US: QA and Safety Flashcards

1
Q

What are the measured parameters in a basic ultrasound QA test?

A

Spatial properties - resolution in axial lateral and slice thickness.
Amplitude properties - penetration, noise, dynamic range, contrast resolution
Temporal properties - The ability to image rapidly moving targets.
Accuracy of measurement tools - callipers etc.

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2
Q

What are the properties of an ultrasound phantom?

A

C = 1540m/s
Attenuation = 0.5-0.7dB/cm/MHz
Scattering Coeffieicnt Nonlinearity Parameter (B/A) = 4-12
Similar elasticity and thermal propoerites to skin.
Contains traget - wires cysts contrast agents
Self contianed housing

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3
Q

What is the “break point” temperature for thermal heating in vivo?

A

43 degrees C

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4
Q

Under the “break point” temperature what is the equation for the time taken for damage to occur?

A

t = 4^(43-T)
t is the time in minutes
T is the temperature of the tissue.

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5
Q

Over the “break point” temperature what is the equation for the time taken for damage to occur?

A

t = 2^(43-T)
t is the time in minutes
T is the temperature of the tissue.

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6
Q

What does the Thermal Index (TI) on an ultrasound scanner show?

A

The TI gives a rough estimate of the worst possible case of temperature rise.

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7
Q

What does the Mechanical Index (MI) on an ultrasound scanner show?

A

The MI is a value related to the likelihood of non-thermal bioeffects like damage due to bubbles and gas bodies.

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8
Q

How is the Thermal Index (TI) defined?

A

TI = W(0)/W(deg)
W(0) is the time-averaged acoustic power emitted by the transducer
W(deg) is the estimated power required to produce a 1deg temperature rise.

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9
Q

What are the three types of Thermal Index (TI) and when are they used?

A

TIS - soft tissue (no bone nearby, 1st trimester)
TIB - bone at focus (2nd and 3rd trimesters)
TIC - cranial bone (scanning of non-fetal head)

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10
Q

What does the Thermal Index (TI) depend on?

A

W(0) - the time-averaged acoustic power emitted by the transducer
I(ta) - the time-averaged intensity of the scanner.

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11
Q

How is W(0) measured?

A

Using a radiation force balance.

F=W(0)/c

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12
Q

How is I(ta) measured?

A

Axial I(ta) profiles can be obtained by hydrophone scanning.

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13
Q

How is the Mechanical Index (MI) defined?

A

MI= p(-)/(f(c)^0.5)
p(-) is the peak rarefactional pressure (MPa) measured at the focus of the beam and derated at 0.3bB/cm/MHz
f(c) is the centre frequency (MHz)

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14
Q

What is the threshold for internal cavitation of bubbles in water?

A

MI > 0.7.

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15
Q

What is the limit set by the FDA for MI for ophthalmology?

A

MI = 0.23

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16
Q

What is the limit set by the FDA for TI for ophthalmology?

A

TI = 1.0

17
Q

What is the limit set by the FDA for MI for non-ophthalmic ultrasound?

A

MI = 1.9

18
Q

What is the limit set by the FDA for TI for non-ophthalmic ultrasound?

A

TI = 6.0

19
Q

What is the equation for the initial heating pattern from an ultrasound transducer?

A

H = 2af(c)*I(ta)

I(ta) is the in situ (assumed as derated) time averaged intensity.

20
Q

What does the TI not take into account?

A

Self-heating of the transducer
Non-linear distortion
Long fluid path in the first trimester

21
Q

What controls won’t affect the TI and MI?

A
Monitor brightness
TGC
Tint
Maps
Auto-Optimise
Dynamic Range
Edge
2D gain
Speckle reduction
22
Q

What controls will affect the TI and MI?

A
Transmit power
Space-Time (res-speed)
Depth
Focus
Harmonics
Zoom (when live)
Frequency
Compound imaging
Freeze
23
Q

How is ALARA practised in ultrasound imaging?

A

Transmit power kept as low as reasonably achievable
Freeze control used to limit exposure duration
Clinical applications specialist to set up scanner presets