Basic Radiology PDF

Summary

This document is a presentation on basic radiology, covering medical physics, different imaging modalities like x-rays, MRI, CT, and ultrasound. It includes foundational information, key definitions and the history of this field.

Full Transcript

Basic
Radiology
By. Tsegaye K.
(MRT)
 Content’s
Introduction of medical physics
Sub-types of radiological physics
Introduction of radiology
Types of imaging modalities
Radiological Physics
1.1 What is Medical physics?
Is branch of physics concerned with the application
of medicine, it deals mainly the use of ionizing
radiation and non-ionizing radiation in diagnosis
and treatment of human disease
Other application of physics to medicine
There are four important sub-specialties in medical
physics
Cont..
A. Diagnostic radiology physics
B. Nuclear medicine physics
C. Radiation oncology physics
D. Health physics
Diagnostic Radiology physics
-concerned with the application of physical energy to
the diagnosis and treatment of human disease
-medical diagnostic imaging instruments include
x-ray, MRI, CT scan, ultrasound.
Definition of Radiology
 Radiology is a medical specialty using medical
imaging technologist to diagnose and treatment of
patients.
Medical imaging
Radiology department
Radiographer
Radiography Technologist
Radiologist
What is radiation
Radiation can be thought of as the transmission of
energy through space
Classification of radiation
A. ionizing radiation
B. Non-ionizing radiation
Both forms can interact with matter and transfer
their energy to the matter
Cont.
 Radiology Modalities
A. Conventional radiographs (“x-rays”)
Fluoroscopy
Mammography
B. Computed Tomography= (CT scan)
C. Nuclear Medicine =(NM)
D. Ultrasound= (US)
E. Magnetic resonance imaging =(MRI)
A. Conventional Radiograph
Conventional radiograph ( X-Rays) = an x-ray is
beam generated and passed through a patient to a
piece of film or radiation detector producing an
image.
Wilhelm Conrad Röntgen. While working with a Crookes tube, a plate of
Barium Platino-Cyanide (fluorescent crystals) on a table six feet away in his
workroom glowed when he activated the tube. Even after covering the tube
with black cardboard it kept glowing. He concluded that a new type of ray
emitted from the tube, passed through the covering, and casted shadows of
solid objects. The rays passes through most substances, including the soft
tissues of the body, but left the bones and most metals visible. One of his
earliest photographic plate from his experiments was a film of his wife,
Bertha's hand with a ring, was produced on Friday, November 8, 1895
The news of Roentgen’s discovery spread quickly
throughout the world. Scientists everywhere could
duplicate his experiment because the cathode tube was
very well known during this period. In early 1896, X-rays
were being utilized clinically in the United States for such
things as bone fractures and gun shot wounds.

Internal structures of the body could be made
visible without the necessity of surgery.
What are x-rays?
No mass
No charge
Energy

X-rays are a type
of electromagnetic
energy
How do x-rays passing through the body create an
image?

X-rays that pass through the body render the image
dark (black)
X-rays that are totally blocked render the image
light (white)
Air = low atomic # = x-rays get through = image is
dark (black)
Metal = high atomic # = x-rays blocked = image is
light (white)
5 Basic Radiographic Densities
1.
1. Metal
2.Fat
4.
3. Bone /mineral
4. Air
5. Soft tissue/fluid 2. 5.

3.

Name these radiographic densities.
X-rays characteristics
Highly penetrating, invisible rays
Electrically neutral
Travel in straight lines.
Travel with the speed of light in vaccum:
300, 000 km/sec or 186, 400 miles/sec.
Ionize matter by removing orbital electrons
Induce fluorescense in some substances. Fluorescent screen glow after being
stricken with photons.
Can't be focused by lenses nor by collimators.
CONVENTIONAL RADIOGRAPHY

PRODUCES STATIC IMAGES
FLUOROSCOPE WAS INVENTED BY THOMAS
EDISON
Radiology Modalities
Fluoroscopy
“Live” imaging
Contrast agents often given
Fluoroscopy - is an imaging technique commonly used by
physicians to obtain real-time moving images of the internal
structures of a patient through the use of a fluoroscope.
In its simplest form, a fluoroscope consists of an x-ray source
and fluorescent screen between which a patient is placed.
However, modern fluoroscopes couple the screen to an x-ray
image intensifier and video camera allowing the images to be
recorded and played on a monitor.
 X-rays are highly penetrative rays that can ionize matter by
removing electrons from the atoms. Are they harmful? Yes, they
are. Nevertheless, radiography is considered a safe profession?
Despite the fact that x-rays are harmful radiography is considered a
safe profession. In order to understand this we must explain
principles of the ALARA( as low as reasonable achievable) concept
Personnel protection
Time=minimized
Distance =maximized
Shielding=apply i.e gonad, thyroid , eye google
Mammography
Mammography is the radiographic examination of
the breast tissue (soft tissue examination).
Used for screening procedure for asymptomatic
women
Known history or suspected abnormality for
symptomatic women
Uses low amount of radiation
Cont..
Breast or mammary gland

Location
Composition of breast
Size and shape d/t
Factors influence the development of breast cancer
29
X-ray equipment
31
32
Advantages of CT, MRI and Ultrasound

These modalities are cross sectional imaging

Cross sections are like slices

X-ray studies are a 2 dimensional representation of
3 dimensional structures can result in undesirable
overlapping densities and artifacts
 CT(computed Tomography)

Advantages Disadvantages
Eliminates overlapping More expensive than x-
densities ray and ultrasound
Excellent resolution Much more radiation
Excellent for detecting Metal cause severe
intracranial bleeding artifacts
Excellent for evaluating
fractures
7/27/2024 36
Cont..
Computed Tomography
Lingo:
Attenuation
Density
Enhancement

Hounsfield Units
-1000 air ***
-100 fat
0 water ***
20-80 soft tissues
100’s bone/Ca/contrast
>1000’s metal

Large radiation dose
Magnetic Resonance Imaging(MRI)
MRI
Lingo:
Signal intensity
T1
T2
Enhancement

No radiation
Strong magnetic field
No pacemakers
No electronic implants

Small, loud tube and patients must be able to
hold still
Relatively expensive
 Main MRI Components
Console

Electronics

Magnetics
40
Cot..
Key features biologically relevant element
candidates for producing MRI images include
Influence of external magnetic field …
Cont…

42
Cont..
 Contrast administration
NB.
contrast media- a substance administered to enhance
the visibility of structures (increasing the contrast)
MRI
Advantages Disadvantages
No overlapping artifact Very expensive
Excellent resolution Patients cannot have a
Very good at detecting pacemaker or
fluid ferromagnetic material
Excellent for imaging Slower to acquire
the brain, spine and images
joints (approximately 45
No radiation minutes)
Multiple imaging tests
within the same study
(T1, T2, IR, GE)
Ultrasound ( US )
Ultrasound
Lingo
Echogenicity
Shadowing
Doppler for flow

No radiation
Can be portable
Relatively inexpensive
Ultrasound
Advantages Disadvantages
No radiation Does not work well in large or obese
Portable patients
Instantaneous (real time) Resolution less than CT and MRI
Excellent for cysts and fluid Air or bowel gas prevents visualization
of structures
Doppler ultrasound is excellent to
assess blood flow
Excellent for newborn brain, thyroid,
gall bladder, female pelvis, scrotum,
pregnancy
Ultrasound terms
Echogenicity
Anechoic
Hypoechoic
Hyperechoic
Isoechoic
Ultrasound of the
gall bladder showing
a gall stone
X-rays, CT, MRI and ultrasound help us see into the body

Internal body structures are composed of varied
material (fat, muscle, bone, gland) or contain air,
water or minerals that “show up” differently on
each type of imaging test.

Each modality has its own advantages allowing us
the choose the best one for each medical
circumstance.
What an excellent medical student at your level
can do:

Be able to describe how x-rays can create an image
of internal body structures
Recognize and label the 5 basic densities on an x-
ray
Be familiar with the advantages for CT, for MRI and
for ultrasound
10 Q