Cerebrospinal fluid flow in an animal model of noncommunicating syringomyelia
The source of fluid and the mechanism of cyst enlargement in syringomyelia are unknown. It has been demonstrated that cerebrospinal fluid (CSF) normally flows from the subarachnoid space through perivascular spaces and into the spinal cord central canal. The aim of this study was to investigate whet...
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| Published in: | Neurosurgery Vol. 44; no. 5; pp. 1065 - 1075 |
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| Format: | Journal Article |
| Language: | English |
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01-05-1999
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| Abstract | The source of fluid and the mechanism of cyst enlargement in syringomyelia are unknown. It has been demonstrated that cerebrospinal fluid (CSF) normally flows from the subarachnoid space through perivascular spaces and into the spinal cord central canal. The aim of this study was to investigate whether this flow continues during cyst formation in an animal model of syringomyelia and to determine the role of subarachnoid CSF flow in this model.
The intraparenchymal kaolin model of noncommunicating syringomyelia was established in 78 Sprague-Dawley rats. Horseradish peroxidase was used as a tracer to study CSF flow at 1 day, 3 days, 1 week, and 6 weeks after kaolin injection. CSF flow was studied at 0, 10, and 30 minutes after horseradish peroxidase injection into the cisterna magna or thoracic subarachnoid space.
The central canal became occluded at the level of the kaolin injection and at one or more rostral levels. Segments of the central canal isolated between occlusions gradually dilated, and axonal retraction balls were detected in the surrounding white matter. There was a partial blockage of subarachnoid CSF flow at the site of the kaolin injection, both in a rostral-caudal direction and in a caudal-rostral direction. Horseradish peroxidase was detected at all time points, in a distinctive pattern, in perivascular spaces and the central canal. This pattern was seen even where segments of the central canal were isolated and dilated.
In this animal model, noncommunicating syringes continue to enlarge even when there is evidence that they are under high pressure. There may be an increase in pulse pressure rostral to the block of subarachnoid CSF flow, causing an increase in perivascular flow and contributing to syrinx formation. The source of fluid in noncommunicating syringomyelia may be arterial pulsation-dependent CSF flow from perivascular spaces into the central canal. |
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| AbstractList | The source of fluid and the mechanism of cyst enlargement in syringomyelia are unknown. It has been demonstrated that cerebrospinal fluid (CSF) normally flows from the subarachnoid space through perivascular spaces and into the spinal cord central canal. The aim of this study was to investigate whether this flow continues during cyst formation in an animal model of syringomyelia and to determine the role of subarachnoid CSF flow in this model.
The intraparenchymal kaolin model of noncommunicating syringomyelia was established in 78 Sprague-Dawley rats. Horseradish peroxidase was used as a tracer to study CSF flow at 1 day, 3 days, 1 week, and 6 weeks after kaolin injection. CSF flow was studied at 0, 10, and 30 minutes after horseradish peroxidase injection into the cisterna magna or thoracic subarachnoid space.
The central canal became occluded at the level of the kaolin injection and at one or more rostral levels. Segments of the central canal isolated between occlusions gradually dilated, and axonal retraction balls were detected in the surrounding white matter. There was a partial blockage of subarachnoid CSF flow at the site of the kaolin injection, both in a rostral-caudal direction and in a caudal-rostral direction. Horseradish peroxidase was detected at all time points, in a distinctive pattern, in perivascular spaces and the central canal. This pattern was seen even where segments of the central canal were isolated and dilated.
In this animal model, noncommunicating syringes continue to enlarge even when there is evidence that they are under high pressure. There may be an increase in pulse pressure rostral to the block of subarachnoid CSF flow, causing an increase in perivascular flow and contributing to syrinx formation. The source of fluid in noncommunicating syringomyelia may be arterial pulsation-dependent CSF flow from perivascular spaces into the central canal. |
| Author | Stoodley, M A Gutschmidt, B Jones, N R |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/10232540$$D View this record in MEDLINE/PubMed |
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| References_xml | – volume: 80 start-page: 133 year: 1994 ident: key 20170509094326_R1-68 article-title: Experimental model of posttraumatic syringomyelia: The role of adhesive arachnoiditis in syrinx formation publication-title: J Neurosurg doi: 10.3171/jns.1994.80.1.0133 – volume: 326 start-page: 47 year: 1985 ident: key 20170509094326_R9-68 article-title: Evidence for a ‘paravascular’ fluid circulation in the mammalian central nervous system, provided by the rapid distribution of tracer protein throughout the brain from the subarachnoid space publication-title: Brain Res doi: 10.1016/0006-8993(85)91383-6 – volume: 52 start-page: 431 year: 1990 ident: key 20170509094326_R8-68 article-title: Rapid solute transport throughout the brain via paravascular fluid pathways publication-title: Adv Neurol – volume: 80 start-page: 3 year: 1994 ident: key 20170509094326_R7-68 article-title: Pathophysiology of syringomyelia associated with Chiari I malformation of the cerebellar tonsils: Implications for diagnosis and treatment publication-title: J Neurosurg doi: 10.3171/jns.1994.80.1.0003 – volume: 86 start-page: 686 year: 1997 ident: key 20170509094326_R11-68 article-title: Arterial-pulsation dependent perivascular CSF flow into the central canal in the sheep spinal cord publication-title: J Neurosurg doi: 10.3171/jns.1997.86.4.0686 – volume: 82 start-page: 802 year: 1995 ident: key 20170509094326_R3-68 article-title: Pathological basis of spinal cord cavitation in syringomyelia: Analysis of 105 autopsy cases publication-title: J Neurosurg doi: 10.3171/jns.1995.82.5.0802 – volume: 707 start-page: 155 year: 1996 ident: key 20170509094326_R12-68 article-title: Evidence for rapid fluid flow from the subarachnoid space into the spinal cord central canal in the rat publication-title: Brain Res doi: 10.1016/0006-8993(95)01228-1 – volume: 80 start-page: 716 year: 1994 ident: key 20170509094326_R5-68 article-title: Stenosis of central canal of spinal cord in man: Incidence and pathological findings in 232 autopsy cases publication-title: J Neurosurg doi: 10.3171/jns.1994.80.4.0716 – volume: 78 start-page: 274 year: 1993 ident: key 20170509094326_R6-68 article-title: Noncommunicating syringomyelia following occlusion of central canal in rats: Experimental model and histological findings publication-title: J Neurosurg doi: 10.3171/jns.1993.78.2.0274 – volume: 14 start-page: 591 year: 1957 ident: key 20170509094326_R2-68 article-title: The varying expressions of embryonal atresia of the fourth ventricle in adults publication-title: J Neurosurg doi: 10.3171/jns.1957.14.6.0591 – start-page: 565 volume-title: The Cervical Spine year: 1997 ident: key 20170509094326_R10-68 article-title: Syringomyelia – volume: 2 start-page: 189 year: 1969 ident: key 20170509094326_R13-68 article-title: The distending force in the production of “communicating syringomyelia.” publication-title: Lancet – volume: 37 start-page: 206 year: 1995 ident: key 20170509094326_R4-68 article-title: Clinicopathological correlations in syringomyelia using axial magnetic resonance imaging publication-title: Neurosurgery doi: 10.1227/00006123-199508000-00003 |
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| SubjectTerms | Animals Cerebrospinal Fluid - physiology Disease Models, Animal Horseradish Peroxidase Injections, Intraventricular Injections, Spinal Kaolin Male Rats Rats, Sprague-Dawley Spinal Cord - pathology Subarachnoid Space - physiopathology Syringomyelia - chemically induced Syringomyelia - pathology Syringomyelia - physiopathology |
| Title | Cerebrospinal fluid flow in an animal model of noncommunicating syringomyelia |
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