Speckle Reduction Imaging II (SRI)
SRI is an adaptive, real-time software algorithm that reduces the speckle artifacts
inherent in ultrasound imaging. As a result, you obtain images with suppressed
speckle artifacts where no borders or edges are present, and preserved borders
where echogenicity differences occur. Get enhanced visibility of existing features
without reduction or elimination of any relevant information.
SRI enhances detail resolution, helping in early gestation evaluations. |
In Gynecology applications, SRI helps to enhance uterine lesions and endometrial borders. |
SRI improves overall contrast,making it ideally suited for assessment of fetal organs.
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CrossXBeam CRI™ (CRI)
CRI is a real-time spatial compounding technique that results in enhanced border
definition and layers, reduced acoustic artifact and improved contrast resolution in a
variety of imaging conditions. GE’s Voluson 730 acquires images in up to eleven different
beam steering directions and combines them to enhance physiological features.
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CRI increases lesion border definition and reduces shadowing, a must for breast diagnosis. |
CRI reduces shadowing of bony structures to increase diagnostic confidence, such as ruling out cleft palate. |
Combined with SRI, CRI provides for improved visualization in determining the absence or presence of nasal bone. |
HD-Flow ™
HD-Flow is a bi-directional power Doppler technique that delivers high-definition axial
resolution and increased sensitivity for imaging small vessels. In addition, it reduces
spatial overlap of tissue signals by application of small sample volumes and provides
optimal clutter elimination with adaptive wall filtering.
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HD-Flow is ideal for visualizing the miniature vasculatization found in the fetal lung. |
See clear differentiation between the vessels of the umbilical cord using HD-Flow. |
HD-Flow makes it possible to depict smaller feeding vessels, of crucial importance in Gynecology
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