PET/MRI Technology Analysis

Radiologic technology is a satisfying and rewarding career. It is a technical and refined science. As a radiological technologist, there are many essential duties and responsibilities that have to be fulfilled in order to be a good one. First of all, radiological technologists have to maintain a well-mannered and professional behavior when gathering information. They have to assure their patients that they are in good hands therefore; they give patients the uppermost quality of care and services. Second of all, the main responsibility of a healthcare provider is to keep all knowledge of a patient’s health record confidential or secluded. That means radiological technologists cannot talk about patients at home or with friends and classmates

Medical imaging is used to create visual images of the interior part of the body so that it would be easier to examine, diagnose & treat patients without the need of surgical processes. This process is used to see what is beneath the skins and bones to find any abnormalities present.

According to the American Society of Radiologic Technologists, "Radiologic technologist are the medical personnel who perform diagnostic imaging examinations and administer radiation therapy treatments" ("Who"). They are also known as "RTs". They play a big part in patient care today in many ways. It has been stated that, "Radiologic imaging plays a major role in patient care by providing early and accurate diagnosis of disease, improved treatment planning, and image-guided therapies that help save lives every day" ("Radiation"). They are very important in today's society. This specific career requires a vast amount of educational background. These include: anatomy, patient positioning, examination techniques, equipment protocols, radiation safety, radiation protection and basic patient care ("Who"). There are also other specific requirements to become a registered radiologic technologist. One must complete two years of formal education in an accredited hospital-based program or a two- or four-year educational program and pass a national certification examination" ("Who). A benefit of being a radiologic technologist is the many specialty programs associated with the job. According to the article, "Who Are Radiologic Technologist?", some of the specialty programs include: bone densitometry,cardiovascular-interventional radiography, computed tomography, mammography, magnetic resonance imaging,

During my observation it was made clear that patient care is the top priority of radiographers. Taking readable and excellent images is important, but the safety and care of the patient comes first. Radiographers were always considerate, helpful, and friendly to their patients. After patient care, the next priority is providing the radiologist or other doctors with excellent and most importantly readable images. I was able to observe many procedures,

I have always desired a career that would allow me to improve the lives of those around me while caring for a family of my own. I desire to feel successful through continual learning and challenge. Radiologic Technology will provide me this with ever changing tasks with different circumstances and challenges that require problem solving, critical thinking, and determination. Radiologic Technology will allow me to have interaction on a personal level with patients and their families and provide the opportunity to improve their lives by searching for the things that don’t appear on the

Healthcare has evolved tremendously over the last few decades. Technology, being one of the biggest impacts has reached new heights and has advanced our learning and knowledge to places unimaginable. Many different modalities take place in the health field to ensure the greatest treatment for everyone with improving outcomes. Three modalities that have enhanced and have taken special roles in 3-D imaging include, CT scans, MRI, and Ultrasound; each with their own advantages and disadvantages. These modalities all require training, are cost effective, and take a specific amount of time to obtain all the necessary information. These same modalities have different traits regarding the use of radiation, contrast, evidence

If you have thought about becoming a Radiologic Technologist, someone who performs imaging examinations, but do not know if it is the right choice for you. This paper will inform the reader as to how to become a Radiologic Technologist, their job description, ranging from the work settings to the kind of patients they deal with, some of the challenges and rewards, including their salary as well. At the end of this paper you should be able to make up your mind on becoming one or not.

Radiology is a medical specialty that uses different imagaing technologies to diagnose and to treat many different diseases and injuries that are inside the human body. Being a professional in the health care environment today is a very important job. The American Registry of Radiologic Technologist (ARRT) created a mandatory continuing education (CE) exam for all radiologic technologist. The ARRT defines the continuing education requirements as "planned, organized and administered to enhance the knowledge and skills underlying the professional performance that the technologist uses to provide services to patients, the public or the medical profession. To qualify as a CE activity, it must provide sufficient depth and scope of a subject area."

It is recommended for the hospital to invest in latest medical imaging technology equipment such as the digital radiography (DR) to be able to perform the appropriate test needed, improve image quality, and for faster processing of the results. Using the latest digital technology will give the ordering physicians that ability to see an immediate view of the image at the bedside, order any other test as needed, and begin the treatment in a much more efficient manner (MD Buyline, 2017).

Patient Care is a very broad and widely talked about topic in the health care field. There are things concerning today 's medical imaging technologists, mainly the radiographic technologist that will be touched upon throughout this

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.

History of Present Illness: Ms. Dall is a very pleasant woman who has a very extensive smoking history. She has obtained an initial CT scan, which showed a right upper lobe pulmonary nodule. She has subsequent PET scan and she is here today for followup of those results as well as pulmonary function testing. She continues to smoke about a pack a day and is not willing to quit at this point.

Because the doses of radiotracer administered are small, diagnostic nuclear medicine procedures result in relatively low radiation exposure to the patient, acceptable for diagnostic exams. Thus, the radiation risk is very low compared with the potential

A PET scan does not only look at the size and shape of the brain, is also looks at and assesses the function. Meaning it tells you how the brain is working. There is little doubt that as we age structural changes happen in our brain. A way to test for this is to use neuroimaging techniques while performing certain tasks (i.e. recall or reading of names, etc. to test memory).

The study of positron emission tomography (PET) and single photon emission computed tomography (SPECT) scanning effectiveness in supporting better public health outcomes has been proven with the accuracy these devices provide in diagnosing illnesses and potentially sever medial conditions. The costs of a PET scanning system can easily surpass $1M in system costs alone however (Wagner, 1988). SPECT systems are equally expensive which make both of these systems' availability limited to only the most prosperous and wealthy areas of the world (Lejeune, Zahouri, Woronoff-lemsi,, et.al., 2005). One study indicated that over 95% of scans from these systems are entirely paid for by insurance programs that have specific preconditions defined for patients as the average cost can easily exceed $20,000 per full scan (Lejeune, Zahouri, Woronoff-lemsi,, et.al., 2005). The intent of this analysis is to evaluate the effectiveness of PET and SPECT scans in supporting better health outcomes, in addition to analyzing the benefits of these technologies to who has access to their tests. There is also an analysis of the diseases these technologies are most adept at diagnosing.