Nuclear medicine is a type of medical imaging that uses radioactive isotopes to diagnose diseases. It combines knowledge from chemistry, physics, mathematics, computer technology and medicine. A nuclear technologist administers a small amount of radioactive material to a patient, then tracks the course of the radioactivity with equipment such as a gamma camera or probe. Since radioactive particles can move freely inside the body, nuclear imaging provides information about both the structure and function of major organ systems.
Demand for health care has never been greater. As the Baby Boom generation nears retirement, the health care industry finds itself facing personnel shortages in almost every area, including the rapidly emerging field of nuclear medicine technology.
Robert Morris University offers the only four-year nuclear medicine program in the Pittsburgh area. Traditionally, nuclear medicine technologists have earned associate degrees. But today's technology is more complex, and many institutions are looking to hire graduates with the depth of experience and knowledge that can only come from bachelor's-level education.
RMU's B.S. in Nuclear Medicine Technology degree program, developed in keeping with the Institute of Medicine's vision for the future of health care, emphasizes digital technology and new imaging modalities. The program is organized in imaging studies tracks that provide specific instruction in areas such as nuclear medicine technology, computed tomography (CT) and magnetic resonance imaging (MRI). Students complete all coursework and clinical requirements necessary to sit for the Nuclear Medicine Technology Certification Board (NMTCB) or American Registry of Radiological Technologists (ARRT) certification exam.
In 2015, 91% of the NMED students successfully passed the Nuclear Medicine Technology Certification Board (NMTCB) as first time examinees. Two months pre-graduation, 100% of the Class of 2015 successfully passed the NMTCB boards.
Students also have the option of advancing their careers by pursuing additional certifications in imaging technologies such as MRI, CT and positron emission tomography (PET). The program includes coursework needed for these certifications, and faculty members will work with interested students to help them fulfill additional clinical requirements.
This program was developed around RMU's vision of high-quality health care provided by teams of professionals who are trained to work together. Nuclear medicine students take courses in team building and teamwork, health economics, health law and ethics, and health policy alongside students in RMU's nursing and health administration degree programs.
Upon completing the B.S. in Nuclear Medicine Technology program, students will have:
- Strong fundamentals in basic science relevant to nuclear medicine technology, including chemistry, physics, anatomy, pharmacology, psychology and biology;
- Multidisciplinary skills that use rapidly evolving instrumentation in nuclear medicine, CT, MRI and PET.
- An empathetic and instructional approach to patient care;
- Intra- and extra-disciplinary skills in teamwork that emphasize collaboration;
- The ability to prepare, safely handle, calibrate and administer radiopharmaceuticals and pharmaceuticals;
- The capability to demonstrate proper operation of imaging, laboratory and computer instrumentation and their quality control procedures to insure instrumentation credibility and reliability; and
- The skills necessary to utilize technologies to minimize radiation exposure to patients, the general public and health care personnel, consistent with the As Low as Reasonably Achievable (ALARA) concept.
The B.S. in Nuclear Medicine Technology program requires 122 credits in three areas:
- Robert Morris University Core - 40 credits
These are the traditional liberal arts requirements of the University. Studies in humanities, communications skills, and social, behavioral, natural and quantitative sciences are included.
- Science Requirements - 25 credits
This component includes classroom and laboratory work in anatomy, physiology, biology, physics and statistics.
- Nuclear Medicine Technology - 57 credits
This component includes courses in radiation physics, radiation safety, nuclear medicine technology and techniques, health care administration, quality control, radiopharmacy and instrumentation as well as clinical practicum courses.
According to a recent survey by the Society of Nuclear Medicine (www.snm.org
), the national average salary for full-time nuclear medicine technologists is $70,470. The average in the Mid-Atlantic states is $71,260.
Employment prospects for nuclear medicine technologists are excellent. The U.S. Department of Labor projects faster than average growth in this sector through 2014 as the population ages and technology continues to evolve. Western Pennsylvania is home to nearly 75 hospitals, and since RMU is the first and only school in the region offering a four-year degree in this field, the University's graduates will hold a strong competitive advantage in the local job market.
Applicants must submit the following to the Office of Admissions:
- A completed application and a non-refundable $30 application fee. Or apply online for free at www.rmu.edu.
- Official transcripts from high school and any colleges or universities attended
- Minimum high school GPA of 3.00 on a 4.00 scale
- B or higher in biology and chemistry
- Minimum SAT score of 1080 (Verbal and Math combined) or ACT score of 22
- Two professional letters of reference
An interview may be requested by either the applicant or the Department of Nuclear Medicine but is not routinely required.
The following high school course work is recommended for admission to the program:
|Other Math||1 unit|
|Social Studies||3 units|
|Biology With Lab||1 unit|
|Other Science With Lab||1 unit|
Students who have completed at least 12 credits or one full term of study at another accredited post-secondary institution are considered to be transfer students. All transfer applications will be reviewed by the Department of Nuclear Medicine Technology.
To be considered for admission, transfer students must have a cumulative GPA of 2.75 or greater on a 4.0 scale. Applicants who have completed less than 30 college credits will be evaluated on their academic performance in high school as well as college. Courses with a clinical component taken at another school will not be accepted for transfer credit.