About Ultrasound
Learn about the disease, illness and/or condition Ultrasound including: symptoms, causes, treatments, contraindications and conditions at ClusterMed.info.
Ultrasound
Ultrasound |
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Ultrasound InformationDiagnostic uses for ultrasoundObstetricsUltrasound is routinely used for assessing the progression of a pregnancy. Pelvic ultrasounds can be obtained trans-abdominally where the probe is placed on the abdominal wall, or trans-vaginally, where the probe is placed in the vagina. For example ultrasound in obstetrics/gynecology is used to diagnose growths or tumors of the ovary, uterus, or, Fallopian tubes.CardiologyEchocardiographyEchocardiography (echo=sound + cardio=heart + graphy=study) evaluates the heart, the heart valve's motion, and blood flow through them. It also evaluates the heart wall motion and the amount of blood the heart pumps with each stroke.Echocardiography can be performed in two ways:
Screening uses for ultrasoundUltrasound may be used to screen for blood vessel diseases. By measuring blood flow and blockage in the carotid arteries, the test can predict potential risk for future stroke. Similarly, by measuring the diameter of the aorta in the abdomen, ultrasound can screen for aneurysm (abnormal dilatation) and the risk of rupture. These tests may be indicated for an individual patient or they may be offered as a community wide health screening assessment. Therapeutic uses for ultrasoundUltrasound may be used to help physicians guide needles into the body.In situations where an intravenous line is required but it is difficult to find a vein, ultrasound guidance may be used to identify larger veins in the neck, chest wall, or groin.Ultrasound may be used to guide a needle into a cavity that needs to be drained (for example, an abscess) or a mass that needs to be biopsied, where a small bit of tissue is removed for analysis. For what purposes are ultrasounds used?Ultrasound is not limited to diagnosis, but can also be used in screening for disease and to aid in treatment of diseases or conditions. How are the results of ultrasound interpreted and communicated to the physician?The ultrasound is generally performed by a technician. The technician will notice preliminary structures and may point out several of these structures during the examination. The official reading of the ultrasound is done by a radiologist, a physician who is an expert at interpreting ultrasound images. The radiologist records the interpretation and transmits it to the practitioner requesting the test. Occasionally, during the ultrasound test the radiologist will ask questions of the patient and/or perform an examination in order to further define the purpose for which the test is ordered, or to clarify preliminary findings.Plain x-rays might be ordered to further evaluate early findings.A summary of results of all of the above is reported to the health care practitioner who requested the ultrasound. They are then discussed with the patient in the context of the patient's overall health status. How do patients prepare for an ultrasound?Preparation for ultrasound is minimal. Generally, if internal organs such as the gallbladder are to be examined, patients are requested to avoid eating and drinking with the exception of water for six to eight hours prior to the examination. This is because food causes gallbladder contraction, minimizing the size, which would be visible during the ultrasound.In preparation for examination of the baby and womb during pregnancy, sometimes it is recommended that mothers drink at least four to six glasses of water approximately one to two hours prior to the examination for the purpose of filling the bladder. This helps improve the images captured during the exam. What are the risks of ultrasound?There are no known risks to ultrasound, and as technology has improved, the machines have become smaller, portable and available for use at the patient's bedside. What is an ultrasound?While the patient's history and physical examination are the initial steps of making a medical diagnosis, the ability to peer inside the body can be a powerful tool. Ultrasound is an imaging technique that provides that ability to medical practitioners.Ultrasound produces sound waves that are beamed into the body causing return echoes that are recorded to "visualize" structures beneath the skin. The ability to measure different echoes reflected from a variety of tissues allows a shadow picture to be constructed. The technology is especially accurate at seeing the interface between solid and fluid filled spaces. These are actually the same principles that allow SONAR on boats to see the bottom of the ocean. What is ultrasonography?Ultrasonography is a form of body imaging using sound waves to facilitate makeing a medical diagnosis. A skilled ultrasound technician is able to see inside the body using ultrasonography to answer questions that may be asked by the medical practitioner caring for the patient. Usually, a radiologist will oversee the ultrasound test and report on the results, but other types of physicians may also use ultrasound as a diagnostic tool. For example, obstetricians use ultrasound to assess the fetus during pregnancy. Surgeons and emergency physicians use ultrasound at the bedside to assess abdominal pain or other concerns.A transducer, or probe, is used to project and receive the sound waves and their echoes. A gel is wiped onto the patient's skin so that the sound waves are not distorted as they cross through the skin. Using their understanding of human anatomy and the machine, the technician can evaluate specific structures and try to answer the question asked by the patient's physician. This may take a fair amount of time and require the probe to be repositioned and pointed in different directions. As well, the technician may need to vary the amount of pressure used to push the probe into the skin. The goal will be to "paint" a shadow picture of the inner organ that the health care practitioner has asked to be visualized.The physics of sound can place limits on the test. The quality of the picture depends on many factors.
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