Urinary bladder fibrosis (thickening and scarring) is fairly uncommon in children. Traditionally, the presence of urinary bladder fibrosis has been confirmed directly with bladder biopsy or using urodynamic testing. In this study we will use ultrasound scanning and ARFI (acoustic radiation force impulse) wave velocities to potentially identify any urinary bladder wall fibrosis.
Urinary bladder fibrosis (thickening and scarring) is fairly uncommon in children. Traditionally, the presence of urinary bladder fibrosis has been confirmed directly with bladder biopsy or using urodynamic testing. We will use ultrasound ARFI (acoustic radiation force impulse)-derived shear wave velocities to potentially identify the presence of urinary bladder wall fibrosis. We hypothesize that shear wave velocities found within the bladder wall will increase with increasing evidence of fibrosis.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
26
An ultrasound based scan uses ARFI, an acoustic radiation force impulse to estimate shear wave velocities during scanning of the urinary bladder. The research ultrasound scan lasts about 10 to 15 minutes.
University of Michigan Hospital
Ann Arbor, Michigan, United States
Shear Wave Velocity, VTQ
Shear wave velocity VTQ, or Virtual Touch Quantification is a "point" method for measuring a tissue's stiffness. A stiffness value is obtained from only the area in which a region of interest is placed.
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Shear Wave Velocity (VITQ)
Shear Wave Velocity, VITQ, or Virtual Touch Tissue Imaging quantification is a color 2D method for measuring a tissues's stiffness. A color image (elastogram) of stiffness is acquired using this method. Then, one or more regions of interest can be placed in the area of interest on the elastogram. VITQ regions of interest are smaller than those used by VTQ.
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