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Chapter 13 Radiographic Film

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Title: Chapter 13 Radiographic Film


1
Chapter 13 Radiographic Film
  • Remnant Radiation the x-rays that interact with
    the x-ray film.
  • Few of the original x-rays actually make the
    image. The remnant radiation is the image forming
    radiation that passes completely through the
    patient.

2
Types of X-ray
  • A- X-rays scatter by Compton interactions
  • B- x-rays absorbed by photoelectric absorption
  • C- X-rays that exit the patient without
    interaction.

3
Remnant Radiation
  • The beam started as a relatively uniform
    intensity as it exited the tube.
  • Upon striking the patient, the beam is attenuated
    by the patient some were absorbed, others are
    scattered.
  • Those that actually hit the film are referred to
    as the useful or remnant radiation.

4
Remnant Radiation
  • The remnant radiation consists of x-rays
    scattered away from the receptor and the useful
    beam.
  • The film is sandwiched between radiographic
    intensifying screens in a protective cassette.

5
Intensifying Screens Film
  • The intensifying screens change the x-rays into
    visible light. The visible light exposes the
    radiographic film.
  • Radiographic film is similar in construction and
    characteristics to photographic film.
  • Its spectral response is different from
    photographic film but is mechanism of operation
    is the same.

6
Film Construction
  • Radiographic Film has two basic parts.
  • Base
  • Emulsion
  • Most film has two layers of emulsion so it is
    referred to as Double Emulsion Film

7
Film Construction
  • An adhesive layer attaches the emulsion to the
    base.
  • The emulsion is enclosed in a protective layer or
    overcoat.

8
Radiographic Film Base
  • Initially x-ray were taken on glass plates.
  • In 1918 cellulose nitrate bases film replaced
    glass due to WWI and a shortage of glass.
    Cellulose Nitrate was flammable so x-ray film was
    a fire hazard. Several severe hospital fire were
    caused by the x-ray film.

9
Radiographic Film Base
  • 1920 Cellulose triacetate or safety base was
    introduced. Not as flammable.
  • Polyester base replaced Cellulose Triacetate in
    the 1960s. Still used today. It is semi-rigid
    and about 150 to 300 µm thick.

10
Emulsion
  • The emulsion is the heart of the film. The x-rays
    or light from the intensifying screens interact
    with the emulsion and transfer information to the
    film
  • The emulsion consists or a very homogeneous
    mixture of gelatin and silver halide crystals
    about 3 to 5 µm thick.

11
Gelatin
  • The gelatin is clear so it transmits the light to
    the silver halide crystals.
  • It is porous so the processing chemicals can
    penetrate to the silver halide crystals.
  • The primary function of the gelatin is to provide
    a support medium for the silver halide crystals
    by holding them in place.

12
Silver Halide Crystals
  • 98 Silver Bromide
  • 2 Silver Iodide
  • Tabular shape used most commonly for general
    radiography.
  • About 1µm thick for screen film exposure.

13
Silver Halide Crystals
  • The differences in speed, contrast and resolution
    depend upon the process by which the silver
    halide crystals are manufactured and by the
    mixture of these crystals into the gelatin.
  • Size and concentration of crystals have a primary
    influence on speed.

14
Manufacture
  • The manufacturers closely guard the mixture they
    use to manufacture their film.
  • Manufacture is in total darkness with protection
    for radiation. From the time that the emulsion
    ingredients are brought together until the film
    is packaged, no light is present.

15
The Latent Image
  • The latent image is the invisible change in the
    silver halide crystals.
  • The interaction between the photons and the
    silver halide crystals produces the latent image
    or manifest image.
  • This interaction is sometimes referred to as the
    photographic effect.

16
The Latent Image
  • This process is not well understood and is the
    subject of considerable research.
  • The following is the Gurney-Mott theory.

17
Producing the Latent Image
  • Radiation interaction releases electrons.
  • Electrons migrate to the sensitivity center.
  • At the sensitivity center, atomic silver is
    formed by attracting an interstitial silver ion.

18
Producing the Latent Image
  • The process is repeated many times resulting in
    the build up of silver atoms.
  • The remaining silver halide is converted to
    silver during processing.

19
Producing the Latent Image
  • The resulting silver grain is formed.
  • Silver halide that is not irradiated remain
    inactive. The irradiated and non-irradiated
    silver halide produces the latent image.

20
Types of X-ray Film
  • Two main types
  • Screen film used with intensifying screens.
  • Single emulsion- emulsion on one side of base.
  • Double emulsion used with two screens.
  • Direct exposure film or non-screen film.
  • Special purpose Duplication, Cine, Dental

21
Standard Screen-Film Sizes
  • English Units
  • 8 x 10
  • 10 x 12
  • 11 x 14
  • 7 x 17
  • 14 x 17
  • 14 x 36
  • SI Units
  • 20 x 25
  • 24 x 30
  • 30 x 35
  • 18 x 43
  • 35 x 43

22
Screen Film Factors
  • Main factors to be considered when selecting film
  • Contrast Speed
  • Crossover
  • Spectral matching
  • Reciprocity Law
  • Safelights

23
Contrast
  • Most manufacturers offer multiple contrast
    levels in their film lines.
  • High contrast film has low latitude
  • Medium contrast has medium latitude
  • Low contrast has high latitude
  • High contrast has small uniform grains
  • Low contrast has larger grains and wide range in
    size.

24
Speed
  • The size and shape of the silver halide crystals
    are the main factors that determine speed.
  • Faster speed films are almost always double
    emulsion.
  • Light spectrum from screens must match to achieve
    optimum speed.

25
Crossover
  • Crossover is the exposure of an emulsion by light
    from the opposite-side radiographic intensifying
    screen.
  • Modern tabular grain film with a dye or crossover
    control layer has reduced crossover.

26
Spectral Matching
  • The most important consideration in selecting
    screen film is spectral absorption matching.
  • The material in the screens will determine the
    color of light emitted by the screens.
  • Special dyes in the film are used to match the
    screens to film.

27
Spectral Matching
  • Calcium Tungstate screen emit blue and blue
    violet light. All film will respond to blue and
    violet light.
  • Rare earth screens emit blue-green light. Green
    sensitive film must be used. It is referred to as
    orthochromatic film. It will respond to blue
    green light spectrums.

28
Spectral Matching
  • If the light spectrum does not match, there will
    be a significant loss of speed.
  • Kodak Lanex Regular Screens are rated at 400
    speed with orthochromatic film and 200 speed with
    blue sensitive film.

29
Reciprocity Law
  • Exposure Intensity x time Constant Optical
    Density
  • So mA x time (s) mAs
  • As long as the product of mA and time are the
    same, the optical density should be the same.
    Right?
  • Wrong !!!

30
Reciprocity Law
  • There are times when the reciprocity law does not
    work with screen film.
  • Very short exposure times (1 ms) and long
    exposure times (1 second or more).
  • The result is a loss of speed.

31
Approximate Reciprocity Law Failure
  • Exposure Time
  • 1 ms
  • 10 ms
  • 100 ms
  • 1 s
  • 10 s
  • Relative Speed ()
  • 95
  • 100
  • 100
  • 90
  • 60

32
Safelight
  • Working with film in the darkroom requires
    special lighting to avoid exposure of the film.
  • Filters are used to avoid exposure of the film.

33
Safelights
  • A red filter is used for blue-green sensitive
    film.
  • The color is not the only concern, the wattage of
    the bulb and distance from the counter top is
    also very important.
  • Maximum wattage is 15w.
  • Distance 60 from counter top.

34
Special Film Types
  • Direct exposure once used for small body parts
    measuring less than 10 cm. Requires 10 to 100
    time more exposure. No longer used.
  • Single emulsion film once used for extremities
    but now most extremity cassettes are double
    screen type. Again required more exposure.

35
Special Film Types
  • Mammography Film Only single emulsion film
    currently used in modern radiography.
  • Laser Film Used in medical radiography with a
    laser printer for digital radiography, CT and
    MRI. Modern units are dry chemical printers.
    Similar to laser printers except image is printed
    on film.

36
Special Film Types
  • Duplication Film special single emulsion film
    used to copy x-ray films. Sensitive to UV or blue
    light. Never used in cassettes.
  • Subtraction Film used in angiography to do
    subtraction where the bone is removed for better
    visualize the arteries. Not used in chiropractic.

37
Special Film Types
  • Spotfilm Special roll film of 70 to 105 mm width
    used in fluoroscopy in medical radiography. Can
    be processed in x-ray film processor.
  • Cine film 16 mm or 135 mm black white film
    used in coronary angiography. Requires motion
    picture film processor.

38
Handling and Storage of Radiographic Film
  • X-ray film is a sensitive radiation detector and
    it must be handled in an area free of radiation.
  • Film storage must be shielded.
  • The darkroom adjacent to the x-ray room must be
    shielded.
  • If film use is low more shielding may be required.

39
Handling and Storage of Radiographic Film
  • Improper handling of the film will result in poor
    image quality due to artifacts.
  • Avoid bending, creasing or otherwise rough
    handling the film. Avoid sharp objects contacting
    the film.
  • Hands must be clean and dry.
  • Avoid hand creams, lotions or water free hand
    cleaners.
  • Static electricity or a dirty processor can cause
    artifacts.
  • Artifacts must be avoided.

40
Handling and Storage of Radiographic Film
  • Heat and Humidity must be controlled. Film is
    sensitive to heat and humidity from the time it
    is manufactured until the time it is viewed.
  • Heat and humidity causes fog or a loss of
    contrast. Film should be stored at 20º C (68º F).
  • Humidity should be between 40 and 60.

41
Handling and Storage of Radiographic Film
  • Light will expose the film. Film must be handled
    and stored in he dark.
  • If low level diffuse light exposes the film, fog
    is increased.
  • Luminous watches, cell phone and darkroom light
    leaks should be avoided.
  • Bright light causes gross exposure.

42
Handling and Storage of Radiographic Film
  • Shelf life. All film is supplied in boxes with an
    expiration date.
  • Most film is supplied in boxes of 100 sheets.
  • The 14 x 36 size is supplies in 25 sheet boxes
    with each sheet interleaved with paper.
  • The oldest film in stock should always be used
    first. Rotation is important.
  • Expired will loose speed and contrast and have
    increased fog.

43
End of Lecture
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