Collapse of syringomyelitic cavities as a compensatory mechanism of syringomyelia course

Cover Page

Cite item

Full Text

Abstract

The results of examination of 72 patients with clinical picture of syringomyelia using MRT are revealed. Images of spinal cord in sagittal and axial planes have been obtained. Deformity of cavity found in axial sections of 26 patients was considered as its spontaneous collapse.

When interpreting MRT picture drain communication between the cavity and subarachnoid space of spinal cord in 10 patients was supposed. Relation between the cavity diameter and duration of illness was determined. A decrease of cavity diameter during the long course of illness may be related to the cavity collapse, which is one of the possible compensatory mechanisms of syringomyelia course.

About the authors

E. G. Mendelevich

Kazan State Medical University

Author for correspondence.
Email: info@eco-vector.com
Russian Federation, Kazan

E. I. Bogdanov

Kazan State Medical University

Email: info@eco-vector.com
Russian Federation, Kazan

M. M. Ibatullin

Kazan State Medical University

Email: info@eco-vector.com
Russian Federation, Kazan

References

  1. Ахадов Т.А., Кравцов А.К., Белов С.А., Панов В.О. МР-томография — метод дифференциальной диагностики сирингомиелии при вертеброневрологической патологии.— II Международный конгресс вертеброневрологов. —Казань, 1992.—С. 14.
  2. Макаров А.Ю., Холин А.В., Крицкая Л.А. Метод магнитно-резонансной томографии в диагностике сирингомиелии //Вопросы нейрохирургии.—1991.— № 6.-С.18-21.
  3. Менделевич Е.Г., Богданов Э.И., Ибатуллин М.М. Характеристика полостей при сирингомиелии: клинико-МРТ исследование //Неврологический журнал.—2000.—№ 1.-С.23-26.
  4. Ball М., Dayan A. Pathogenesis of syringomyelia //Lancet.—Vol. 2.-P.799-801.
  5. Bogdanov E., Ibatullin M., Mendelevich E. Spontaneous drainage of syringomyelia: magnetic resonanse imaging findings //Neuroradiology.—2000.—Vol. 42.
  6. Grant R., Hadley D., Macpherson P. Syringomyelia: cyst measurement by magnetic resonance imaging and comparison with symptoms, signs and disability //J. Neurol., neurosurg. and psychiatry. —1987. Vol. 50.— P.1008-1014.
  7. Ikata T., Masaki K, Kashiwaguchi J. Clinical experimental studies on permeability of traces in normal spinal cord and syringomyelia //Spine. —1988. Vol. 13.—P.737—741.
  8. Imae S. Clinical evaluation on the etiology and surgical outcome in syringomyelia associated with Chiari-1 malformation //No-To-Shinkei. —1997. Vol. 49.—P. 1131 —1138.
  9. Heiss J., Patronas N., De Vroom H. et al. Elucidating the pathophysiology of syringomyelia//J. Neurosurg.— 1999.—Vol. 91.
  10. Hening J., Nautrth A., Freidburg H. RARE Imaging: a Fast Imaging method for clinical MR //Magn. Res. Med.—1986.—Vol. 3.-P.823-833.
  11. Jack C., Kokmen F., Onofrio B. Spontaneous decompressionof syringomyelia: magnetic resonance imaging findings //J. Neurosurg. —1991.—Vol. 74.— P.283-286.
  12. Masur H., Oberwittler Ch., Reuther G. et al. Cerebellar herniation in syringomyelia: relation between tonsillar herniation and the dimensions of the syrinx and the remaining spinal cord //J. Eur. Neurol.—1995.— Vol. 35.—P. 162—167.
  13. Milhorat T., Capocelli A., Anzil A. et al. Pathological basis of spinal cord cavitation in syringomyelia. Analysis of 105 autopsy cases //J. Neurosurg. —1995.—Vol. 82.— P.802-812.
  14. Milhorat T., Capocelli A., Kotzen R. et al. Intramedullary pressure in syringomyelia: clinical and pathophisiological correlates of syrinx distension //J. Neurosurg.-1997.-Vol. 41.-P.1102-1110.
  15. Milhorat T., Johnson R., Milhorat R., Capocelli A. et al. Clinicopathological correlation in syringomyelia using axial magnetic resonance imaging //J. Neurosurg.— 1995.-Vol. 2.-P.206-215.
  16. Oldfield E., Muraszko K., Shawker T. et al. Patho-physiology of syringomyelia associated with Chiari 1 malformation of the cerebellar tonsils //J. Neurosurg.— 1994.—Vol. 80.-P.3-15.
  17. Santoro A., Delfini R., Innocenzi G. et al. Spontaneous drainage of syringomyelia//J. Neurosurg.—1993. Vol. 79.—P.132—134.
  18. Sarkarati M., Foo D. Spontaneous drainage in syringomyelia//J. Neurosurg. —1994.—Vol. 80.—P.948—949.
  19. Stoodley M., Brown S., Brown Ch. et al. Arterial pulsation — dependent perivascular cerebrospinal fluid flow into the central canal in the sheep spinal cord //J. Neurosurg.-1997.-Vol. 86.-P.686-693.
  20. Stovner L., Rihck P. Syringomyelia in Chiari malformation: relation to extent of cerebellar tissue herniation //J. Neurosurg.—1992.—Vol. 31.—P.913—927.
  21. Williams B. Pathogenesis of syringomyelia //Acta Neurochir. (Wien).—Vol. 123.—P. 159—165.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download
2. Fig. 1

Download (376KB)
Indexing metadata
3. Fig. 2

Download (119KB)
Indexing metadata

Copyright (c) 2001 Mendelevich E.G., Bogdanov E.I., Ibatullin M.M.

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies