Radiologic technology has always been an essential aspect of the healthcare field, helping medical professionals obtain detailed images of the interior body structure of patients.
In light of the significant advancements in medical technology, let’s consider the pathway to becoming a radiologic technician, the potential influence of artificial intelligence (AI), and the future job outlook for radiologic technicians.
Your career as a radiologic technician involves crucial steps in training, education, and professional development.
Here’s how you can get started:
- Acquire an associate degree in radiologic technology: A career as a radiologic technician requires an associate degree in radiologic technology. Programs such as the radiologic technology program offered at Cambridge blends classroom education with clinical training, providing a comprehensive knowledge base and hands-on experience. Topics in our program cover anatomy, radiation protection, medical imaging, patient care, and image evaluation.
- Obtaining licensure and certification: The journey doesn’t stop at obtaining a degree. Most states require licensure or certification for practice. Getting certified through the American Registry of Radiologic Technologists (ARRT) can enhance professionalism and employability.
- Continuous learning and maintenance of certification: Continuous learning and regular certification renewals ensure that radiologic technologists keep pace with evolving medical advancements. It also reinforces dedication to maintaining the highest standards of patient care in radiologic technology.
One of the benefits of choosing a career as a radiologic technologist is the multiple opportunities for growth and specialization.
Acquiring additional certifications and expertise in specific imaging modalities can help you enhance your professional skills, increase employability, and explore various avenues within the radiologic technology landscape.
Here are radiologic specializations you might consider:
AI has undeniably made inroads into various facets of healthcare, including radiology. Machine learning algorithms can help in analyzing large image data sets, detecting nuances, and making predictions. Yet, AI is an analytical tool designed to assist rather than replace human professionals.
While AI can speed up the analysis of medical images, human radiologic technicians are pivotal in various aspects of patient care. Their expertise in accurately positioning the patient, selecting appropriate imaging parameters, ensuring radiation safety, and engaging empathetically with patients are irreplaceable skills.
So, while AI will undoubtedly play a role in future radiology practices, it’s more likely to enhance the radiologic technician’s role than replace it.
According to a report by the Bureau of Labor Statistics, the employment growth rate for radiologic technologists is projected to grow by 6.3% from 2021 to 2031. This rate represents 16,600 job openings annually for radiologic and MRI technologists.
As technology improves and healthcare facilities expand, the demand for qualified radiologic technologists is likely to remain high. Therefore, despite the advent of AI and other technological advancements, the human touch that radiologic technologists bring to patient care solidifies their role in the healthcare services landscape.
Ready to take the leap and start your fruitful career as a radiologic technologist? Join the radiologic technologist program at Cambridge College of Healthcare & Technology.
Our radiologic technologist associate degree offers extensive training encompassing both theoretical knowledge and technical skills necessary for an exciting career in radiologic technology.
Visit our program page today for more information and begin your journey to becoming a part of the future of healthcare.