata Memorial Centre (TMC) | Cancer Hospital (Govt.) | Mumbai, Varanasi | Radiotherapy Technologist, TPS Operator |
| Apollo Cancer Centres | Private Hospital Chain | Pan India | Radiation Therapist, QA Technician |
| Fortis Healthcare | Multispecialty Hospital | Delhi, Mumbai, etc. | Treatment Planner, Radiotherapy Staff |
| AIIMS (All India Institutes) | Central Govt. Hospitals | Delhi, Bhopal, etc. | Radiotherapy Tech, Clinical Assistant |
| Max Healthcare | Corporate Chain | NCR, Punjab, Dehradun | Dosimetrist, Oncology Assistant |
| HCG Cancer Centre | Oncology Hospital Chain | Bengaluru, Ahmedabad | QA Specialist, LINAC Operator |
| Aster Hospitals | Private Hospital | South India, Dubai | Radiology/Radiotherapy Technologist |
| Varian Medical Systems | Radiotherapy Equipment MNC | Bengaluru | Application Specialist, Training Officer |
| Elekta India | Medical Equipment MNC | Gurgaon | TPS Trainer, QA Equipment Executive |
| Philips Healthcare | Diagnostic Equipment Division | Pune, Chennai | Clinical Workflow Consultant |
| Medanta – The Medicity | Multispecialty Hospital | Gurugram | Radiation Safety Staff, Simulation Technician |
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