Conventional Radiological Techniques Equipment PDF

Summary

This document provides a detailed overview of conventional radiological techniques equipment, including the history, properties, parts, and different types of X-ray machines. It also covers fluoroscopy and bone density scans.

Full Transcript

‫جامعة العين‬
‫كلية التقنيات الصحية والطبية‬
‫قسم تقنيات االشعة والسونار‬

conventional Radiological techniques Equipment

Dr. Hussein A.Dakhild
Ph.D. Medical Imaging Technology
History of X-ray

The concept of medical imaging began in 1895 with the invention of the x-ray by a German professor of
physics, Wilhelm Rontgen.

In the early 1900’s it was discovered that by using pharmaceutical contrast agents it would be possible to
see organs and blood vessels.

In the 1950’s nuclear medicine started to utilized as a way to diagnose pathology in the body.

During the 1960’s sonar was beginning to be used after having been used for many years as a war time tool
to detect enemy ships during World War Two.

In the 1970’s Computed Tomography (CT scan) was developed.

Also in the 1970’s the technology of MRI was developed which works on the principle of nuclear magnetic
relaxation times.
X-Rays properties They have a shorter
wavelength of the
electromagnetic
spectrum.

They are capable of Requires high voltage to
travelling in a vacuum. produce X-Rays.

They travel in a straight
They are used to
line and do not carry an
capture the human
electric charge with
skeleton defects.
them.
X-ray Machine parts

The main
components:
X-Ray Tube:
Operating Console:
High Frequency
Generator:

The secondary
components:
Collimator:
Grid:
X-Ray Film:
The main
components:

X-Ray Tube:
Include cathode
(electron
source), anode
(target), vacuum
and glass tube.
The main
components:

Operating Console:
Allows the radiologic
technologist to
control the x-ray tube
current and voltage so
that the useful x-ray
beam is of proper
quantity and quality.
The main
components:

High Frequency
Generator: A high
frequency generator
powers the x-ray tube,
high frequency
generator are used for
x-ray because operate
on single phase and give
less voltage ripples.
The secondary
components:

Collimator: is a device
used to minimize the field
of view. Lead shutter are
used to restrict the beam.
Collimator is attached to
the x-ray below the glass
window where the useful
beams are emitted.
The secondary
components:

Grid: similar to
collimator except they
have different positions.
Placed right after the
patient. Use to filter
the deflected ray that
can block the image
that produced by the
device.
The secondary
components:

X-Ray Film: It turn
black when the x-ray
interact with it and
stay white where the
x-ray are absorbed,
that causes an image
to be formed in black,
greys and white.
 types of X-ray machines according to
movement:

Although there is an
extensive range of
machines of different
Portable X-ray Mobile X-ray
size, power and Fixed X-ray machines,
machines and machines.
manufacture, they may
be divided into three
main groups. They are:
 Fixed X-ray
machines:

Fixed X-ray machines require
transformers of such size and
output that they have to be
built into the room and
provided with special electrical
connections to the mains.

The cost of such apparatus
normally restricts the
equipment’s usage to teaching
schools and research institutes.
 Portable X-ray
machines:

In Portable X-ray machines, the transformers
are of small size and low weight. Portable x-
ray machines can be the easiest to operate
amongst all X-ray machines. Known for their
intuitive and effectual design, Portable X-ray
machines can also interface well with other
technologies. High-quality images taken on
these machines can be transferred instantly to
the laptop which, in turn, can be sent to a
medical facility. These functionalities can help
cutting down on the time and expenses
incurred by dark rooms and emergency
vehicles.

The maximum output of a Portable X-ray
machine varies from 70-110 kv and 15-35
mA.
 Mobile X-ray
machines:

Mobile X-ray machines have a higher
output than portable x-ray machines
owing to their larger transformers and
are mounted on wheels with output of
90-125kv and 40 to 300mA. Most mobile
x-ray machines are movable and
convenient on the smooth surfaces
within the radiology section.

These machines can be moved over level
surfaces and, in most instances, operated
from 13-15 A sockets.
Fluoroscopy:

Fluoroscopy: is a study
of moving body
structures. A continuous
X-ray beam is passed
through the body part
being examined. The
beam is transmitted to a
TV-like monitor so that
the body part and its
motion can be seen in Fluoroscopy, as an imaging tool, enables physicians and technologist
detail. to look at many body systems, including the skeletal, digestive,
urinary, respiratory, and reproductive systems.
Fluoroscopy is similar to radiography and X-ray computed tomography (X-ray , CT) in that it
generates images using X-rays.

The original difference was that radiography fixed still images on film whereas fluoroscopy
provided live moving pictures that were not stored.
 Fluoroscopy uses:
A radiologist can use barium to check the functions of the stomach, the small and large intestines, colon and
rectum. Since X-rays often shoot completely through these soft tissues, barium adds density to these anatomies
so that they can be monitored.

During a swallow study, a speech language pathologist can use fluoroscopy to see if food is going to the right
place when swallowed.They can also check to see if parts of the patients mouth and throat are working properly.

In cardiac procedures, dye can be injected into the coronary arteries to show blood flow or to investigate
potential blockages. Catheters may be placed more easily due to fluoroscopic guidance.

Several spine and joint injections can accurately be made using fluoroscopy after dye is injected.These injections
can be both diagnostic, to see if there is a greater underlying pathology, or therapeutic, sometimes providing full
relief for an extended period of time.
 C- arm X ray

C- arm or C-shaped arm used
to connect the x-ray source and
x-ray detector to one another.

C-arms have radiographic
capabilities, though they are
used primarily for fluoroscopic
intraoperative imaging during
surgical, orthopaedic, and
emergency care procedures.
OPG X-Ray

OPG
(Orthopantomogram) : is
a scan that gives a view of
jaw and teeth.

The scan can provide
information on teeth, bone
loss, mandible trauma,
dental pain, or be used as
part of a general dental
check-up.
Dental X-rays
Dental X-rays (radiographs)
are images of your teeth that
your dentist uses to evaluate
your oral health.

These X-rays are used with
low levels of radiation to
capture images of your teeth
and gums.

This can help your dentist to
identify problems, like cavities,
tooth decay, and impacted
teeth.
Mammography

Is a specific type of
breast imaging that
uses low-dose x-
rays. The machine
has 2 plates that
compress or flatten
the breast to spread
the tissue apart.
 bone density scan

also known as bone densitometry
or dual-energy x-ray
absorptiometry (DXA or DEXA
scan), is a medical test that
measures the density of bones. It
is primarily used to assess bone
health and diagnose conditions
such as osteoporosis, which is a
condition characterized by
weakened bones that are more
prone to fractures.