Ultrasound uses sound waves to look at the internal organs of the body. A special instrument, called a transducer, has tiny crystals inside that, when excited by an electrical current, emit sound waves above the audible range of sound. The sound waves are sent into the body and bounce off internal organs. The transducer then picks up these rebounding sound waves and, with the aid of a computer, displays the returning sound waves as a picture representing the organ(s) of interest. There is no radiation involved in ultrasound. This unique feature is why so many doctors refer pregnant women for Ultrasound examinations of their unborn baby. Ultrasound has had many advances in the last few years. Technologists can now create three dimensional renderings of the unborn baby's face, as well as examine in detail other anatomical structures such as the baby's heart.
Ultrasound is very good at discerning cystic (fluid-filled) structures from solid structures within the body. It is a great tool for targeted examinations, and because of its relatively low cost, it is also a wonderful first line of testing. Ultrasound can look at solid internal organs (pancreas, spleen, liver), reproductive organs, thyroid, unborn babies, arteries and veins, and can even image the skin and muscles on the arms and legs. Ultrasound is also used as a guidance tool: the technologist can show the doctor the exact location of an organ for biopsy with a needle.
When a patient needs to have their bladder, kidneys, unborn baby, and/or female reproductive system imaged, the patient must drink water, at least one hour prior to the examination, to fill the bladder. The bladder works as an "acoustic window", which means it helps the sound waves get to the organ(s) that need to be imaged. Plus by having a full bladder, the intestines that usually live between the pelvic organs and the bladder are moved out of the way so the technologist has a clearer view. By filling the bladder, the doctor can also assess the bladder wall for irregularities, and watch to confirm that the kidneys are draining properly into the bladder.
Often, when scanning unborn babies, the baby's head is very low in the mother's pelvis. By filling the bladder, the baby's head gets moved out of the mother's lower pelvis, thus allowing the baby's brain and skull to be imaged better.
Scanning the abdomen is very hard because of the intestines. In a normal person, the intestines are filled with air, fluid, and ingested food. These three things make imaging the abdominal organs nearly impossible. Ultrasound cannot image through air. By fasting for eight hours before the examination, the intestines are relatively empty, and the technologist can work around them to image the liver, gall bladder and bile ducts, main portal vein, pancreas, spleen, and kidneys. The other benefit of fasting for eight hours is that the gall bladder can be seen more readily. The gall bladder is a reservoir for bile and bile salts, which is made by the liver. When we eat and/or drink, the gall bladder contracts to expel bile into the small intestine to break down what we ingest. When the gall bladder is contracted, it is very hard to evaluate for possible problems. But by fasting for eight hours, the gall bladder is sufficiently full of bile and can be evaluated for size, shape, and irregularities.
When you are instructed to fast before an abdomen Ultrasound examination, it also includes no drinking, no chewing (gum, tobacco, etc), and no smoking. All of these will cause the gall bladder to contract, thus making Ultrasound identification next to impossible.
The Ultrasound gel is what makes sound transmission possible. Without the gel, no Ultrasound images can be produced. On the surface of everyone's skin, there are tiny micro-bubbles of air, body hair, and surface irregularities that interfere with sound transmission into the body. The Ultrasound gel gets rid of it all, and enhances the sound transmission from the transducer face into the body.
A Breast Ultrasound is a targeted examination to look more specifically at a small area within the breast. It is a secondary examination that is done after a Mammogram detects an area that needs further evaluation. A Breast Ultrasound is also done when a patient or their provider feels a possible breast lump.
We have the newest Ultrasound machine available on the market. Our Toshiba Aplio has a special feature called Harmonics. Harmonics allows the technologist to enhance the Ultrasound image with the push of the button. In most machines, once the Harmonics button is pushed, the technologist's ability to manipulate the Ultrasound image decreases slightly. With the Toshiba Aplio, however, the Harmonics can be varied on the fly by the technologist, through a trade-marked application called Appli-Pure, so that the image is updated more frequently resulting in better image quality.
Another unique feature in our Ultrasound suite is that you, our patient, can choose to watch your examination on a television as it is being done. We have a flat screen television mounted on the wall so that you and your loved one may watch your examination as it is happening. When you come in to see your unborn baby, you get to watch him/her move in real-time.