Nuclear medicine


Nuclear medicine

Nuclear medicine is a branch of medicine that deals with the use of radioisotopes for diagnostic and therapeutic purposes. Many procedures in nuclear medicine apply pharmaceuticals that have been considered with radionuclides (radiopharmaceuticals). In diagnosis, radioactive substances are administered to patients and the radiation emitted is calculated.

Nuclear medicine specialists apply safe, unproblematic, and cost-effective methods to image the body and treat illness. Nuclear medicine imaging is exclusive, because it gives doctors with information about both structure and function.

How to become an specialist in Nuclear Medicine

Students should receive courses about science, math, computer science, health, and English available in high school. Also they need to learn medical terminology.

Nuclear medicine programs go from one to four years. One year programs that guide to certification are obtainable in hospitals. Associate and bachelor degrees are obtainable in colleges and universities.

Nature of the work

Nuclear Medicine Technologists organize and control radiopharmaceuticals (radioactive substances) to identify and treat illness. They then position equipment over patients to make images. These images allow doctors to identify abnormal areas. This helps in diagnosing diseases.

Nuclear medicine technologists clarify these tests to the patients and manage radioactive doses by mouth or injection. They also make laboratory tests on tissue samples. They must follow severe safety regulations due to the dangers of radiation effects to their bodies and organs.

Their work is realized in specialized hospital departments, clinics, or laboratories. Level of work performed diverges depending upon level of training and education concluded.

Average Salary:

The annual salary for nuclear medicine technologists ranges from $110,900 to $200,000.

Note:

Today, nuclear medicine provides actions that are necessary in many medical specialties. New and modern nuclear medicine treatments that target and pinpoint molecular levels within the body are revolutionizing our understanding of and approach to a range of illnesses and conditions.