What is General
Ultrasound Imaging? |
Ultrasound
imaging, also called ultrasound scanning
or sonography, involves exposing part of
the body to high-frequency sound waves to
produce pictures of the inside of the bsody.
Ultrasound exams do not use ionizing radiation
(x-ray). Because ultrasound images are captured
in real-time, they can show the structure
and movement of the body's internal organs,
as well as blood flowing through blood vessels.
Ultrasound imaging is usually a painless
medical test that helps physicians diagnose
and treat medical conditions.
Conventional ultrasound displays the
images in thin, flat sections of the body.
Advancements in ultrasound technology
include three-dimensional (3-D) ultrasound
that formats the sound wave data into
3-D images. Four-dimensional (4-D) ultrasound
is 3-D ultrasound in motion.
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What are some
common uses of the procedure? |
Ultrasound is used
to help physicians diagnose symptoms such
as pain, swelling, infection
Ultrasound is a useful way of examining
many of the body's internal organs, including
but not limited to the:
- heart and blood vessels, including
the abdominal aorta and its major branches
- liver, gallbladder, spleen, pancreas,
kidneys, bladder, uterus, ovaries, scrotum
(testicles)
- thyroid and parathyroid glands
Doppler ultrasound images can help the
physician to see and evaluate:
- blockages to blood flow (such as clots)
- narrowing of vessels (which may be
caused by plaque)
- tumors and congenital malformation
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Ultrasound:
Gallbladder |
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Ultrasound:
Kidney |
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Ultrasound:
Liver |
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How should
I prepare for the procedure? |
You should wear comfortable, loose-fitting
clothing for your ultrasound exam. You
will need to remove all clothing and jewelry
in the area to be examined.
You may be asked to wear a gown during
the procedure.
Other preparation depends on the type
of examination you will have. For some
scans your doctor may instruct you not
to eat or drink for as many as 12 hours
before your appointment. For others you
may be asked to drink up to six glasses
of water two hours prior to your exam
and avoid urinating so that your bladder
is full when the scan begins.
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How does the
procedure work? |
Ultrasound imaging is based on the same
principles involved in the sonar used
by bats, ships and fishermen. When a sound
wave strikes an object, it bounces backward,
or echoes. By measuring these echo waves
it is possible to determine how far away
the object is and its size, shape, consistency
(whether the object is solid, filled with
fluid, or both) and uniformity.
In medicine, ultrasound is used to detect
changes in appearance and function of
organs, tissues, or abnormal masses, such
as tumors.
In an ultrasound examination, a transducer
both sends the sound waves and records
the echoing waves. When the transducer
is pressed against the skin, it directs
a stream of inaudible, high-frequency
sound waves into the body. As the sound
waves bounce off of internal organs, fluids
and tissues, the sensitive microphone
in the transducer records tiny changes
in the sound's pitch and direction. These
signature waves are instantly measured
and displayed by a computer, which in
turn creates a real-time picture on the
monitor. These live images are usually
recorded on videotape and one or more
frames of the moving pictures are typically
captured as still images.
Doppler ultrasound, a special application
of ultrasound, measures the direction
and speed of blood cells as they move
through vessels. The movement of blood
cells causes a change in pitch of the
reflected sound waves (Doppler effect).
A computer collects and processes the
sounds and creates graphs or pictures
that represent the flow of blood through
the blood vessels.
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How is the
procedure performed? |
For
most ultrasound exams, the patient is positioned
lying face-up on an examination table that
can be tilted or moved.
 A
clear gel is applied to the area of the
body being studied to help the transducer
make secure contact with the body and
eliminate air pockets between the transducer
and the skin. The sonographer (ultrasound
technologist) or radiologist then presses
the transducer firmly against the skin
and sweeps it back and forth over the
area of interest.
Doppler sonography is performed using
the same transducer.
When the examination is complete, the
patient may be asked to dress and wait
while the ultrasound images are reviewed.
However, the sonographer or radiologist
is often able to review the ultrasound
images in real-time as they are acquired
and the patient can be released immediately.
Most ultrasound examinations are completed
within 30 minutes to an hour.
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Who interprets
the results and how
do I get them? |
A radiologist, a physician specifically
trained to supervise and interpret radiology
examinations, will analyze the images
and send a signed report to your primary
care or referring physician, who will
share the results with you.
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What are the
benefits vs. risks? |
Benefits
- Ultrasound scanning is noninvasive
(no needles or injections) and is usually
painless.
- Ultrasound is widely available, easy-to-use
and less expensive than other imaging
methods.
- Ultrasound imaging uses no ionizing
radiation.
- Ultrasound scanning gives a clear
picture of soft tissues that do not
show up well on x-ray images.
- Ultrasound causes no health problems
and may be repeated as often as is necessary
if medically indicated.
Risks
- For standard diagnostic ultrasound
there are no known harmful effects on
humans.
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What are the
limitations of General Ultrasound Imaging? |
Ultrasound
waves are reflected by air or gas; therefore
ultrasound is not an ideal imaging technique
for the bowel. Barium exams and CT scanning
are the methods of choice for bowel-related
problems.
Ultrasound waves do not pass through
air; therefore an evaluation of the stomach,
small intestine and large intestine may
be limited. Intestinal gas may also prevent
visualization of deeper structures such
as the pancreas and aorta. Patients who
are obese are more difficult to image
because tissue attenuates (weakens) the
sound waves as they pass deeper into the
body.
Ultrasound has difficulty penetrating
bone and therefore can only see the outer
surface of bony structures and not what
lies within. For visualizing internal
structure of bones or certain joints,
other imaging modalities such as MRI are
typically used.
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