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| Sacroiliac motion for extreme hip positions. A
fresh cadaver study. |
| AUTHOR: |
Smidt GL; Wei SH; McQuade K; Barakatt E; Sun T;
Stanford W |
| AUTHOR AFFILIATION: |
Physical Therapy Graduate Program, College of
Medicine, University of Iowa, Iowa City, USA. |
| SOURCE: |
Spine 1997 Sep 15;22(18):2073-82 |
| NLM CIT. ID: |
97463537 |
| ABSTRACT: |
STUDY DESIGN: This study placed fresh cadavers in
different hip positions and obtained sacroiliac kinematics. The magnitudes and directions
of angular and linear sacroiliac motion are reported. OBJECTIVES: To determine the
three-dimensional motion at the left and right sacroiliac joints and to explore the
mechanical structure of the sacroiliac joint. SUMMARY OF BACKGROUND DATA: Previous in vivo
and in vitro studies have reported various amounts of motion at the sacroiliac joints,
ranging from no motion to 18 degrees. The results of previous studies have typically not
been reported as data in classic engineering terms, and three-dimensional analyses are
sparse. Importantly, previous studies have not used external hip positions to elucidate
the full range of sacroiliac motion. METHODS: Radiopaque markers were placed in the sacrum
and each innominate bone before standardized performance of computed tomography scans at
3-mm intervals, with the fresh cadaver stabilized in the side-lying position on a
specially constructed pallet. Computed tomography images were stored on magnetic tape,
from which coordinates for centroids of the markers were obtained and subsequent
mechanical analyses performed. The intersubchondral lines on the images were traced and
reconstructed using computer technology to obtain the thickness of the intersubchondral
joint space and the general configuration of the sacroiliac joints. RESULTS: The methods
used in this study were validated. The largest amount of sacroiliac motion occurred in the
sagittal plane (7 degrees on left and 8 degrees on the right, with a range of 3 degrees to
17 degrees). Definite trends in the direction of angular sacroiliac motion occurred with
respect to both bilateral and reciprocal hip joint positions. The translation or linear
motion of the posterior superior iliac spines with respect to the sacrum ranged from 4 to
8 mm. This motion tended to occur in all directions, with no detectable trends. The
average intersubchondral thickness of the sacroiliac joint was 1.2 mm and the shape of the
joint resembled that of an airplane propeller. CONCLUSIONS: Even though the subjects in
this study were elderly, considerable angular and linear motion was in evidence. As such,
it appears that extreme hip positions are necessary to elucidate full range of motion at
the sacroiliac joint. The magnitude and direction of demonstrated sacroiliac motion
appears to be sufficient to complement hip joint motion and influence motion at the
lumbosacral junction and, thus, low back pain in both the direct and indirect sense. |
| MAIN MESH SUBJECTS: |
Hip/*PHYSIOLOGY
Range of Motion, Articular/*PHYSIOLOGY
Sacroiliac Joint/ANATOMY & HISTOLOGY/*PHYSIOLOGY |
| ADDITIONAL MESH SUBJECTS: |
Aged
Cadaver
Female
Human
Low Back Pain/ETIOLOGY
Male
Middle Age
Tomography, X-Ray Computed |
| PUBLICATION TYPES: |
JOURNAL ARTICLE |
| LANGUAGE: |
Eng |
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