Applications of Ultrasound in Medicine
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Transcript of Applications of Ultrasound in Medicine
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Applications Of
Ultrasound In Medicine
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What is Sound ?• Mechanical and Longitudinal waves wave
that can transfer a distance using a media. • Cannot travel through Vacuum.
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What is Ultrasound?•Ultrasound is a mechanical, longitudinal wave with a frequency exceeding the upper limit of human hearing, which is 20,000 Hz or 20 kHz.• Typically at 2 – 20 Mhz. • Average speed of ultrasound in body is 1540m/sec
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Basic Ultrasound Physics
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VelocityNear Field Imaging Far Field Imaging
Tissues closer appear on top and faster the waves return
Tissues further appear at the bottom & slower the waves
return
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Frequency• Number of cycles per second• Units are Hertz• Ultrasound imaging frequency
range 2-20Mhz
Higher the freq Lower the penetration and Higher the resolution
Low the freq higher the penetration and lower the resolution
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How Ultrasoun
d Works ???
?
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Piezoelectric Effect of Ultrasound
1. Electrical Energy converted to Sound waves
2. The Sound waves are reflected by tissues
3. Reflected Sound waves are converted to electrical signals and later to Image
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Pulse-Echo Method
• Ultrasound transducer produces“pulses” of ultrasound waves• These waves travel within the body and
interact with various tissues
• The reflected waves return to the transducer and are processed by the ultrasound machine
• An image which represents these reflections is formed on the monitor
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Interactions of Ultrasound with tissue
• Reflection• Transmission• Attenuation• Scattering
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Reflection• Occurs at a boundary between 2 adjacent
tissues or media• The amount of reflection depends on
differences in acoustic impedance (z) between media
• The ultrasound image is formed from reflected echoes
Z = Density x Velocity
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Scattering• Redirection of sound in several directions• Caused by interaction with small reflector or
rough surface• Only portion of sound wave returns to
transducer
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• Not all the sound wave is reflected, some continues deeper into the body
• These waves will reflect from deeper tissue structures
Transducer
Transmission
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• The deeper the wave travels in the body, the weaker it becomes
• The amplitude of the wave decreases with increasing depth
Attenuation
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Attenuation
High Freq
The
Long
er it
trav
els t
he m
ore
less
Res
oluti
on
Low Freq
Absorption
Reflection
The
Sign
al b
ehin
d th
e bo
ne is
An
e-ec
hoic
Attenuation Co-efficient
•Gas | Fluid – Low AC – allow Wave to pass•Bones – High AC – will block
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Echogenicity (caused by Reflection)
Ane-Echoic Hypeo-Echoic Hyper-Echoic
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Time Gain Compensation (Post Processing)
• The Returned signal is amplified for better imaging at depths. TGC too low far
fieldTGC corrected
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Ultrasound - Internals
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Probes
Phased Array or Cardiac
Linear or
Vascular
Curvilinear or Abdomen
Range is ideal to switch between General, High and low Resolution
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Imaging Planes• Transverse or Axial
• Longitudinal or Saggital
• Coronal
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Basic Doppler Principles
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The Doppler Effect• Apparent change in received frequency due to
a relative motion between a sound source and sound receiver– Sound TOWARD receiver = frequency
– Sound AWAY from receiver = frequency
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The Direction of Flow
ø
< 60 degreesø
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The Direction of Flow
Cos 90 = øno Doppler shift
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The Direction of Flow
ø
Cos 60 = 1
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