When I tell a person that I want to pursue a degree in Diagnostic Medical Ultrasound their first thought is babies. Which I don’t blame them because that is the part of ultrasound we are exposed most too. But ultrasound is so much more than just seeing an unborn baby. There are so many amazing things that ultrasounds can do. DMU is an imaging technique used to visualize the tissue structures/internal organs of the body by recording the returning reflections of ultrasonic waves with the purpose of pathology diagnosis. There are two names it goes by, ultrasound and sonography. These two terms are often used interchangeably. Ultrasound uses sound and acoustics to produce images that are then reflected back in real time.
Sonographer is the term
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Some of the things they do include observing, conceptualizing, comparing, evaluating, documents, and communication. There are many things a sonographer does, but also some things they cannot do. Some of the things they do not do are, give direct results to patients, inflict personal beliefs/morals, make recommendations for further testing, and make a tissue specific diagnosis. Sonographers must have many special qualities. They must have the scientific knowledge and skills to take sonograms accurately. They must work fast paced and also have empathy for their patients. A sonographer must always be willing to learn, have curiosity, perseverance, think on the spot, good physical health, self- direction, good communication skills, and must be dedicated. It also pays off to flexible, caring, creative, open-minded, honest, reliable, professional, and dedicated. When showing the physician the sonogram the sonographer should share the patient history, information relevant to exam, sonographers observations, and the sonographers …show more content…
So many that it can be hard to choose one specific profession. But ultrasound stands out from the rest. When I say to someone that I am going into the healthcare field they assume I want to be a nurse or pre-med. So it’s always great to see how shocked they are when I say Ultrasound. It is just not the normal response and it motivates me to be a part of something that isn’t as well known and make it well known. Also I want to be able help someone find a diagnosis. I want to be the key to helping give people answers. It also lets me be independent and make my own judgements. I will get to use my creativity and see something new everyday. Most importantly I’ll get to interact with my patients and work one on one with them giving them personal care. There are so many different options and sub-specialites that go with ultrasound that I would be able to continue to learn and expand my knowledge. One of the greatest things about Ultrasound is I would be able to obtain employment anywhere in the world. I would love to travel and see knew places and culture and ultrasound is a profession that will allow me to do that. Ultrasound will challenge me daily and help me improve myself so I can improve the care I give to others. Science/technology is know as being the mystery of life and for me to be able to use it daily to help people is amazing. Ultrasound comes with many good qualities, but there are always bad qualities. Accepting that
The process of becoming an ultrasound technician can be one that is intimidating. However, it doesn’t have to be. With the help of an organization called American Registry for Diagnostic Medical Sonography (ARDMS), those seeking to be a sonographer can achieve their goals. Although there are many steps to take, it can be done. This paper will help instruct individuals who wish to go through the sonography principles and instrumentation (SPI) examination (Sonography Principles & Instrumentation [SPI], (2015).
Diagnostic Medical Sonography is a career that falls within the medical and health field. Diagnostic medical sonographers utilize machinery known as sonographic scanners. These scanners create images of the patient's internal organs. There are a few other names that this specific career may be referred to as, which are Ultrasound Tech and/or Medical Imaging. Although though there are advancement possibilities, there are pros and cons about the career. The work environment may be difficult, and differential diagnosis is found within sonography. There is a lot of time and dedication needed as well as important information to know and understand about the career before deciding whether or not this is the chosen path that will be taken. I have decided that DMS is the career I want to be successful in because I have always had the interest of becoming a prenatal sonographer. I love working with people and I also wouldn’t mind being the person that could potentially save someone else’s life by
Being able to identify lumps, swelling, tissue damage, cysts, and the overwhelming news of the sex of a baby all have something in common, an ultrasound. Swelling of the spleen, kidney stones, blood clots, aneurysms, cancer and so much more can be identified through the works of an ultrasound’s imaging technique. Ultrasound involves many concepts, procedures, and careers. The amount of medical possibilities involved with ultrasounds is useful in major medical diagnostics. The field of ultrasounds and career opportunities are widely growing. As medical careers flourish, needs for technicians in many fields of medicine are increasing. Instead of a doctor choosing complex and risky surgery to find out problems within the body, they can now
Sonography is a non-invasive medical procedure that uses the echoes of high-frequency sound waves to construct an image of internal organs or body structures. The employment rate is is expected to grow 26 percent from 2014 to 2024. Since ultrasound is non-invasive, it is more encouraged than other methods so the career is always in demand. Diagnostic medical sonographers duties are to prepare and maintain diagnostic imaging equipment, taking a patients medical history, answering questions about the procedure, operating the equipment, review images and test results, know the difference between normal and abnormal images, analyze diagnostic information, record findings, and keep track of patient records. Hospitals, offices of physicians, medical
Dr. Fox is an emergency physician at UCI Medical Center, treating and diagnosing patients using an ultrasound. His scope of research involves looking at patients’ internal organs via ultrasound, which is much quicker and less harmful than using x-ray scans that are traditionally used in emergency departments. He is also a part of the American Institute of Ultrasound in Medicine (“Faculty and Staff”). Dr. Fox is also a director of instructional ultrasound and is the assistant dean at the UCI School of Medicine (“John Christian Fox”). He started an ultrasound rotation at the UCI School of Medicine, and with a grant given by SonoSite, Inc., the ultrasound curriculum is now embedded within the UCI School of Medicine curriculum (“Faculty and Staff”). He went to Tufts University School of Medicine, receiving his MD in 1997 (“John Christian Fox”). His main research focus is to try to incorporate ultrasound more into the emergency department, and tries to find revolutionary ways to utilize ultrasound, especially because it is very cost-efficient and images are seen real-time, unlike MRI scans or x-rays, which can emit harmful radiation or results take much longer to acquire. Eric Viquez is one of the Bio 199/EMRAP (Emergency Medicine Research Associates Program) students in Dr. Fox’s ultrasound lab. He is currently a 4th year undergraduate biological sciences major who is going to medical school in the fall; he shadows shifts with Dr. Fox and
My interest in Sonography first stemmed from another career interest in computers. I gained my problem solving skills at a young age through using computers. I was able to decipher different codes and morph them into something new. When something went amiss with the computer I would know what procedure to use in order to fix the computer. I loved the feeling of taking something broken and making it full of potential again. However, I knew I wanted to do something more than working with technology. I also had an interest in the medical field. I loved visiting the doctor. I was fascinated how the doctors and nurses could use their problem solving skills as well as their compassion to change someone’s life. I wanted to make a difference in people’s
Someone would need to know what it takes and the daily routines of an ultrasound technician if they are hoping to become one. A person should know the amount and the type of schooling needed. They should know what classes are needed, and they should also know the advancements and changes in the profession in the last few years to know what is ahead of them and why the school curriculum has changed. The reason I am writing this paper is because I would like to know, and to share what I found. I have wanted to become an ultrasound technician for years, but have put it off because I have been out of school 14 years and was scared to come back. I would love to work in an obstetrician’s office, because that would be my dream job. The reason I want to become one is because most of my family is in the medical field somewhere so I have the background and lots of knowledge, but I don’t care for the blood and guts that go with most of the careers in the medical field. With radiology it is non-evasive I love babies, also. I wouldn’t mind going into other fields of the industry either.
One of the main reasons for choosing a healthcare career in todays society, aside from the basic need for a self sustaining income, is the opportunity to make differences in peoples lives. With the demand for healthcare professionals and alternative medicines on the rise, so is the need for adequately educated trained personnel. Diagnostic Medical Sonography is becoming an increasingly attractive alternative to radiologic procedures such as x-ray and magnetic resonance imaging (MRI). Accounting for approximately 50,300 jobs in the United States in 2008, compared to the 214,000 jobs held by radiologic technicians, according to
Diagnostic medical sonography is a profession where sonographers direct high-frequency sound waves into a patient’s body through use of specific equipment to diagnose or monitor a patient’s medical condition. As described by the Bureau of Labor Statistics, this examination is referred to as an ultrasound, sonogram, or echocardiogram. The high-frequency sound waves emitted from the handheld device, called a transducer, bounce back creating an echo and therefore produce an image that can be viewed on the sonographers computer screen. This image provides the sonographer and physician with an internal image of the patient’s body that will be used in diagnosis. The most familiar use of ultrasound is used in monitoring pregnancies, and is
The medical field is continually advancing and is a very interesting and intriguing field of study. There are a wide variety of job opportunities offered throughout the health care that one could pursue. Research states that because of the many fields available in sonography, these professionals can work in a variety of settings, from doctors’ offices to medical laboratories. Within a diagnostic medical sonography career, one can pursue a job in many different geographical areas. Jobs in this field can be found in a metropolitan area, nonmetropolitan area, urban area, as well as in a rural area. Because the job outlook for this career is at a growing rate, there will be many diverse types of jobs that will be available for students that are currently studying diagnostic medical sonography. The diagnostic medical sonography program at Washburn University allows an individual the opportunity to choose between general, vascular, and/or cardiovascular
Diagnostic medical sonographers play a key role in the health care team and often work alongside doctors, nurses, and other technologists. They prepare patients by explaining the procedure and collect necessary patient history information prior to examination. An ultrasound is then performed, which is a non-invasive process that enables sonographers to send high-frequency sound waves into the body. The return signals are then analyzed to help visualize internal organs in 2D, 3D or 4D. These images help physicians with medical diagnoses and are also used for monitoring pregnancy. An ultrasound is often executed on many different areas of the body including the abdomen, pelvis, tissues, and vascular and cardiac systems. A DMS may also be required
I have always thought about being a sonographer.
A diagnostic medical sonographer utilizes unique imaging machinery to generate images and perform exams. They use ultrasound technology to obtain pictures of tissues and body organs. The career of sonography offers a wide range of specialties from obstetric and gynecologic to neurosonography. Some of the duties of a sonographer include prepare the patients for the procedure and examine the data recorded to give a detailed summary to the physician. Like any other healthcare professional, ultrasound technicians have responsibilities that are listed in the scope of practice (U.S. Department of Labor, Bureau of Labor Statistics, 2014).
First, ultrasound works like real-time imaging. It allows for patients to see first hand how their injury looks. Ultrasound is the first imagining technology that allows for live feedback. As Doctor Kruse, a Doctor at Primary Care Sports Medicine at the University of California Irvine, said, “Being able to move the tendon and move the joint and move the muscle helps. When we're looking at a ligament in the elbow and there's evidence of a possible tear, the comparative piece of being able to look at the other healthy elbow. And that's real time you can't do that with an MRI you can't do that with an x-ray”. Real-time imaging is a breakthrough in the field of orthopedic medicine. For doctors this is a great because now doctors have the ability
Ultrasound or ultrasonography is a medical imaging technique that uses high frequency sound waves. It is a high pitch frequency that cannot be heard by the human ear. In ultra sound the following happens: High frequency sound pulses (1-5megahertz) are transmitted from the ultrasound machine into your body using a probe. The sound wave will travel into your body until it hits an object such as soft tissue and bone. When the sound wave hits these objects some of the wave will be reflected back to the probe. While some waves may carry on further till they hit another object and then reflected back. The probe picks up these reflected sound waves and relays them to the machine. The distance and time from the probe,