Ultrasound: Probe orientation: Difference between revisions
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== | ==Transducers== | ||
*Increasing frequency improves resolution but decreases penetration | |||
**Low-frequency transducer''s: deep structures | |||
**High-frequency transducers''': superficial structures | |||
===Transducer types=== | |||
*Curvilinear: large “footprint”, best resolution centralized | |||
*Use for abdominal, FAST exam | |||
*Phased array: all waves originate from a single point. used to view deep structures. | |||
**Use for smaller spaces (between ribs, to look at lungs, heart, etc.) | |||
**Use if available for Cardiac | |||
*Linear: no array of waves, waves are spread out evenly. used to view superficial structures | |||
**Use for soft tissue, vascular access, musculoskeletal, lungs | |||
===Frequency=== | |||
*Each transducer has a range of frequencies. You can select higher or lower frequency for each probe | |||
on the ultrasound machine. | |||
*RES = Resolution = Highest end of the probe’s frequency range | |||
**Better Picture, lower penetration | |||
*PEN = Penetration = Lowest end of the probe’s frequency range | |||
**Higher penetration, worse picture | |||
*GEN = General = Middle of the probe’s frequency range | |||
===Transducer indicator and orientation=== | |||
*Sagittal: indicator to patient’s head. Probe placed vertically along body to create a sagittal view with probe marker pointing to patient's head<br /> | |||
*Transverse: indicator to patient’s right. Probe placed across body right to left to create an axial view with probe marker pointing to patient's right<br /> | |||
*Coronal: indicator to patient’s head, but probe on lateral side of body. Top of screen is lateral, bottom is medial<br /> | |||
==Artifacts== | |||
''Images on ultrasound that ARE NOT REAL.'' | |||
*High-attenuation: Objects decrease the sound wave | |||
**A shadow results behind a high-attenuating object.This makes the objects behind less visible | |||
*Low-attenuation: sound passes through object very easily. | |||
**Low-attenuating tissue causes everything behind it to appear HYPERechoic or more visible<br /> | |||
*Mirror image: sound bounces off diaphragm, returning to trasnducer with a longer time of flight. Machine interprets this as more liver tissue across the diaphragm. A mirror image of the liver or spleen across the diaphragm is normal | |||
==See Also== | ==See Also== | ||
Latest revision as of 12:51, 24 September 2017
Transducers
- Increasing frequency improves resolution but decreases penetration
- Low-frequency transducers: deep structures
- High-frequency transducers: superficial structures
Transducer types
- Curvilinear: large “footprint”, best resolution centralized
- Use for abdominal, FAST exam
- Phased array: all waves originate from a single point. used to view deep structures.
- Use for smaller spaces (between ribs, to look at lungs, heart, etc.)
- Use if available for Cardiac
- Linear: no array of waves, waves are spread out evenly. used to view superficial structures
- Use for soft tissue, vascular access, musculoskeletal, lungs
Frequency
- Each transducer has a range of frequencies. You can select higher or lower frequency for each probe
on the ultrasound machine.
- RES = Resolution = Highest end of the probe’s frequency range
- Better Picture, lower penetration
- PEN = Penetration = Lowest end of the probe’s frequency range
- Higher penetration, worse picture
- GEN = General = Middle of the probe’s frequency range
Transducer indicator and orientation
- Sagittal: indicator to patient’s head. Probe placed vertically along body to create a sagittal view with probe marker pointing to patient's head
- Transverse: indicator to patient’s right. Probe placed across body right to left to create an axial view with probe marker pointing to patient's right
- Coronal: indicator to patient’s head, but probe on lateral side of body. Top of screen is lateral, bottom is medial
Artifacts
Images on ultrasound that ARE NOT REAL.
- High-attenuation: Objects decrease the sound wave
- A shadow results behind a high-attenuating object.This makes the objects behind less visible
- Low-attenuation: sound passes through object very easily.
- Low-attenuating tissue causes everything behind it to appear HYPERechoic or more visible
- Low-attenuating tissue causes everything behind it to appear HYPERechoic or more visible
- Mirror image: sound bounces off diaphragm, returning to trasnducer with a longer time of flight. Machine interprets this as more liver tissue across the diaphragm. A mirror image of the liver or spleen across the diaphragm is normal