The ultrasound waves pass through your skin and tissue, and then bounce back. This bounce is then translated into sound. You need to put gel on your skin to help with the transmission of the waves.
High frequency that can be used painlessly, safely, and without radiation, to view the internal portions of the body.
Unexplained Infertility ...
Ultrasound uses sound waves to make an image (picture). In pregnancy an ultrasound scan can be used to make an image of the developing baby.
Ultrasounds use to build a picture of the baby in the womb and are completely painless - although be warned, the gentle pressing of the sonographer on your belly, plus all the water you’ll need to drink, may mean you need to wee! ...
Ultrasound uses sound waves to create an image of your baby in the womb. Doctors use ultrasounds to check on your baby's health throughout your pregnancy. Ultrasound is a flexible tool.
Ultrasound uses to make a picture of structures inside the body. It may be done to see whether a problem in the testicles Opens New Window is causing a problem with the sperm.
Ultrasound uses sound waves to create a "picture" of your baby on a monitor. With a standard ultrasound, a gel is spread on your abdomen. A special tool is moved over your abdomen, which allows your doctor and you to view the baby on a monitor.
A device that emits is placed on the belly. The enter the body, bounce off internal tissues, and produce images of the fetus, placenta, and uterus on a television-like monitor.
SONOGRAM (Ultrasound)- Use of ultra high-frequency sound waves (like sonar) to create an image of internal body parts. Used to evaluate the size and number of ovarian follicles.
Sonogram (Ultrasound): Use of high-frequency for creating an image of internal body parts. Used to detect and count follicle growth (and disappearance) in many fertility treatments. Also used to detect and monitor pregnancy.
Do we have the right to bombard them with high-frequency sound waves for our own peace of mind? No, we don't.
The California State Assembly agrees.
As bounce off objects or organs, they can show location, size, and shape of the organ.
The probe uses sound waves to show pictures of the uterus and other pelvic organs. A new form of ultrasound, called three-dimensional ultrasound, is highly accurate in diagnosing uterine abnormalities.
Ultrasound - High-frequency used to monitor pregnancy and observe images of internal body parts to detect any abnormalities (also called sonogram).
Generally the lower the frequency, the further (or deeper) the sound waves can penetrate the body's tissues.
An ultrasound transducer emits acoustic that bounce back when they hit different types of tissues in the body along its path. These waves are then recaptured by the transducer and sent to the ultrasound computer.
The sound waves cause the eardrum and three tiny bones to move. This movement sends sound to the inner ear. In the inner ear, the cochlea is covered with tiny hairs. These tiny hairs transmit signals to the brain as they vibrate.
An ultrasound test emits high-frequency that penetrate the uterus to reveal an image of the fetus on a monitor.
Normal hearing occurs when sound waves pass down the ear canal and cause the eardrum to vibrate. Vibrations of the eardrum in turn move the three tiny bones in the middle ear.
This screening test uses to create an image of the baby in the uterus. The test is used to determine the size and position of the fetus, as well as any potential abnormalities in the structure of the growing bones and organs of the baby.
The technician will apply a gel to your abdomen to improve the conductivity of the sound waves and to prevent air pockets developing between the transducer and your skin.
ultrasound - a diagnostic imaging technique which uses high-frequency and a computer to create images of blood vessels, tissues, and organs.
9 Briefly, SOS measurement is based on the fact that ultrasound waves propagate faster through the bone than through soft tissue. The device consists of a desktop main unit and a number of small probes, designed to measure SOS at different sites.
An ultrasound involves transmitting high frequency through the uterus. These bounce off the baby and the returning echoes are translated by a computer into an image on a screen that reveals the baby's position and movements.
Ultrasound : High-frequency sound waves. Ultrasound waves can be bounced off of tissues using special devices. The echoes are then converted into a picture called a sonogram.
Ultrasound: An ultrasound uses and echoes to create a moving image of your fetus and show what's going on inside your womb. You'll probably have at least two ultrasounds during your pregnancy.
Imaging of body parts using sound waves. Ultrasound uses sound waves that are above the range of human hearing to create an image of organs within the body. Sound waves are reflected off internal body structures and back to the ultrasound machine.
Ultrasound - Ultrasound is a technique that uses to study the internal parts of the body.
Ultrasound uses short pulses of high-frequency, low-intensity sound waves to create images. Unlike x-rays, there is no radiation exposure to the fetus. Occasionally, the date of your last menstrual period is not sufficient to determine a due date.
The ultrasound machine uses a transmitter (held in the technician's hand) to send high frequency into the mother's uterus. Although they are , they are so high in frequency that humans can't hear them.
It is a painless test that uses sound waves to create images of organs and structures inside your body to show your baby inside your womb. The scans usually occur when you are about 12 weeks and 21 weeks pregnant.
The ultrasound produces images similar to an x-ray; however, are used instead of radiation. Many times dense structures, such as uterine fibroids, are clearly visible on transvaginal ultrasound.
Ultrasound (US) - use of high-frequency sound waves for creating an image of internal body parts Ureaplasma - a microorganism similar to mycoplasma Urethra - the tube through which urine from the bladder is expelled Urologist - a ...
ultrasound - also known as sonogram- that are used to view the baby, ...
The Fetal Doppler uses ultrasound technology to bounce sound waves off the baby and return a representation of the fetal heart beat. Some specialized devices can be used as early as eight weeks.
are passed on to three tiny bones: the hammer, the anvil, and the stirrup. The cochlea, in the inner ear, receives the , encodes them into electrical pulses, and transfers them to the brain.
This is a test that uses sound waves to draw a picture of your baby inside your uterus. From this test you will be able to see your baby`s movement and see his?her heart beating and evaluate the size and development of your baby.
Ultrasound scan A screening or diagnostic technique in which very high frequency are passed into the body, and the reflected echoes are detected and analysed to build a picture of the internal organs or of a fetus in the uterus.
When the sound waves hit a structure, the structure bounces back the sound and the amount of sound returned varies according to what obstructed it.
Sonography: The use of ultrasound () to form an image of the fetus.
Stillbirth: Delivery of a dead fetus after 28 weeks' gestation.
Striae: Streaks or "stretch marks" seen on the abdomen of a pregnant woman.
See also: Ultrasound, Pregnancy, Pregnant, Fetus, Diagnosis