DM Therapeutic Nuclear Medicine (Doctor of Medicine in Nuclear Medicine) is a postgraduate Medicine course. This branch of medical imaging uses small amounts of radioactive material to diagnose and determine the severity of or treat a variety of diseases, including many types of cancers, heart disease, gastrointestinal, endocrine, neurological disorders, and other abnormalities within the body.
The professionals in this field employ specially designed gamma cameras that detect and image the radiations emitted by the radiotracers injected into the human body. Nuclear medicine is a safe, painless, and cost-effective way of gathering information that may otherwise be unavailable or require a more expensive and riskier diagnostic test.
DM Therapeutic Nuclear Medicine Highlights
Course |
DM Therapeutic Nuclear Medicine |
Course Level |
Post Graduate |
Duration |
3 years, |
Stream |
Medicine |
Examination Type |
Semester System |
Eligibility |
MBBS degree recognized by the Medical Council of India |
Admission Process |
Based on results of the entrance examination (NEET) or personal interview in some cases |
Average Course Fee |
INR 5K to 25 Lakh |
Average Starting Salary |
INR 1 to 20 Lakhs |
Top Recruiting Companies |
Apollo Hospitals, All India Institute of Medical Sciences, Fortis Memorial Research Institute, Wockhardt Hospital, Columbia Asia, Medanta, Indraprastha Apollo Hospital, Max Hospital, etc. |
Eligibility Criteria for DM Therapeutic Nuclear Medicine
1. Aspiring candidates should have passed an M.B.B.S. degree from a recognized university board.
2. The applicant must hold a bachelor’s or associate degree in nuclear medicine or related courses such as physics or chemistry to pursue a postgraduation program.
3. Some of the reputed institutes conduct entrance examinations for admission.
4. The persons with benchmark disabilities shall be given an upper age relaxation of five years for admission to DM/M.Ch for PWD candidates as per the Right of Persons with Disability Act, 2016.
Admission Process
1. Admission is based on merit and eligibility criteria.
2. Usually, the admission process for the majority of courses starts in the month of April and ends in the month of September. However, for many courses, the admission process is through an entrance exam or counseling process.
3. Candidates who are 50 percentile or above (as per the decision of the meeting of the Academic Committee in the written test, seats advertised will be called for departmental clinical/practical/lab based assessment.
Career after DM Therapeutic Nuclear Medicine
Candidates willing to further higher research studies also can go for it. The Course helps to identify the disease in its earliest stage, often before symptoms occur or abnormalities can be detected with other diagnostic tests. Nuclear medicine differs from an x-ray, ultrasound or any other diagnostic test that determines the presence of disease based on structural appearance.
From identifying new diseases to conducting exhaustive research in order to find the cure, the prospective candidates are familiarised with the important concepts pertinent to this field. Further, the internships and industrial training programs, which form an integral part of the coursework help in the overall skill development of the students.
Many new centers and big hospitals are now investing in this branch just like radiology and they want nuclear medicine physicians to run their departments. Currently, very few institutes and seats are offering this course (AIIMS, PGIMER, RMC, TMC, SGPGI, JIPMER, Amrita etc) the demand will be definitely good for a few future years.
Job Position |
Areas of Employment |
Radiologist |
Private and Government Hospitals |
Research Assistant |
Universities or University affiliated hospitals and medical institutions |
Associate and Lab Leader |
Private and Government Research Institutes |
Radiologist Professor |
Imaging centers |
Nuclear Pharmacist |
Nuclear pharmacies, Industries |
DM Therapeutic Nuclear Medicine Syllabus
S. No. |
Subjects of Study |
1 |
Basic Sciences |
2 |
Mathematics, Statistics & Computer Sciences |
3 |
Instrumentation |
4 |
Radiation Biology & Protection |
5 |
Radiopharmaceuticals |
6 |
Diagnostic Imaging |
7 |
In-vitro Studies |
8 |
Therapeutic uses of Radionuclide |
9 |
Organizational Considerations |