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Digital Imaging and Radiology

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Title: Digital Imaging and Radiology


1
Digital Imaging and Radiology
2
Traditional x-rays
  • Use electromagnetic waves to make pictures

3
  • New imaging techniques use computers to generate
    pictures of internal body organs

4
Computers can make pictures using mathematical
information
5
Newer Technologies
  • Computerized tomography is a diagnostic procedure
    that uses special x-ray equipment to obtain cross
    sectional pictures of the body.
  • The CT computer displays these pictures as
    detailed images of organs, bones, and other
    tissues.
  • In cancer, CT is used to detect a tumor, provide
    information about the extent of the disease, help
    plan treatment, and determine whether the cancer
    is responding to treatment

6
  • A CT scan uses slightly more radiation than a
    chest x-ray, but the benefits generally outweigh
    the risks
  • During a CT scan, the person lies very still on a
    table. The table slowly passes through the center
    of a large x-ray machine. The person might hear
    whirring sounds during the procedure. People may
    be asked to hold their breath at times, to
    prevent blurring of the pictures.
  • Often, a contrast agent, or dye, may be given
    by mouth or injected into a vein before the CT
    scan is done. The contrast dye can highlight
    specific areas inside the body, resulting in a
    clearer picture.

7
Magnetic Resonance Imaging (MRI)
  • MR imaging uses a powerful magnetic field, radio
    waves and a computer to produce detailed pictures
    of organs, soft tissues, bone and virtually all
    other internal body structures. The images can
    then be examined on a computer monitor or
    printed. MRI does not use ionizing radiation
    (x-rays).

8
  • In most cases, an MRI exam is safe for patients
    with metal implants, except for a few types.
    People with the following implants cannot be
    scanned and should not enter the MRI area
  • internal (implanted) defibrillator
  • cochlear (ear) implant
  • clips used on brain aneurysms

9
Positron Emission Tomography
  • A PET scan, unlike a normal X-ray, can detect
    cancer before organ or gland enlargement occurs.
    Here a normal X-ray of the chest (left) is
    compared with a PET scan of the chest producing
    normal results (top right) and a PET scan
    revealing cancer that's spread to the lymph nodes
    (bottom right).

10
Advantages of digital imaging
  • No developing process
  • Copies are as good as originals
  • Viewed on computer screen
  • Can be transmitted over telephone lines
  • Less radiation
  • More flexible
  • Can be highlighted or enhanced

11
  • X-rays are most frequently used in orthopedics
    and dentistry
  • As with many of mankind's monumental discoveries,
    X-ray technology was invented completely by
    accident. In 1895, a German physicist named
    Wilhelm Roentgen made the discovery while
    experimenting with electron beams in a gas
    discharge tube. Roentgen noticed that a
    fluorescent screen in his lab started to glow
    when the electron beam was turned on. This
    response in itself wasn't so surprising --
    fluorescent material normally glows in reaction
    to electromagnetic radiation -- but Roentgen's
    tube was surrounded by heavy black cardboard.
    Roentgen assumed this would have blocked most of
    the radiation.

12
  • Roentgen placed various objects between the tube
    and the screen, and the screen still glowed.
  • Finally, he put his hand in front of the tube,
    and saw the silhouette of his bones projected
    onto the fluorescent screen. Immediately after
    discovering X-rays themselves, he had discovered
    their most beneficial application

13
Mammography is a traditional x-ray
  • Mammography is a low-powered x-ray technique that
    captures a picture of the internal structure of
    the breast. Additional angles and magnified views
    are taken of suspicious areas.
  • A mammogram may help in the diagnosis of breast
    problems, including cancer.
  • It is recommended a woman have a baseline
    mammogram
  • at age 40, followed by a
  • mammogram every couple of
  • years until age 50.
  • After 50, a woman should
  • have a mammogram every year.

14
Ultrasound can distinguish between cysts and
tumors
  • It is used along with mammograms
  • Does not use radiation but high frequency sound
    waves

15
Computer Tomography
  • Uses x-rays and digital technology to produce a
    cross-sectional image of the body. (Enhanced CTs
    use dye)

16
Magnetic Resonance Imaging
  • Produces images of soft tissue within the body
  • The image is produced by a computer with a
    magnetic field that is 25,000 times stronger than
    the earths magnetic field

17
Positron Emission Tomography (PET)
  • Scans can be two or three dimensional
  • Used in the study of Alzheimers and Parkinsons
    disease
  • They produce pictures of activity and function

18
Interventional Radiology
  • Treats an ever-widening range of conditions
    inside the body from outside the body by
    inserting various small instruments or tools,
    such as catheters or wires, with the use of
    various x-ray and imaging techniques (i.e., CT
    scanners, MRI scanners, ultrasound scanners).
  • Interventional radiology offers an alternative
    to the surgical treatment of many conditions and
    can eliminate the need for hospitalization, in
    some cases
  • Surgical biopsies have now been replaced with
    needle biopsies

19
Stereotactic Radiosurgery
  • Stereotactic radiosurgery (SRS) treats brain
    disorders with a precise delivery of a single,
    high dose of radiation in a one-day session.
    Focused radiation beams are delivered to a
    specific area of the brain to treat
    abnormalities, tumors or functional disorders.
  • Is the very precise delivery of radiation to a
    brain tumor with sparing of the surrounding
    normal brain.

20
Stereotactic Radiosurgery cont.
  • Uses a gamma knife which is a painless device
  • The gamma knife uses multiple beams of radiation
    converging in three dimensions to focus precisely
    on a small volume, such as a tumor, permitting
    intense doses of radiation to be delivered to
    that volume safely.

21
Focused ultrasound surgery
  • Uses sound waves which create a powerful
    ultrasonic beam
  • High-intensity ultrasound energy focused on a
    small target volume raises the tissue temperature
    high enough to destroy it. This is similar to the
    manner in which sunlight focused by a magnifying
    glass can create sufficient heat to start a fire.
    The use of heat to destroy tissue is called
    thermal ablation
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