AI Article Synopsis
- * This obstruction not only impedes CSF movement but can also disrupt the support structures of the spinal cord at the craniocervical junction, which play crucial roles in maintaining stability and integrity.
- * The study suggests that the obstruction and altered CSF dynamics may lead to further complications in cranio-spinal support, and includes visual evidence from surgeries to underscore these points.
Article Abstract
In Chiari Malformation Type I (CM1), low-lying tonsils obstruct the cisterna magna at the foramen magnum, thereby compromising the essential juncture between the cranial and spinal compartments. The anatomical obstruction of the cisterna magna inhibits bi-directional CSF flow as well as CSF pulse pressure equilibration between the intracranial compartment and the intraspinal compartment in response to instances of increased intracranial pressure. Less understood, however, are the roles of the spinal cord suspension structures at the craniocervical junction which lend viscoelastic support to the spinal cord and tonsils, as well as maintain the anatomical integrity of the cisterna magna and the dura. These include extradural ligaments including the myodural bridges (MDBs), as well as intradural dentate ligaments and the arachnoid framework. We propose that when these elements are disrupted by the cisterna magna obstruction, tonsillar pathology, and altered CSF dynamics, there may arise a secondary pathophysiology of compromised and dysfunctional cranio-spinal suspension in CM1. We present intraoperative images and videos captured during surgical exposure of the craniocervical junction in CM1 to illustrate this proposal.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9788407 | PMC |
| http://dx.doi.org/10.3390/jcm11247437 | DOI Listing |
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