[23-24] Introduction to Radiology.pdf

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Dr Joshua Lauder, Consultant Radiologist
Learning objectives
 What is radiology?
 Why do I have to know about it?

 Radiology modalities
 Xray
 CT
 Nuclear medicine
 Ultrasound
 MRI
 Post DICOM
What is radiology?
‘Using technology to see living anatomy’
 Diagnostic

Interventional
Why do I need to know radiology?
Why do I need to know radiology?
2021-22
43.3 million imaging tests
 21 million Xrays,
 10 million Ultrasounds
 6.6 million CT Scans
 3.7 million MRI Scans
 Radiology modalities

Xray

Ultrasound

CT

MRI
Nuclear
medicine
Xrays
Xray
Ionizing radiation?
 Xray
Advantages Disadvantages

Quick
Ionizing radiation
Available
Poor soft tissue detail
Good bone detail 2D representation of
3D structures
Good lung detail
Sir Godfrey Houndsfield 1919 - 2004
CT Concepts
1. Anatomical planes
2. Orientation
3. Density (Hounsfield units)
4. Windowing
5. Contrast
1. Anatomical planes
2. Orientation
2. Orientation
1+2 Anatomical plane orientation
3. Density
3. Density (Hounsfield Units)
3. Density
Fat
-80

Air
-1000
Contrast
+300

Bone Muscle
+500 +50
4. Windowing
4. Windowing
 4. Windowing

Soft tissue window Lung window Bone window
5. Contrast
5. Contrast
 CT
Advantages Disadvantages

Still quick

3D view Ionizing radiation +++

Can see vascular Can’t see spinal cord
structures (with
contrast) Less detail in the brain

Poor tendon/ligament detail
Nuclear medicine

Xray Nuclear medicine
Nuclear medicine
Nuclear medicine

 V/Q
 Bone
 PET
 Nuclear medicine

Advantages Disadvantages

Provides functional
information, depending
on pharmacokinetics of
the radioactive isotope Ionizing radiation ++

Poor anatomical detail
Radiation Dose

2.2 mSv one year
background

7 mSv in Cornwall
 Radiation Dose (2.2 mSv one year background)

Chest X-ray 0.04 mSv (1 week)

CT Chest, abdomen and pelvis 8 mSv (4 years)

Fatal cancer risk* maybe
1 in 20,000 per mSv
Ultrasound
Ultrasound

0.001 0.0001

1 000 000 10 000 000

Ultrasound starts at 2MHz
How ultrasound works
 Piezoelectric effect
How ultrasound works
How ultrasound works
How ultrasound works
Echogenicity

Reflected
Transmitted
Inbetween
Echogenicity

Reflected
Transmitted
Inbetween
Echogenicity

Reflected
Transmitted
Inbetween
Echogenicity

Reflected
Transmitted
Inbetween
Echogenicity

Anechoic

Hypoechoic

Isoechoic

Hyperechoic
Echogenicity
 Which renal lesion is a tumour?
Ultrasound attenuation

High frequency Low frequency
Ultrasound guided procedures
 Ultrasound

Advantages Disadvantages

Quick
Available
No radiation Operator dependent
Repeatable
Excellent soft tissue Can’t see through bone
resolution
Can see blood flow Can’t see through air
MRI
 Magnetic resonance imaging

 NMR – nuclear magnetic resonance
No ionizing radiation

Magnets
Radiowaves
MRI CT
Xray CT MRI
Neuro imaging
Musculoskeletal imaging
 MRI

Advantages Disadvantages

Excellent soft tissue Slow - artefacts
detail
Contraindications
Fluid sensitive (can see
oedema) Claustrophobic
Bony detail not as good as
No ionizing radiation
xray or CT
 Radiology modalities

Xray

Ultrasound

CT

MRI
Nuclear
medicine
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