Nuclear medicine technologists held about 19,300 jobs in 2018. The largest employers of nuclear medicine technologists were as follows:
| Hospitals; state, local, and private | 73% |
| Offices of physicians | 15 |
| Medical and diagnostic laboratories | 6 |
| Outpatient care centers | 3 |
Technologists are on their feet for long periods and may need to lift or turn patients who are disabled.
Injuries and Illnesses
Although radiation hazards exist in this occupation, they are minimized by the use of gloves and other shielding devices. Nuclear medicine technologists wear badges that measure radiation levels in the radiation area. Instruments monitor their radiation exposure and detailed records are kept on how much radiation they get over their lifetime. When preparing radioactive drugs, technologists use safety procedures to minimize radiation exposure to patients, other healthcare workers, and themselves.
Like other healthcare workers, nuclear medicine technologists may be exposed to infectious diseases.
Work Schedules
Most nuclear medicine technologists work full time. Some nuclear medicine technologists work evenings, weekends, or nights.
Nuclear medicine technologists typically need an associate’s degree from an accredited nuclear medicine technology program. Formal education programs in nuclear medicine technology or a related healthcare field lead to a certificate, an associate’s degree, or a bachelor’s degree. Most nuclear medicine technologists become certified.
Education
Nuclear medicine technologists typically need an associate’s degree in nuclear medicine technology. Bachelor’s degrees are also common. Some technologists become qualified by completing an associate’s or a bachelor’s degree program in a related health field, such as radiologic technology or nursing, and then completing a 12-month certificate program in nuclear medicine technology.
Nuclear medicine technology programs often include courses in human anatomy and physiology, physics, chemistry, radioactive drugs, and computer science. In addition, these programs include clinical experience—practice under the supervision of a certified nuclear medicine technologist and a physician or surgeon who specializes in nuclear medicine.
The Joint Review Committee on Educational Programs in Nuclear Medicine Technology accredits nuclear medicine programs. Graduating from an accredited program may be required for licensure or by an employer.
High school students who are interested in nuclear medicine technology should take courses in math and science, such as biology, chemistry, anatomy, and physics.
Licenses, Certifications, and Registrations
Most nuclear medicine technologists become certified. Although certification is not required for a license, it fulfills most of the requirements for state licensure. Licensing requirements vary by state. For specific requirements, contact the state’s health board.
Some employers require certification, regardless of state regulations. Certification usually involves graduating from an accredited nuclear medicine technology program. Certification is available from the American Registry of Radiologic Technologists (ARRT) and the Nuclear Medicine Technology Certification Board (NMTCB).
In addition to receiving general certification, technologists can earn specialty certifications that show their proficiency in specific procedures or on certain equipment. A technologist can earn certification in positron emission tomography (PET), nuclear cardiology (NCT), or computed tomography (CT). The NMTCB offers NCT, PET, and CT certification exams.
Nuclear medicine technologists typically have an interest in the Building, Thinking and Helping interest areas, according to the Holland Code framework. The Building interest area indicates a focus on working with tools and machines, and making or fixing practical things. The Thinking interest area indicates a focus on researching, investigating, and increasing the understanding of natural laws. The Helping interest area indicates a focus on assisting, serving, counseling, or teaching other people.
If you are not sure whether you have a Building or Thinking or Helping interest which might fit with a career as a nuclear medicine technologist, you can take a career test to measure your interests.
Nuclear medicine technologists should also possess the following specific qualities:
Ability to use technology. Nuclear medicine technologists work with computers and large pieces of technological equipment and must be comfortable operating them.
Analytical skills. Nuclear medicine technologists must understand anatomy, physiology, and other sciences and be able to calculate accurate dosages.
Compassion. Nuclear medicine technologists must be able to reassure and calm patients who are under physical and emotional stress.
Detail oriented. Nuclear medicine technologists must follow exact instructions to make sure that the correct dosage is given and that the patient is not overexposed to radiation.
Interpersonal skills. Nuclear medicine technologists interact with patients and often work as part of a team. They must be able to follow instructions from a supervising physician.
Physical stamina. Nuclear medicine technologists must stand for long periods and be able to lift and move patients who need help.
The median annual wage for nuclear medicine technologists was $77,950 in May 2019. The median wage is the wage at which half the workers in an occupation earned more than that amount and half earned less. The lowest 10 percent earned less than $56,560, and the highest 10 percent earned more than $105,690.
In May 2019, the median annual wages for nuclear medicine technologists in the top industries in which they worked were as follows:
| Outpatient care centers | $107,070 |
| Hospitals; state, local, and private | 78,040 |
| Offices of physicians | 77,850 |
| Medical and diagnostic laboratories | 73,240 |
Most nuclear medicine technologists work full time. Some nuclear medicine technologists work evenings, weekends, or nights.
Employment of nuclear medicine technologists is projected to grow 7 percent from 2018 to 2028, faster than the average for all occupations.
An aging population may lead to the need for nuclear medicine technologists who can provide imaging to patients with certain medical conditions, such as heart disease, or treatments for cancers and other diseases. In addition, technological advancements may increase the types of imaging and treatments that nuclear medicine technologists provide, leading to increased demand for their services.
Job Prospects
Nuclear medicine technologists can improve their job prospects by completing a bachelor’s degree from an accredited program or earning a specialty certification, such as in positron emission tomography (PET), nuclear cardiology (NCT), or computed tomography (CT). Certification is available from the American Registry of Radiologic Technologists (ARRT) and the Nuclear Medicine Technology Certification Board (NMTCB).
For more information about nuclear and radiologic medicine, visit
American Board of Nuclear Medicine
American College of Nuclear Medicine
Society of Nuclear Medicine and Molecular Imaging
For a list of accredited programs in nuclear medicine technology, visit
Joint Review Committee on Educational Programs in Nuclear Medicine Technology
For more information about certification for nuclear medicine technologists, visit
Nuclear Medicine Technology Certification Board
American Registry of Radiologic Technologists