The American Registry of Radiologic Technologist (ARRT)
The American Registry of Radiologic Technologists (ARRT) is the world’s largest credentialing organization that seeks to ensure high quality patient care in medical imaging, interventional procedures, and radiation therapy. The ARRT certifies and registers technologists through administration of education, ethics and examination requirements.
The Registry was incorporated in 1936 as the American Registry of X-Ray Technicians. Its board was appointed by the Radiological Society of North America and the American Society of X-Ray Technicians. The Registry expanded its program of examination and certification by adding exams in nuclear medicine technology and radiation therapy. The ARRT
The conversation around the rising costs of health care continues to be a high priority topic of discussion from consumer all the way up to the government. There are many products and services that contribute to the rising costs, as well as some responsibility left to practicing providers who choose to use high dollar radiology services for patient care. Ionizing radiation has been used for more than a century, however, this evolution or radiology services into widespread diagnostic and therapeutic uses has resulted in a significant increase in the population’s overall exposure to radiation with the potential to increase the risk of cancer (Amis & Butler, 2010). Examples of high dollar radiology services are services like Magnetic Resonance Imaging (MRI), Computer Tomography (CT) scans, and Echocardiograms. These services allow physicians t...
The role of the radiologist is one that has undergone numerous changes over the years and continues to evolve a rapid pace. Radiologists specialize in the diagnoses of disease through obtaining and interpreting medical images. There are a number of different devices and procedures at the disposal of a radiologist to aid him or her in these diagnoses’. Some images are obtained by using x-ray or other radioactive substances, others through the use of sound waves and the body’s natural magnetism. Another sector of radiology focuses on the treatment of certain diseases using radiation (RSNA). Due to vast clinical work and correlated studies, the radiologist may additionally sub-specialize in various areas. Some of these sub-specialties include breast imaging, cardiovascular, Computed Tomography (CT), diagnostic radiology, emergency, gastrointestinal, genitourinary, Magnetic Resonance Imaging (MRI), musculoskeletal, neuroradiology, nuclear medicine, pediatric radiology, radiobiology, and Ultrasound (Schenter). After spending a vast amount of time on research and going to internship at the hospital, I have come to realize that my passion in science has greatly intensified. Furthermore, both experiences helped to shape up my future goals more prominently than before, which is coupled with the fact that I have now established a profound interest in radiology, or rather nuclear medicine.
Since the beginning of the propitious world, the core aspect that keeps it thriving is the propensity for people to discover innovations; however, progress of the past is, systematically, detrimental to the future. Not long after the revolutionary invention of the X-ray in the late 19th Century, an unprecedented number of medical examiners noticed (unknown to the time) radiation burns all over their body; decades later, an extraordinary surge in cancer cases had arisen. Perhaps, during the course of these years, scientists and researchers desired to further progress the x-ray (into the immense subsidiaries that are here today), and disregarded any flaws in the apparatus. This systematic inclination continues into the present time as Gary Marshall and Shane Keene notes in their 2007 article, “New technologies allow for patients to be overexposed routinely, and also allow for repeats to be taken quickly, making it easier for a technologist to multiply the patients dose without considering the implications” (5). The gaffes of radiology are present not only in the diagnostic setting, but also in the surgical and therapeutic areas. Working with radiation, it is imperative that the staff is aware of mistakes that are potentially fatal not only for patients, but themselves. It is especially important for medical radiologists to be cognizant of pediatric patients. The standard practice of pediatric radiology in the United States is to follow the step-by step formula from which adult patients are treated and diagnosed. There are copious consequences for following this technique since a child naturally has less body mass and a weaker immune and lymphatic system to manage radiation and its adverse effects. Medical radiology, being a...
A question I have been asked more often than not, “What would you rather be if not a doctor?” Well, my journey as a doctor has seen a share of crests and troughs, but I will not have it any other way. I am a book lover, and every good read is time saved; I have trekked mountains, and every step brought forth a sense of achievement; I have been recognized for my English debating skills many a time. Every cup held was precious, but none of it so fulfilling and rewarding as another human being trusting you with his breath. This texture of human relationships is unique to this profession, and is probably what makes it sublime to the eyes of a common man.
In my department Interventional Radiology (IR), nursing staff administers moderate sedation to patient who are undergoing minimally invasive procedures. Interventional Radiology (IR) follows the anesthesia guidelines for administering moderate sedation. The guidelines do not limit the amount of medications that are administered, if the drugs are being ordered by a supervising physician. Most, patients receive doses of fentanyl up to 100 mcg, starting with 25mcg to 50 mcg to start, and versed up to 2 mg starting with 0.25 mg to 50 mg. We have a physician new to our department who ordered higher doses of medications than what our staff is comfortable with as starting doses of the medications. This physician was routinely ordering oral agents pre-procedure and he would order Benadryl be
Hello everyone my name is Monica Young I am 19 years old last year I graduated from Stanhope Elmore High School I currently live in Prattville AL with my grandparents, my mom, and little brother I currently work at a daycare because one of my dreams was to become a teacher but after working there it is not going to happen So my next dream is to become a radiologist but that will take time so I need to become a radiology technician first
Attending Florida Southwestern State College to become an x-ray tech is a huge accomplish for me. Because I have a learning disability unfortunately I have to take remedial courses like intermediate algebra, Brush up English, and a reading course the first semester. The good thing about studying Radiology is you can switch to any type of jobs in this field. For an example, you can switch to working with MRI’s or Cat Scans if you want to try another department in the Radiology field. This specific field is for you to work with x-rays. It’s important to know the bone structure .You can work with ultrasounds to, Cat Scans, to MRI’s (Magnetic resonance imaging).
Computed tomography (CT) and Radionuclide imaging (RNI) are both a form of diagnostic imaging. Since they have been first introduced in medical imaging they both suffered a huge development over the years in terms of image acquisition and also patient radiation protection. The following essay it is going to focus on just a few important things that make CT and RNI similar and different in the same time. However this subject can be discussed in much depth, the focus is going to be on the similarities and differences of the physics imaging methods and also a small awareness of biological effects and radiation protection.
The Atomic Energy of Canada Limited (AECL) created the Therac-25 radiation therapy machine (Death and Denial). The major innovation of this machine is that it was much more computer-controlled than the previous machines of its kind. This enabled technicians to spend less time setting up the machine and more time working directly with patients. The reduced setup time also increased the number of patients that were able to be treated in one day (ComputingCases). Patients undergoing treatment from the Therac-25 are in communication with the machine operator (located in a separate room) through AV monitors (Death and Denial).
...to establish the tolerance level for radium. The center for Human Radiobiology was established in 1968 with the primary purpose of examining living dial painters.
The job requires a person to be active, flexible, and able to handle the work environment, outgoing, and helpful (Santa Fe College). If being a former athlete came easy to an individual, this career would also, because they require the same needs. Radiologic Technologists mainly work midnight shift working seven p.m. to seven a.m. on Friday through Sunday, and to make up forty hours they sometimes work a six hour shift on Thursday (Farmer, Belinda). Students that look forward to the thought of a family with kids, this would be perfect because they could attend school activities, sports, and any other extra-curricular activities. Radiologic Technologist us high-tech, expensive equipment and are an important part of a large medical team (The Society of Radiographers). Technology is interesting when it comes to helping someone, and helping someone makes it even better. Radiologic Technologists place and process x-ray film and position shields to protect patients from radiation (All Allied Health Schools). The slow, step-by-step processes is to assure safety of the image. The new Novel Imaging technique that blends aspects of magnetic resonance imaging with gamma ray imaging is supposed to be easier to obtain
Radiation therapists work closely with patients to fight cancer. According to Health Care Careers, Oncologists, Dosimetrists and nurses are some of the professionals that a radiation therapist works with while caring for a cancer patient. This group of professionals will determine a specialized treatment plan. The first step usually includes a CT scan performed by a radiologist to find the exact area that needs to be targeted with x-rays. Next, the therapist uses a special machine that emits radiation called a Linear Accelerator. They use this machine during a treatment called external beam therapy. During this process, the Linear Accelerator will project x-rays at targeted cancer cells or tumors. Another therapist will be in a different room monitoring the patient’s viral signs until the procedure is over. The external therapy l...
Modern medicine is capable of treating a tremendous range of human disease and injuries, but the usefulness of all medical specialties depends on accurate diagnosis. Virtually every conceivable medical specialty relies on radiological technologies to provide formal diagnoses, making radiology one of the most important of all medical specialties. Radiologists enjoy some of the best working conditions in modern medicine and typically experience very positive employment conditions. Consequently, their services are generally in very high demand, with many starting out with six-figure annual incomes immediately after completion of their professional training.
Radiology technology is a science of using radiation to produce images. There are many jobs you can perform in diagnostic imaging usually a radiologic technologist will oft...
I was under the assumption that Radiology was primarily X-ray. I couldn’t be more wrong! The RT 100 course, does an outstanding job helping students understand all that is involved within the department. Exploring modalities, equipment, expectations, and organizations, gave us, the students, plenty to contemplate. Material presented, gave me a firm foundation on what I will need to consider, assuming this will be the field of science I choose to pursue. I also feel that if I continue, there will be no surprises on what is expected of me because practically every detail is discussed within the