this presentation includes the basic information about the uses of x-ray in medical field.

1. -Aurodeep Dasgupta
B.P.T. 4th Year
B.I.M.L.S.
Burdwan

2.  X-radiations (or x-rays) is a form of electromagnetic radiations.
Most x-rays have a wavelength of 0.01-10 nanometeres,
corresponding frequencies in the range of 30 petahertz(3X10¹⁶
Hz) to 30 exahertz(3*X10¹⁹Hz) and energies in the range of
100eV to 100 keV.
 It was invented by a German physicist Wilhelm Röntgen in
1895. He named it X-Radiations to signify an unknown type of
radiation.
 It is an important diagnostic tool for medical conditions like bone
fractures, pulmonary tuberculosis, etc.

4. The first x-ray image obtained was of the hands of
Wilhelm Rontgen’s wife, taken on 22nd December,1895.

5.  X-Ray photons carry enough energy to ionize
atoms and disrupt the molecular bonds. This
makes it a type of ionizing radiation.
 This ionizing property is used to kill the
malignant cells by radiotherapy.
 It is absorbed by solid/radio-opaque
substances like bones & metals.

7.  X-rays interact with matter in three main ways,
through photo-absorption, Compton scattering,
and Rayleigh scattering. The strength of these
interactions depend on the energy of the X-Rays
and the elemental composition of the material, but
not much on chemical properties since the X-Ray
photon energy is much higher than chemical
binding energies. Photo-absorption or
photoelectric absorption is the dominant
interaction mechanism in the soft X-ray regime
and for the lower hard X-ray energies. At higher
energies, Compton scattering dominates.

8.  Based on the energy of the radiations, x-rays
have wide range of uses like in the medical
field, industrial work places, security purposes
etc.
 Used in X-Ray scanners.
 X-Ray crystallography.
 Industrial radiography and CT scanning.
 X-Rays has an immense role in the medical
field – diagnostic as well as therapeutic.

9.  Diagnostic Uses-
X-ray is the most preferred tool for detecting
any bone related problem, such as fracture,
tumor, degenerations. It is also used detect
other cases like pulmonary tuberculosis, lung
abcess, etc.
 Therapeutic Uses-
It is used in cancer treatment to kill malignant
cells.

14.  It is a device that let us have an eye on the
amount of exposure of X-radiations to the
technician, thus enabling us to reduce the
hazardous effect of the radiation on the human
tissues.

15.  Helps confirm the clinical diagnosis.
 Helps study the fracture anatomy.
 Helps study the fracture displacement.
 Helps to detect crack and stress fractures.
 Helps to plan the treatment.
 Helps to detect fracture dislocation
combination, e.g. Monteggia fracture.
 Helps to ascertain post-reduction status of
fractures.
 Helps in medico legal studies.

16.  Before asking for an x-ray, the following points
should be kept in mind-
 Both, AP and lateral views should be taken in most
of the cases.
 Special views in some cases show the fracture better.
 X-ray requisition must specify the area of
suspension.
 X-ray of the pelvis with both hips should be asked
for in all cases of suspected pelvic injury.
 For an x-ray evaluation of the hands and feet, antero-
lateral and oblique views (not lateral) are required.

17.  Better no X-Ray than one view X-Ray.
 X-Ray is a shadow, it conceals and distorts. Hence
interpret X-Ray with caution.
 A joint above and joint below should be included with
the fracture under study.
 The fracture should in the middle of the film.
 Exposure should be adequate and the soft tissue
shadow be delineated properly.
 X-Ray should be read by holding the film in an
anatomical position.
 Avoid unnecessary X-Rays.
 Check X-Rays are to be taken without disturbing the
plaster cast.

18.  Most of the time, the body part that is to be
seen under X-Ray is to be exposed properly, i.e.
the cloth over it should be removed.
 Any accessory or jewellery on the focused part
should be removed.
 Patient needs to be calm and maintain the
posture which is instructed to him/her.
 Patient needs to follow the given instructions
strictly.

19.  Antero-posterior view: The X-Ray beam is
exposed from the anterior side of the body
part. The beam casts a shadow on the X-Ray
plate that is kept behind the body part.

20.  Lateral view: The X-Ray beam is exposed from
the lateral aspect of the body part.

21.  Oblique View: In this view, the X-Ray beam is
exposed from a plane which is oblique to the
body part on which the X-Ray beam is focused.

23.  Oblique view wrist is done to detect Scaphoid
fracture. The X-Ray beam is given in a plain
perpendicular to a plain which is slightly
slanting.

24.  Judet view to detect Acetabular fracture. It is a
modification of oblique view of the hip. Here
the patient’s trunk is rotated to contra-lateral
side in relation to the hip whose image is being
taken.

25.  Merchant view is done for patello-femoral
joint. It is taken is such a way that only the
image of the patella is obtained. The procedure
is given the pictures below.

26.  Skyline view for Calcaneum fracture. It is
taken by the same principle as the Merchant
view of patella. The X-Ray beam is directed
obliquely , so that it only casts a shadow of
calcaneum on the film.

27.  ‘Y’ view for scapula. It is taken
perpendicularly to scapular plain from the
lateral aspect. The X-Ray image looks like the
one given below.

28.  Dunn view is an antero-posterior view of the
hip with the patient supine and the hips and
knees flexed at 90˚, the legs abducted 15˚ -20˚,
and the femur in the neutral rotation.

29.  Modified Dunn view is the slight modification
of the Dunn view, where the hip is flexed to
45˚.
 Dunn view and modified Dunn view is mainly
to see the asphericity of the femoral head,
which is the cause of premature arthritis.

30.  Cross table lateral view is the lateral projection
radiography of a supine subject using a
horizontal X-Ray beam.
 Mainly used to detect neonatal pneumo-thorax,
hair-line fracture in the neck of the femur.

31.  An x-ray view box should be used in all cases. If a
fracture is obvious, one must make note of the
following points-
 Which bone is affected?
 Which part of the bone is affected? E.g., shaft etc.
 At what level is the fracture? i.e., whether the fracture
is in the upper, middle, or lower third.
 What is the pattern of the fracture?
 Is the fracture displaced?
 Is the fracture extended to nearby joints?
 Does the underlying bone appear pathological? E.g., a
cyst, abnormal texture of the whole bone, etc.
 Is it a fresh or an old fracture?

32. Shaft ulna fracture

33. Osteo-arthritis knee

34. Crush injury of left
foot

35. Scoliosis

36. Thoracic kyphosis

37. Postero-lateral subluxation of knee

38. Lobectomy

39. Callous formed at fracture site

40. Fracture both bone of forearm

41.  Diagnostic X-Rays increase the risk of
developmental problems and cancer in those
exposed cells. X-Rays are classified as a carcinogen
by both World Health Organisation’s International
Agency for Research on Cancer and the U.S.
government.
 It is estimated that 0.4% of current cancer cases in
the United States are due to diagnostic X-Rays and
CT Scans.
 That’s why when it comes to perform an X-Ray on
a pregnant woman, proper assessment of benefit
versus risk is done.

42.  Essential Orthopaedics
 wikipedia
 wikiRadiography