Upon completion of a Bachelor of Science in Radiologic Sciences, new technologists will find themselves capable of a host of different career paths and job types. From positions that involve large amounts of interaction with various constituent groups to positions that require focused technical expertise, nearly every type of individual could find a career path within the radiology field that would suit their particular preferences and strengths. The following are 10 possible career options for those who graduate from a radiology program.
Lead Radiologic Technologist
A radiologic technologist position requires a strong knowledge of available radiology equipment and how to operate it to achieve maximum quality imaging. Lead technologists would not only oversee use and maintenance of the equipment but would also facilitate training and, in some cases, recruit entry-level technologists when necessary.
Radiologic Equipment Sales Manager
Radiologic equipment sales managers might spend much more of their professional time interacting with potential and current clients than they might ever spend operating technical equipment. Sales managers would understand the nuances of radiologic technologies and stay well-informed regarding the latest advances and equipment offerings. They would spend time communicating with clients about their needs and how available products could help solve them. They might also spend large amounts of time traveling throughout a given territory, demonstrating their equipment in client practices or at trade shows, and attending to current clients’ needs and communications.
Imaging Center Director
To successfully direct an imaging center, one must not only have a working understanding of the equipment and science of radiology but must also possess a wide variety of business and interpersonal skills. This type of position suits a radiologic technologist who wishes to put their managerial skills to work. Those that would most enjoy a director position would excel in the scientific understanding of radiology but would also feel comfortable performing tasks including balancing budgets, recruiting employees, marketing their services, and developing relationships with fellow healthcare professionals and institutions.
For those with a bent towards teaching and developing future radiologic technologists, teaching radiology courses could provide the perfect intersection of a scientific curriculum and interpersonal development. Being an educator can incorporate classroom instruction, clinical education, one-on-one training, and curriculum and course development.
Mammography specialists belong to a prestigious subset of radiologic technologists. Federal legislation limits entry into this field based on academic performance, national certification, and certain experience requirements, ensuring that mammography technologists comprise individuals of the highest quality.
Radiation therapists provide instrumental care and expertise during many types of cancer treatment protocols. Radiation therapists must possess an acute understanding of not only radiological practices but of physics, anatomy, and safety and technological proficiency. Unlike more conventional applications of radiology, radiation therapy is often administered frequently over relatively long stretches of time, allowing more developed patient-technologist relationships to form.
Magnetic resonance technologists are specially trained to operate MRI equipment. Pursuing a specialization in MR technology allows a radiologic technologist to incorporate learning in other scientific fields into their work, including the use of magnetics and radio frequencies. MRI technologists get to work with the latest imaging technology, including 3D image formation and functional imaging.
Computed Tomography Technologist
Computed tomography technology makes use of innovative X-ray equipment and complex computer imaging. It provides physicians and healthcare professionals with insights that normal radiological equipment cannot. For example, CT can be utilized to see inside organs and to create 3D images of internal structures. Technologists who specialize in computed tomography often work closely with physicians to achieve optimal patient treatment and accurate diagnosis.
Nuclear Medicine Technologist
By treating patients with tiny amounts of radiopharmaceuticals and then using special camera equipment to detect their activity and location within the body, nuclear medicine technologists make it possible to gain valuable information about a patient’s internal elements and function including organs, tissue, and bones. Nuclear medicine technologists must maintain a high-level understanding of anatomical processes, nuclear sciences, and computer technology.
Radiologist assistantships provide a bridge position between registered radiographers and radiologists. By achieving the certifications necessary to be a radiology assistant, one can participate in the radiology process and provide support for radiologists in imaging environments. Radiologist assistants might perform a wider range of tasks including preliminary and post-imaging patient interaction, image curation and development, and initial image evaluation.
Completing a bachelor’s degree in radiologic sciences opens a wide array of career types. Some allow great variety in daily tasks, while some are much more focused. Some require near-constant patient interaction, while others necessitate very sparse interaction and much more equipment manipulation in research-oriented environments. Some require business aptitudes or skill sets that include other branches of science. Radiologic sciences welcome a variety of individuals with vastly different interests and strengths into a spectrum of satisfying and stimulating career paths.