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Career and Education Opportunities for Nuclear Medical Technologists in Cary, North Carolina

There are many career and education opportunities for nuclear medical technologists in the Cary, North Carolina area. Currently, 620 people work as nuclear medical technologists in North Carolina. This is expected to grow by 20% to about 740 people by 2016. This is better than the nation as a whole, where employment opportunities for nuclear medical technologists are expected to grow by about 16.3%. In general, nuclear medical technologists prepare, administer, and measure radioactive isotopes in therapeutic, diagnostic, and tracer studies utilizing a variety of radioisotope equipment.

Nuclear medical technologists earn about $29 hourly or $61,620 annually on average in North Carolina and about $32 hourly or $66,660 yearly on average nationally. Compared with people working in the overall category of Radiology, people working as nuclear medical technologists in North Carolina earn less. They earn less than people working in the overall category of Radiology nationally. People working as nuclear medical technologists can fill a number of jobs, such as: certified nuclear medicine technologist , radiological technologist, and medical radiation dosimetrist.

There are three schools within twenty-five miles of Cary where you can study to be a nuclear medical technologist, among twenty-seven schools of higher education total in the Cary area. Nuclear medical technologists usually hold an Associate's, or other 2-year degree, so you can expect to spend about two years studying to be a nuclear medical technologist if you already have a high school diploma.

CAREER DESCRIPTION: Nuclear Medical Technologist

Nuclear Medical Technologist video from the State of New Jersey Dept. of Labor and Workforce Development

In general, nuclear medical technologists prepare, administer, and measure radioactive isotopes in therapeutic, diagnostic, and tracer studies utilizing a variety of radioisotope equipment. They also prepare stock solutions of radioactive materials and calculate doses to be administered by radiologists.

Nuclear medical technologists dispose of radioactive materials and store radiopharmaceuticals, following radiation safety procedures. They also explain test procedures and safety precautions to patients and furnish them with assistance during test procedures. Equally important, nuclear medical technologists have to perform quality control checks on laboratory apparatus and cameras. They are often called upon to maintain and calibrate radioisotope and laboratory apparatus. They are expected to produce computer-generated or film images for interpretation by physicians. Finally, nuclear medical technologists gather data on patients' illnesses and medical history to guide the choice of diagnostic processes for therapy.

Every day, nuclear medical technologists are expected to be able to listen to and understand others in meetings. They need to articulate ideas and problems.

It is important for nuclear medical technologists to measure glandular activity, blood volume, red cell survival, and radioactivity of patient, using scanners, Geiger counters, scintillometers, and other laboratory apparatus. They are often called upon to train and supervise student or subordinate nuclear medicine technologists. They also detect and map radiopharmaceuticals in patients' bodies, using cameras to produce photographic or computer images. They are sometimes expected to design treatment processes for nuclear medicine treatment programs. Somewhat less frequently, nuclear medical technologists are also expected to add radioactive substances to biological specimens.

Nuclear medical technologists sometimes are asked to gather data on patients' illnesses and medical history to guide the choice of diagnostic processes for therapy. They also have to be able to record and process results of procedures and calculate, measure and record radiation dosages or radiopharmaceuticals received, used and disposed, using computers and following physicians' prescriptions. And finally, they sometimes have to calculate, measure and record radiation dosages or radiopharmaceuticals received, used and disposed, using computers and following physicians' prescriptions.

Like many other jobs, nuclear medical technologists must be reliable and believe in cooperation and coordination.

Similar jobs with educational opportunities in Cary include:

  • Cardiac Technician. Conduct tests on pulmonary or cardiovascular systems of patients for diagnostic purposes. May conduct or assist in electrocardiograms, cardiac catheterizations, pulmonary-functions, lung capacity, and similar tests.
  • Dental Hygienist. Clean teeth and examine oral areas, head, and neck for signs of oral disease. May educate patients on oral hygiene, take and develop X-rays, or apply fluoride or sealants.
  • Medical Laboratory Technician. Perform routine medical laboratory tests for the diagnosis, treatment, and prevention of disease. May work under the supervision of a medical technologist.
  • Pharmacist. Compound and dispense medications following prescriptions issued by physicians, dentists, or other authorized medical practitioners.
  • Radiation Therapist. Provide radiation therapy to patients as prescribed by a radiologist according to established practices and standards. Duties may include reviewing prescription and diagnosis; acting as liaison with physician and supportive care personnel; preparing equipment, such as immobilization, treatment, and protection devices; and maintaining records, reports, and files. May assist in dosimetry procedures and tumor localization.
  • Radiological Technician. Maintain and use equipment and supplies necessary to demonstrate portions of the human body on x-ray film or fluoroscopic screen for diagnostic purposes.
  • Radiology Technologist. Take x-rays and Computerized Axial Tomography (CAT or CT) scans or administer nonradioactive materials into patient's blood stream for diagnostic purposes. Includes technologists who specialize in other modalities, such as computed tomography, ultrasound, and magnetic resonance.

EDUCATIONAL OPPORTUNITIES: Nuclear Medical Technologist Training

University of North Carolina at Chapel Hill - Chapel Hill, NC

University of North Carolina at Chapel Hill, 103 South Bldg Cb 9100, Chapel Hill, NC 27599. University of North Carolina at Chapel Hill is a large university located in Chapel Hill, North Carolina. It is a public school with primarily 4-year or above programs. It has 28,567 students and an admission rate of 35%. University of North Carolina at Chapel Hill has a one to two year program in Nuclear Medical Technology/Technologist.

Duke University - Durham, NC

Duke University, 103 Allen Bldg, Durham, NC 27708. Duke University is a large university located in Durham, North Carolina. It is a private not-for-profit school with primarily 4-year or above programs. It has 13,871 students and an admission rate of 23%. Duke University has a master's degree program in Radiation Protection/Health Physics Technician which graduated fifteen students in 2008.

Johnston Community College - Smithfield, NC

Johnston Community College, 245 College Road, Smithfield, NC 27577-2350. Johnston Community College is a small college located in Smithfield, North Carolina. It is a public school with primarily 2-year programs and has 4,128 students. Johnston Community College has a one to two year program in Nuclear Medical Technology/Technologist which graduated seven students in 2008.

CERTIFICATIONS

Biomedical Electronics Technician: Biomedical electronics technicians are expected to obtain knowledge of the principles of modern biomedical techniques, the proper procedure in the care, handling and maintenance of biomedical equipment and to display an attitude/behavior expected of an electronics technician who works in a hospital or healthcare environment.

For more information, see the ETA International website.

Nuclear Cardiology Technologist: Professional certification is a vital component of a successful career.

For more information, see the Nuclear Medicine Technology Certification Board website.

LOCATION INFORMATION: Cary, North Carolina

Cary, North Carolina
Cary, North Carolina photo by Erich_Fabricius

Cary is situated in Wake County, North Carolina. It has a population of over 129,545, which has grown by 37.0% in the past ten years. The cost of living index in Cary, 86, is well below the national average. New single-family homes in Cary are priced at $204,400 on average, which is well above the state average. In 2008, 1,313 new homes were built in Cary, down from 2,326 the previous year.

The three big industries for women in Cary are professional, scientific, and technical services, educational services, and health care. For men, it is professional, scientific, and technical services, computer and electronic products, and construction. The average commute to work is about 23 minutes. More than 60.7% of Cary residents have a bachelor's degree, which is higher than the state average. The percentage of residents with a graduate degree, 23.0%, is higher than the state average.

The unemployment rate in Cary is 6.2%, which is less than North Carolina's average of 10.6%.

The percentage of Cary residents that are affiliated with a religious congregation, 43.8%, is less than both the national and state average. The largest religious groups are the Southern Baptist Convention, the Catholic Church and the United Methodist Church.

Cary is home to Hemlock Bluffs State Natural Area and Regency Park. Visitors to Cary can choose from Hampton Inn Cary, Embassy Suites Hotel Raleigh-Durham and Hampton Inn & Suites for temporary stays in the area.