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I chose this topic because I a found it as a very interesting thing which I wanted to know more about. I have been CT-scanned when I had concussion after a car accident when I was seven. Also because my father has been under a CT-scanner and a lot of my friends.
Anatomists, morphologists and biologists have tried to understand the way living creatures are living, and what they look like inside. Dr. Frourie in 1974 painfully cut organisms into thin slices, to study their internal arrangement to better understand them. Today, these people use CT scanners instead. It is a lot easier, less bloody, takes shorter time and the sample is not affected or destroyed during the procedure- the advantages are numerous. This technique enables us to visualize the inside of us humans, organisms or other objects in 3-D geometry.
CTscans stands for “Computed Tomography”. It is a way of looking inside your body using a special camera. It is an advanced scanning x-ray and computer system that makes detailed pictures of horizontal cross-sections of the body, or the part of the body that is x-rayed. A CT scan is a diagnostic test that combines the use of x-ray with computer technology. A series of x-beams from many different angles are used to get these cross-sectional images of the patient’s body. In a computer, these pictures are assembled into a 3-dimentianal picture that can display organs, tissues, bones, and any such thing. It can even show ducts, blood vessels and tumors. One of the advantages of CT is that it clearly shows soft tissue structures (such as brain), as well as dense tissue structure (such as bone). The pictures of a Ctscanner are a lot more detailed than the pictures of a regular X-ray machine. It can make pictures of areas protected or surrounded by bones, which a regular X-ray machine can not. Because of this, a CT scanner is said to be 100 times as affective and clever as an ordinary X-ray, and can therefore diagnose some diseases a lot earlier and quicker. It is recent technology that has made it possible to accurately scan objects into a computer in three dimensions, even though the machines and ideas were developed in the 1970s. In the 70s doctors started to use this new type of machine that could give detailed pictures of organs that the older type of x-ray, machine could not give.
What needs to be assessed is how these full body scans are produced. It is produced through radiation through computed tomography. And, is the amount of radiation that a patient is receiving necessary. Radiation exposure is harmful. According to the FDA website
In the radiology profession first you must write the patient’s file. This includes information about insurance, medical history, what the required x-ray is for and where it is going to be taken on the body. Writing in this way is similar to writing a small research paper. You must do research on the patients and there history and what insurance they have. Writing the report is important because the information must be accurate so the patient can be helped as much as possible. If the information about medical history is incorrect it can cause a huge problem for the patient. For example, if the patient is claustrophobic they would need to get an open room x-ray where the patient isn’t in an enclosed tube so they don’t have a panic attack and potentially injure themselves and others. It is very important to make sure the report has the correct area of where the x-ray needs to be taken. Having the wrong part of the body x-...
Recently, new advances have been made in PET technology. A pair of American scientists working in Switzerland came up with a combination PET/CT scanner, which effectively pairs the two techniques. This new combination will be very useful in cancer diagnosis. With the PET/CT, both anatomical and functional imaging can be done and reproduced on the same image. This will be helpful in pinpointing the location of tumors, and also for the early identification of tumors too small to be of concern in CT scanning.
The earliest human dissections date back to ancient Egypt and Greece where records of Anatomy were hand drawn and physiology was largely theorized. I find it fascinating that modern imaging technology allows us to view the body’s organs to see their functions and diagnose possible conditions or diseases. I first developed an interest in the field of Medical Sonography during my pregnancy with my first child. When I laid eyes upon the images of the growing little person inside of me, I knew I wanted to share in the joys of others as they experienced this as well (realizing this may not always be the case for others). Now returning to college, I have set my academic goals on the path towards this career. It wasn’t until I completed the Anatomy
by the internal computers of the instrument, to create an image of internal body tissues. These images were then displayed on the screen for the user,
Driver, (2013), described the DEXA scanner as a machine that produces two x-ray beams of high and low energy levels. Much like fluoroscopy, the x-ray from the DEXA scanner comes from underneath the patient, and the scanner has a very low x-ray dose. Earlier versions of the DEXA scanner emitted radiation which required up to five minutes to scan an area of interest, but the more advanced machines can take as ...
One of the most recently new advances in radiology is the use of magnetic resonance imaging (MRI). MRI has been around for the past century. It was at first called Nuclear Magnetic Resonance (NMR) and then it changed to MRI once there was an available image. Walter Gerlach and Otto Stern were the first scientists to start experimenting with the magnetic imaging. Their very first experiment was looking at the magnetic moments of silver by using some type of x-ray beam. The scientists then discovered this was by realizing that the magnetic force in the equipment and in the object itself. In 1975, the first image was finally created using and MRI machine. The scientists used a Fourier Transformation machine to reconstruct images into 2D. The first images ever use diagnostically was in 1980. This is when hospitals began to use them. At first the images took hours to develop and were only used on the patients that needed it most. Even though MRI has been around for a long time, it has advanced and has been one of the best imaging modalities recently (Geva, 2006).
To begin with, how has technology changed the field of radiology? Since the discovery of X-radiation there has been a need and desire for studying the human body and the diseases without actually any intervention. Over the past fifty years there has been a revolution in the field of radiology affecting medicine profoundly. “The ability to produce computers powerful enough to reconstruct accurate body images, yet small enough to fit comfortably in the radiology department, has been the major key to this progress”(Gerson 66). The core of radiology’s vast development consists of four diagnostic techniques: computed tomography (CT), digital subtraction angiography (DSA), ultrasonography, and magnetic resonance imaging (MRI). These methods of diagnostic imaging provide accurate information that was not seen before. Amid this information advancement, radiologists have broadened their role of diagnostician. Gerson writes, “With the advent of computer-enhanced imagery and new interventional techniques, these physicians are able to take an active part in performing therapeutic procedures”(66). A radiology breakthrough in 1972 was computed tomography discovered by Godfrey Hounsfield and Allan Cormack. Unlike standard radiography, computed tomography would spin the X-ray tube 360 degrees and inversely another 360 degrees while the patient ta...
Radiographers provide essential services to millions of people. They deal with patients of all types and ages, from the very young to the elderly, as well as patients with special needs, such as visual or hearing impairments. Diagnostic radiographers produce high-quality images of organs limbs and other body parts to allow a wide range of diseases to be diagnosed. According to (The College of Radiographers -Registered Charity No 272505) May 2008. As a diagnostic radiographer, I am not confined to work in the x-ray department. I will x-ray patients in the accident and emergency department, on the wards, in the intensive care unit and in the operating theatre when patients are too ill to visit the x-ray department. Diagnostic radiographers work as part of a team and may work alone, outside normal working hours to provide x-ray services 24 hours a day. Wide ranges of imaging methods are used. These include ultrasound, MRI and CT scanning. Ranges of dyes or contrast agents are sometimes used to show soft tissue organs that would not appear on standard x-ray examinations e.g. arteries, the bowel and kidneys. (Medical Physics page 159-188)
I am a patient and caring person who enjoy helping people. My ambition to become a Diagnostic Imaging technologist developed when I was working at Queen Elizabeth University Hospital in Glasgow. During this time, I worked as a temporary support worker who helped patients to attend their scheduled medical examinations at the Imaging Department.
Some of the equipment that comprises the system of vitropsy are on the cutting edge of technology. This includes a robot-guided surface scanning for 3D records of the surface of the body in terms of scale and color. This is in addition to the visual examination done by...
Cherif, A. H., Jedlicka, D., Al-Arabi, A., Aron, R., & Verma, S. (2010). Effective Understanding of the Human Body Organs: A Role-Playing Activity for Deep Learning. American Biology Teacher, 72(7), 447-450. doi:10.1525/abt.2010.72.7.11. Retrieved from Academic Search Premier database.
Images of human anatomy have been around for more than 500 years now. From the sketches created by Leonardo da Vinci, to the modern day Computed Tomography (CT) or Magnetic Resonance Imaging (MRI) scan, images have played a great role in medicine. Evolution in medical imaging brought together people from various disciplines such as Biology, Physics, Chemistry and Mathematics, a collaboration which has further contributed to healthcare as a whole. Modern day imaging improves medical workflows by facilitating a non-invasive insight into human body, accurate and timely diagnostics, and persistence of an analysis.
Computers are also used to analyze images taken before surgery. Dr. Ninian Peckitt uses software to analyze a CAT scan images in order to understand his patient’s skull. The program in the computer actually directions for making full size replicas of patients heads.
...ll human organs and the systems that they belong to. "This would be the most revolutionary type of alternative, especially for human related experiments"().