Intervertebral stiffness of the spine is increased by evoked contraction of transversus abdominis and the diaphragm: In vivo porcine studies

Intervertebral stiffness of the spine is increased by evoked contraction of transversus abdominis and the diaphragm: In vivo porcine studies

In vivo porcine study of intervertebral kinematics. This study investigated the effect of transversus abdominis and diaphragm activity, and increased intra-abdominal pressure on intervertebral kinematics in porcine lumbar spines. Studies of trunk muscle recruitment in humans suggest that diaphragm a...

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Bibliographic Details
Published in:Spine (Philadelphia, Pa. 1976) Vol. 28; no. 23; pp. 2594 - 2601
Main Authors: HODGES, Paul, HOLM, Allison Kaigle, HOLM, T. Sten, EKSTRÖM, T. Lars, CRESSWELL, Andrew, HANSSON, Tommy, THORSTENSSON, Alf
Format: Journal Article
Language:English
Published: Philadelphia, PA Lippincott 01-12-2003
Hagerstown, MD
Subjects:
Abdominal Muscles - physiology
Animals
Biological and medical sciences
Biomechanical Phenomena
Diaphragm - physiology
Electric Stimulation
Fundamental and applied biological sciences. Psychology
Lumbar Vertebrae - physiology
Medicin och hälsovetenskap
Movement
Muscle Contraction
Skeleton and joints
Spine - physiology
Swine
Vertebrates: osteoarticular system, musculoskeletal system
Animal model
Anatomical variation
transversus abdominis
porcine
Experimental study
Striated muscle
Abdomen
Pig
Biomechanics
In vivo
Vertebrata
Mammalia
Intervertebral articulation
Animal
Mechanical characteristic
intra-abdominal pressure
spinal stiffness
Artiodactyla
Diaphragm
Motricity
Ungulata
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Summary:In vivo porcine study of intervertebral kinematics. This study investigated the effect of transversus abdominis and diaphragm activity, and increased intra-abdominal pressure on intervertebral kinematics in porcine lumbar spines. Studies of trunk muscle recruitment in humans suggest that diaphragm and transversus abdominis activity, and the associated intra-abdominal pressure contribute to the control of intervertebral motion. However, this has not been tested in vivo. Relative intervertebral motion of the L3 and L4 vertebrae and the stiffness at L4 were measured in response to displacements of the L4 vertebra imposed via a device fixed to the L4 vertebral body. In separate trials, diaphragm and transversus abdominis activity was evoked by stimulation of the phrenic nerves and via electrodes threaded through the abdominal wall. When intra-abdominal pressure was increased by diaphragm or transversus abdominis stimulation, the relative intervertebral displacement of the L3 and L4 vertebrae was reduced and the stiffness of L4 was increased for caudal displacements. There was no change in either parameter for rostral displacements. In separate trials, the diaphragm crurae and the fascial attachments of transversus abdominis were cut, but intra-abdominal pressure was increased. In these trials, the reduction in intervertebral motion was similar to trials with intact attachments for caudal motion, but was increased for rostral trials. The results of these studies indicate that elevated intra-abdominal pressure, and contraction of diaphragm and transversus abdominis provide a mechanical contribution to the control of spinal intervertebral stiffness. Furthermore, the effect is modified by the muscular attachments to the spine.
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content type line 23
ISSN:0362-2436
1528-1159
1528-1159
DOI:10.1097/01.brs.0000096676.14323.25