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2. INTRODUCTION
• X rays are the ionizing electromagnetic radiation emitted
from a highly evacuated high-voltage tube. Inner orbital
electrons in the target anode are stimulated to emit x-
radiation via bombardment by a stream of electrons from a
heated cathode
• X-rays, like gamma rays, are penetrating and carry
enough energy to ionize atoms in their path. Nearly
identical to gamma rays, x-rays require shielding to reduce
their intensity and minimize the danger of tissue damage to
personnel. Mishaps with x-rays can cause severe
radiation burns and deep tissue damage and can lead to
various cancers
3. X-rays were discovered in 1895 when Wilhelm Conrad
Roentgen observed that a screen coated with a barium salt
fluoresced when placed near a cathode ray tube. Roentgen
concluded that a form of penetrating radiation was being
emitted by the cathode ray tube and called the unknown
rays, X-rays .
First X-ray Image
4. X-RAY MACHINE
An x ray machine is a complex device used in
variety of applications around the world. With the
ability to penetrate hard objects, they are used for
purposes such as to look for broken bones or
problems within the body in the medical
community, air port security check points, in the
industrial QC applications and for research
purposes.
5. PRINCIPLES OF OPERATION
An x-ray machine is essentially a camera. Instead of
visible light, however, it uses X-rays to expose the film. X-
rays are like light in that they are electromagnetic waves,
but they are more energetic so they can penetrate many
materials to varying degrees. When the X-rays hit the film,
they expose it just as light would
Since bone, fat, muscle, tumors and other masses all
absorb X-rays at different levels, the image on the film lets
you see different (distinct) structures inside the body
because of the different levels of exposure on the film
6. PRODUCTION OF X-RAY
An x-ray tube requires a source of electrons, a means to accelerate
the electrons, and a target to stop the high-speed electrons.
7. The filament is heated to boil off electrons which are then accelerated
to the anode
The filament is contained within the cathode which is cup shaped to
focus the electrons onto the focus spot on the anode
Tube currents of 50-800 milliamperes are used whereas filament
currents are in the range of 2-5 amperes
The anode is bevelled at an angle of 12 to 17 degrees in order to
maximise the contact area while focussing the resultant beam
The anode is usually composed of tungsten or molybdenum as it must
withstand very high temperatures (>3000 degrees C)
Correct warm up and stand by procedures are essential to maximise
tube and filament life
8. When the electrons from the cathode are accelerated at
high voltage to the anode:
99% of the energy is dissipated as heat
(anode materials are selected to withstand the high temperatures they are able
to withstand)
1% is given off as x-rays.
The energy of the x-rays (keV) is determined by the
voltage applied (kVp) while,
The amount of x-rays is determined by the current (mA).
10. PARTS OF X-RAY MACHINE
X-ray has three main components:
Operating Console
High Frequency Generator
X-ray Tube
Internal
External
Other Parts include:
Collimator and
Grid Bucky
X-ray Film
11. X-Ray Generator: High voltage generator:
modifies incoming voltage and current to
provide an x-ray tube with the power needed
to produce an x-ray beam of the desired
peak-kilo-voltage (k V p) and current (mA)
and duration (Time).
Control panel: Permits the selection of
technique factors and initiation of
radiographic exposures mA, kV, Time
Transformer: Transformers modify the
voltage of incoming alternating-current
(AC) electrical signals to increase or
decrease the voltage in a circuit.
12. …CONT
Step-up transformer: Supplies the high
voltage to the x-ray tube (voltage increases and
current decreases)
Step-down transformer: Supplies power to
heat the filament of the x-ray tube (voltage
decreases and current increases)
Autotransformer: Supplies the voltage for the
two circuits and provide a location for the K v
p meter (indicates the voltage applied across
the x-ray tube)
Rectifiers: Convert AC into the direct current
(DC) required by the x-ray tube. A rectifier
restricts current flow in an x-ray tube to one
direction (from cathode to anode), thereby
preventing damage to the x-ray tube filament.
Two types: Half wave and Full wave.
13. …CONT
X-RAY TUBE: It is an
expensive wearing
element in medical
radiological equipment.
It consists of :
Anode
Expansion bellows
(provide space for oil
to expand)
Cathode (and heating-
coil)
Tube envelope
(evacuated)
Tube housing
Cooling dielectric oil
Rotor
16. …CONT
High Tension Cable: Special highly insulated
cables Considered are the cable capacitance (130-
230 pF/m) because it affects the average value of
the voltage and current across the x-ray tube
(increases the power delivered to the tube.
Collimators and Grids: They are used to increase
the image contrast and to reduce the dose to the
patient by mean limiting the x-ray beam to the area
of interest.
Collimator: It is placed between the x-ray tube
and the patient and Usually provided with an
optical device, by which the x-ray filed can be
exactly simulated by a light filed.
Grid: It is inserted between the patient and the
film cassette in order to reduce the loss of contrast
due to scattered radiation.
17. …CONT
X-ray film: X-ray film is a sensitive material (sheet) for the x-ray. A
film that has been exposed to x-rays shows an image of the x-ray
intensity.
19. CONVENTIONAL X-RAY MACHINE:
A conventional system uses an intensifying
screen to create a latent image on x-ray film.
The film is then processed, creating a
manifest image that can be interpreted by a
physician. It is later stored in the file room.
20. LIMITATIONS
Conventional radiography (also known as screen film
radiography SFR) is still used more widely than digital
radiography but this dominance is fast dwindling. The
reasons behind the declining popularity of SFR are —
Diagnostic image quality is poor
Fixed non-linear Grey scale response
Limited potential for reducing dose to the patient
The images cannot be changed in contrast once they
have been processed
Film is expensive, uses hazardous materials for
processing
This method is labour intensive
Long term storage and retrieval of film is difficult
SFR is not compatible with the Picture Archiving And
Communication Systems (PACS)
21. DIGITAL RADIOGRAPHY
X-ray tube is coupled to a
specialized reciever that
changes x-rays into electrical
signals
Analog image is digitalized &
displayed on integrated
computer screen
Data is stored in magnetic
optical
discs(MODs),CDs,DVDs
ADVANTAGES :
No films are required
No screens are required
No processing is required
Brightness & contrast of images
22. Digital systems are traditionally split into two broadly defined
categories:
Direct radiography(DR)
Computed radiography (CR)
The detector classification is related with the conversion
process of X-ray energy to electric charge:
DR technology converts X-rays into electrical charges by
means of a direct readout process using thin-film transistor
(TFT) arrays
Concerning CR systems they use storage-phosphor image
plates with a separate image readout process, which means
an indirect conversion process
23. DIRECT RADIOGRAPHY
Referred to as “cassette-less” because the detector
is incorporated into the x-ray table or upright wall
unit
Equipment may be indirect or direct conversion
Images are ready for viewing within seconds
24.
25.
26. In a system of direct radiography, also called direct capture
radiography, the image receptor is composed of an array of
electronic sensors that respond to the radiation exiting the
patient. These sensors send that information in digital
format to a computer
29. COMPUTED RADIOGRAPHY
Image obtained using cassettes containing
photostimulable phosphor plates
CR systems equipment includes reader for image
processing
Note:
The phosphor plates used in computed radiography
are not as sensitive to light as x-ray, but are
extremely sensitive to scatter radiation.
34. VIEWING THE IMAGE
The computer-
processed image can
be viewed on a
computer monitor or
printed on film or
paper
For an image on a
screen to have the
quality approaching
that of a film image, a
special monitor must
be used with a
resolution of 1024 x
1024 pixels.
35. IMAGE PROCESSING AND POST-PROCESSING
Both allow image manipulation of :
Density
Structures demonstrated
Subtraction permits viewing of bone only or
tissues only
Contrast enhancement adjusts contrast from very
high to very low
41. DIGITAL IMAGING SYSTEM TECHNICAL
CONSIDERATIONS
Kilovoltage
May be slightly higher than that used for
conventional radiography
Centering
Body part of interest must be placed in or near
the center of the detector
Multiple exposures on one cassette
Although not recommended, if IR is divided for
two separate exposures, the portion not being
exposed must be covered with a lead shield
42. …CONT
Over- and underexposure
• Degree of image density is not an accurate
indicator of over- or underexposure
• Density may be indicated by a unique number
that correlates to the amount of exposure
Collimation
• Limit the field of radiation to the anatomy of
interest
• Inadequate collimation can result in
inappropriate contrast
43. …CONT
Open cassettes
An exposed IR begins to lose the image within
15 seconds of opening the IR
Grids
• Digital systems are more sensitive to scatter
radiation
• Use grids as appropriate
44. ADVANTAGES OF DIGITAL X-RAY MACHINES:
The appearance of digital images can be manipulated during and
after processing
PACS is a network used to manage the images obtained through
DR
Faster delivery of medical images to the clinicians that evaluate
and report on them. Resulting in faster availability of results
No lost or misplaced images, which means fewer patients being
postponed or cancelled for consultations or surgery while waiting
for new images
Flexible viewing with the ability to manipulate images on
screen,which means patients can be diagnosed more effectively
Instant access to previous images and patient records
Better collaboration, as PACS can be viewed from multiple
terminals and locations by a range of clinicians, allowing
discussion over diagnoses
Fewer unnecessary re-investigations, which will in turn reduce the
amount of radiation to which patients are exposed
No space needed for film storage
45. REFERENCES
Veterinary radiology by A.P Singh and Jit Singh, 2009
Selman, J. The Fundamentals of X-Ray and Radium
Physics, 8th Edition, Charles Thomas, 1994
Internet :
• faculty.mu.edu.sa
• www.pubmed.org
• www.plmer.edu
• www.radiology.org
Pictures :
www.hulenhills.com
www.redwingbooks.com