The use of color Doppler imaging for the assessment of sacroiliac joint stiffness: a study on embalmed human pelvises

The use of color Doppler imaging for the assessment of sacroiliac joint stiffness: a study on embalmed human pelvises

Purpose: The validity and reproducibility of an instrumented dynamic examination method to measure sacroiliac (SI) joint stiffness was tested in vitro. Methods: Four embalmed human female pelvises were excitated by a pelvic vibrator. A color Doppler imaging (CDI) scanner was used to image the amplit...

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Bibliographic Details
Published in:European journal of radiology Vol. 21; no. 2; pp. 112 - 116
Main Authors: Muzaffer Buyruk, H., Stam, Hendrik J., Snijders, Christian J., Vleeming, Adrian, Laméris, Johan S., Holland, Wim P.J.
Format: Journal Article
Language:English
Published: Ireland Elsevier Ireland Ltd 15-12-1995
Subjects:
Aged
Aged, 80 and over
Bone Screws
Cadaver
Elasticity
Female
Humans
Ilium - diagnostic imaging
Ilium - physiology
Longitudinal Ligaments - physiology
Longitudinal Ligaments - surgery
Observer Variation
Pelvis - diagnostic imaging
Pelvis - physiology
Pelvis, measurements
Pilot Projects
Reproducibility of Results
Sacroiliac Joint - diagnostic imaging
Sacroiliac Joint - physiology
Sacrum - diagnostic imaging
Sacrum - physiology
Ultrasonography, Doppler, Color
Ultrasound (US), Doppler studies
Vibration
Pelvis, measurements
Ultrasound (US), Doppler studies
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Summary:Purpose: The validity and reproducibility of an instrumented dynamic examination method to measure sacroiliac (SI) joint stiffness was tested in vitro. Methods: Four embalmed human female pelvises were excitated by a pelvic vibrator. A color Doppler imaging (CDI) scanner was used to image the amplitude of vibrations at different sites of the pelvis. Vibrations were applied to the anterior superior iliac spines unilaterally and were received by CDI all over the ipsilateral SI region. Three different stability conditions were created in the SI joints: no intervention, screwed and ligaments cut. Test results were quantified by taking the minimum threshold levels of the bones. The relative difference of vibration intensity between ipsilateral ilium and sacrum at each stability condition is accepted as the stiffness level for the SI joint. Results: Statistics showed high reproducibility and significant differences between the stability conditions. Dynamic testing based on the use of vibrations provides visible and quantifiable intra- and inter-individual differences between SI joint stiffnesses. Conclusions: This new method is objective and reproducible. Future in vivo application is promising since there are no technical and safety restrictions.
Bibliography:ObjectType-Article-1
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ISSN:0720-048X
1872-7727
DOI:10.1016/0720-048X(95)00704-T