„Chronische zerebrospinale venöse Insuffizienz” bei Multipler Sklerose – Ist die Multiple Sklerose eine Erkrankung des zerebrospinalen venösen Abflusssystems?

 

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Zusammenfassung

Das pathogenetische Konzept der Multiplen Sklerose (MS) beruht auf einer multifaktorellen autoimmunen Entzündungsreaktion. Seit Kurzem wird vor allem durch die Arbeitsgruppe um Paolo Zamboni postuliert, dass eine chronische Behinderung des venösen Blutflusses aus dem zentralen Nervensystem (ZNS) die wesentliche Ursache der MS sei. Dies hat den Begriff der „chronischen zerebrospinalen venösen Insuffizienz” (chronic cerebrospinal venous insufficiency, CCSVI) bei MS geprägt. Das Konzept der „CCSVI” basiert auf duplexsonografischen Untersuchungen, die zeigten, dass eine Behinderung des venösen Blutflusses mit pathologischem Reflux nahezu ausschließlich bei MS-Patienten und nicht bei gesunden Personen vorhanden ist. Das diesen Befunden zugrunde liegende pathophysiologische Konzept beinhaltet, dass eine chronische Behinderung des Abflusses mit konsekutiver Druckerhöhung im venösen System sekundär zu einer pathologischen Eisenablagerung im ZNS führt, welches in der Folge eine chronische Entzündungsreaktion sowie neurodegenerative Prozesse induziert bzw. unterhält. Diese Theorie des „CCSVI” bei MS hat sehr schnell eine große Aufmerksamkeit der Medien sowie Patienten aber auch in neurowissenschaftlichen Kreisen auf sich gezogen. Insbesondere mögliche therapeutische Konsequenzen mit einem transvenösen interventionellen Behandlungsansatz werden gegenwärtig diskutiert. Ergebnisse neuerer Studien, welche auch andere bildgebende Methoden berücksichtigen, stellen jedoch das „CCSVI-Konzept” substanziell infrage. In dieser Übersichtsarbeit wird das Konzept der „CCSVI” bei der MS methodenkritisch analysiert und im Kontext der MS-Pathophysiologie sowie der aktuellen Literatur diskutiert. Zusammenfassend ergibt sich derzeit auf der Grundlage der aktuell verfügbaren Daten keine Indikation zu einer interventionellen Behandlung vermeintlicher venöser Anomalien.

Abstract

Chronic impaired venous outflow from the central nervous system has recently been claimed to be associated with multiple sclerosis (MS) pathology. This resulted in the term chronic cerebrospinal venous insufficiency (CCSVI) in MS. The concept of CCSVI is based on sonography studies showing that impaired venous outflow leading to pathological reflux is almost exclusively present in MS patients but not in healthy controls. Based on these findings, a new pathophysiological concept has been introduced suggesting that chronic venous outflow obstruction and venous reflux in the CNS result in pathological iron depositions leading to inflammation and neurodegeneration. The theory of CCSVI in MS has rapidly generated tremendous interest in the media and among patients and the scientific community. In particular, the potential shift in treatment concepts possibly leading to an interventional treatment approach including balloon angioplasty and venous stent placement is currently being debated. However, results from recent studies involving several imaging modalities have raised substantial concerns regarding the CCSVI concept in MS. In this review article, we explain the concept of CCSVI in MS and discuss this hypothesis in the context of MS pathophysiology and imaging studies which have tried to reproduce or refute this theory. In addition, we draw some major conclusions focusing in particular on the crucial question as to whether interventional treatment options are expedient. In conclusion, the present conclusive data confuting the theory of CCSVI in MS should lead to reluctance with respect to the interventional treatment of possible venous anomalies in MS patients.

Literatur

• 1 Frohman E M, Racke M K, Raine C S. Multiple sclerosis – the plaque and its pathogenesis.  NEJM. 2006;  354 942-955
  Google Scholar
• 2 McFarland H F, Martin R. Multiple sclerosis: a complicated picture of autoimmunity.  Nat Immunol. 2007;  9 913-919
  Google Scholar
• 3 Holst B, Schippling S, Fiehler J. Diagnosis and heterogeneity of MS in MRI.  Fortschr Röntgenstr. 2008;  180 112-119
  Google Scholar
• 4 Wattjes M P, Barkhof F. High field MRI in the diagnosis of multiple sclerosis: high field – high yield?.  Neuroradiology. 2009;  51 279-292
  Google Scholar
• 5 Montalban X, Tintoré M, Swanton J et al. MRI criteria for MS in patients with clinically isolated syndromes.  Neurology. 2010;  74 427-434
  Google Scholar
• 6 Weir B S. Multiple sclerosis – a vascular etiology.  Can J Neurol Sci. 2010;  37 745-757
  Google Scholar
• 7 Putnam T J. Lesion of of „encephalomyelitis” and multiple sclerosis.  JAMA. 1937;  108 1477-1480
  Google Scholar
• 8 Zamboni P, Menegatti E, Bartolomei I et al. Intracranial venous hemodynamics in multiple sclerosis.  Curr Neurovasc Res. 2007;  4 252-258
  Google Scholar
• 9 Zamboni P, Galeotti R, Menegatti E et al. Chronic cerebrospinal venous insuffiency in patients with multiple sclerosis.  J Neurol Neurosurg Psychiatry. 2009;  80 392-399
  Google Scholar
• 10 Rudick R A. Multiple sclerosis: Is multiple sclerosis caused by venous insufficiency?.  Nat Rev Neurol. 2010;  6 472-474
  Google Scholar
• 11 Khan O, Filippi M, Freedman M S et al. Chronic cerebrospinal venous insufficiency and multiple sclerosis.  Ann Neurol. 2010;  67 286-290
  Google Scholar
• 12 Zamboni P, Menegatti E, Galeotti R et al. The value of cerebral Doppler venous hemodynamics in the assessment of multiple sclerosis.  J Neurol Sci. 2009;  282 21-27
  Google Scholar
• 13 Andeweg J. The anatomy of collateral venous flow from the brain and its value in etiological interpretation of intracranial pathology.  Neuroradiology. 1996;  38 621-628
  Google Scholar
• 14 Clemens H J. Die Venensysteme der menschlichen Wirbelsäule. Morphologie und funktionelle Bedeutung. Berlin: Walter de Gruyter & Co; 1961
  Google Scholar
• 15 Valdueza J M, Münster von T, Hoffmann O et al. Postural dependency of the cerebral venous outflow.  Lancet. 2000;  355 200-201
  Google Scholar
• 16 Schreiber S, Lürtzing F, Götze R et al. Extrajugular pathways of human cerebral venous blood drainage – assessed by duplex ultrasound.  J Appl Physiol. 2003;  94 1802-1805
  Google Scholar
• 17 Nedelmann M, Eicke B M, Dieterich M. Functional and morphological criteria of internal jugular valve insufficiency as assessed by ultrasound.  J Neuroimaging. 2005;  15 70-75
  Google Scholar
• 18 Stolz E, Kaps M, Kern A et al. Transcranial color-coded duplex sonography of intracranial veins and sinuses in adults. Reference data from 130 volunteers.  Stroke. 1999;  30 1070-1075
  Google Scholar
• 19 Lichtenstein D, Saifi R, Augarde R et al. The internal jugular veins are asymmetric. Usefulness of ultrasound before catheterization.  Intensive care Med. 2001;  27 301-305
  Google Scholar
• 20 Doepp F, Schreiber S J, Münster von T et al. How does the blood leave the brain? A systematic ultrasound analysis of the cerebral venous drainage patterns.  Neuroradiology. 2004;  46 565-570
  Google Scholar
• 21 Hoffmann O, Weih M, Münster von T et al. Blood flow velocities in the vertebral veins of healthy subjects: A duplex sonography study.  J Neuroimaging. 1999;  9 198-200
  Google Scholar
• 22 Zamboni P, Lanzara S, Mascoli F et al. Inflammation in venous disease.  Int Angiol. 2008;  27 361-369
  Google Scholar
• 23 Singh A V, Zamboni P. Anomalous venous blood flow and iron deposition in multiple sclerosis.  J Cereb Blood Flow Metab. 2009;  29 1867-1878
  Google Scholar
• 24 Zivadinov R, Schirda C, Dwyer M G et al. Chronic cerebrospinal venous insufficiency and iron deposition on susceptibility-weighted imaging in patients with multiple sclerosis: a pilot case-control study.  Int Angiol. 2010;  29 158-175
  Google Scholar
• 25 Zivadinov R, Heininen-Brown M, Schirda C et al. Multiple Sclerosis patients with chronic cerebrospinal venous insufficiency present with increased iron concentration on susceptibility-weighted imaging in deep grey matter.  Mult Scler. 2010;  16 S268 (P774)
  Google Scholar
• 26 Querfurth H W, Arms S W, Lichy C M et al. Prediction of intracranial pressure from noninvasive transocular venous and arterial hemodynamic measurements a pilot study.  Neurocrit Care. 2004;  1 183-194
  Google Scholar
• 27 Meyer-Schwickerrath R, Haug C, Hacker A et al. Intracranial venous pressure is normal in patients with multiple sclerosis.  Mult Scler. 2011;  [Epub ahead of print]
  Google Scholar
• 28 Es A CGM, der Grond von J, Crain A JM et al. Caudate nucleus hypointensity in the elderly is associated with markers of neurodegeneration on MRI.  Neurobiol Ageing. 2008;  29 1839-1846
  Google Scholar
• 29 Hammond K E, Metcalf de M, Okuda D T et al. Quantitative in vivo magnetic resonance imaging of multiple sclerosis at 7 T with sensitivity to iron.  Ann Neurol. 2008;  64 707-713
  Google Scholar
• 30 Worthington V, Killestein J, Eikelenboom J et al. Normal CSF ferritin levels in MS patients suggest against etiologic role of chronic venous insufficiency.  Neurology. 2010;  75 1617-1622
  Google Scholar
• 31 Ghezzi A, Comi G, Frederico A. Chronic cerebro-spinal venous insufficiency (CCSVI) and multiple sclerosis.  Neurol Sci. 2011;  32 17-21
  Google Scholar
• 32 Hojnacki D, Zamboni P, Lopez-Sorinano et al. Use of magnetic resonance venography, Doppler sonography, and selective venography for diagnosis of chronic cerebrospinal venous insufficiency: a pilot study in multiple sclerosis and healthy controls.  Int Angiol. 2010;  29 127-139
  Google Scholar
• 33 Krogias C, Schröder A, Wiendl H et al. „Chronische cerebrospinale venöse Insuffizienz” und Multiple Sclerose. Kritische Analyse und erste Untersuchungen an einem unselektierten MS-Kollektiv.  Nervenarzt. 2010;  81 740-746
  Google Scholar
• 34 Doepp F, Paul F, Valdueza J M et al. No cerebro-cervical venous congestion in patients with multiple sclerosis.  Ann Neurol. 2010;  68 173-183
  Google Scholar
• 35 Mayer C A, Pfeilschifter W, Lorenz M W et al. The perfect crime? CCSVI not leaving a trace in MS.  J Neurol Neurosurg Psychiatry. 2011;  82 436-440
  Google Scholar
• 36 Baracchini C, Perini P, Calabrese M et al. No evidence of chronic cerebrospinal venous insufficiency in multiple sclerosis onset.  Ann Neurol. 2011;  69 90-99
  Google Scholar
• 37 Pelc N J. Flow quantification and analysis methods.  Magn Reson Clin N Am. 1995;  3 413-424
  Google Scholar
• 38 Grinstead J W, Sinha S, Tateshima S et al. Visualization and quantification of flow and velocity fields in intracranial arteriovenous malformations using phase-contrast MR angiography.  AJR. 2006;  186 553-555
  Google Scholar
• 39 Oktar S O, Yücel C, Karaosmanoglu D et al. Blood-flow volume quantification in internal carotid and vertebral arteries: comparison of 3 different ultrasound techniques with phase contrast MR imaging.  AJNR Am J Neuroradiol. 2006;  27 363-369
  Google Scholar
• 40 Sundström P, Wåhlin A, Ambarki K et al. Venous and cerebrospinal fluid flow in multiple sclerosis: a case control study.  Ann Neurol. 2010;  68 255-259
  Google Scholar
• 41 Wattjes M P, Oosten B W, Graaf de W L et al. No association of abnormal cranial venous system drainage with multiple sclerosis: A MR venography and flow-quantification study.  J Neurol Neurosurg Psychiatry. 2011;  82 429-435
  Google Scholar
• 42 Zivadinov van R, Lopez-Soriano A, Weinstock-Guttmann B et al. Use of magnetic resonance venography for characterization of the extra-cranial venous system in patients with multiple sclerosis and healthy controls subjects.  Radiology. 2011;  258 562-570
  Google Scholar
• 43 Alikhani K, Kremenschutzky M C. Magnetic resonance findings of the cervical veins in patients followed at the MS clinic in London, Ontario.  Mult Scler. 2010;  16 S270 (P778)
  Google Scholar
• 44 Yamout B, Herlopian A, Issa Z et al. Extracranial venous stenosis is an unlikely cause of multiple sclerosis.  Mult Scler. 2010;  16 1341-1348
  Google Scholar
• 45 Zamboni P, Galeotti R, Menegatti E et al. A prospective open-label study of endovascular treatment of chronic cerebrospinal venous insufficiency.  J Vasc Surg. 2009;  50 1348-1358
  Google Scholar
• 46 Zamboni P, Galeotti R, Weinstock-Guttmann B et al. Endovascular treatment for chronic cerebrospinal venous insufficiency in multiple sclerosis. A pilot study.  Mult Scler. 2010;  16 S171 (P508)
  Google Scholar
• 47 Ludyga T, Kazibudzki M, Simka M et al. Endovascular treatment for chronic cerebrospinal venous insufficiency: is the procedure safe?.  Phlebology. 2010;  25 286-95
  Google Scholar
• 48 Samson K. Experimental multiple sclerosis vascular shunting procedure halted at Stanford.  Ann Neurol. 2010;  1 A13-A15
  Google Scholar
• 49 The Liberation Treatment: A whole new approach to MS, CTV W 5 [online]. http://www.ctv.ca/servlet/ArticleNews/story/CTVNews/20091120/W5_liberation_091121/0091121
  Google Scholar
• 50 Reekers J A, Lee M J, Belli A M et al. Cardiovascular and interventional radiological society of Europe commentary on the treatment of chronic cerebrospinal insufficiency.  Cardiovasc Intervent Radiol. 2011;  34 1-2
  Google Scholar
• 51 Chiu J J, Chien S. Effects of disturbed flow on vascular endothelium: pathophysiological basis and clinical perspectives.  Physiol Rev. 2011;  91 327-387
  Google Scholar
• 52 Chronic cerebrospinal venous insufficiency (CCSVI). The National Multiple Sclerosis Society [online]. http://www.nationalmssociety.org/research/intriguing-leads-on-the-horizon/ccsvi. index.aspx
  Google Scholar

PD Dr. Mike P. Wattjes

MS Center Amsterdam
Department of Radiology
VU University Medical Center

De Boelelaan 1117

1081 HV Amsterdam

The Netherlands

Phone: ++ 31/20/4 44 03 41

Fax: ++ 31/20/4 44 03 97

Email: m.wattjes@vumc.nl