Magnetic resonance 4D flow analysis of cerebrospinal fluid dynamics in Chiari I malformation with and without syringomyelia

AbstractObjectiveTo analyse cerebrospinal fluid (CSF) hydrodynamics in patients with Chiari type I malformation (CM) with and without syringomyelia using 4D magnetic resonance (MR) phase contrast (PC) flow imaging.Methods4D-PC CSF flow data were acquired in 20 patients with CM (12 patients with presyrinx/syrinx). Characteristic 4D-CSF flow patterns were identified. Quantitative CSF flow parameters were assessed at the craniocervical junction and the cervical spinal canal and compared with healthy volunteers and between patients with and without syringomyelia.ResultsCompared with healthy volunteers, 17 CM patients showed flow abnormalities at the craniocervical junction in the form of heterogeneous flow (n = 3), anterolateral flow jets (n = 14) and flow vortex formation (n = 5), most prevalent in patients with syringomyelia. Peak flow velocities at the craniocervical junction were significantly increased in patients (−15.5 ± 11.3 vs. −4.7 ± 0.7  cm/s in healthy volunteers, P < 0.001). At the level of C1, maximum systolic flow was found to be significantly later in the cardiac cycle in patients (30.8 ± 10.3 vs. 22.7 ± 4.1%, P < 0.05).Conclusions4D-PC flow imaging allowed comprehensive analysis of CSF flow in patients with Chiari I malformation. Alterations of CSF hydrodynamics were most pronounced in patients with syringomyelia.Key Points• Analysis of CSF flow is important in patients with Chiari I malformation • 4D-PC MRI allows analysis of CSF in patients with Chiari I. • Chiari I patients show characteristic qualitative and quantitative alterations of CSF flow. • Alterations of CSF hydrodynamics are most pronounced in patients with associated syringomyelia.

[1]  Frank R Korosec,et al.  Peak systolic and diastolic CSF velocity in the foramen magnum in adult patients with Chiari I malformations and in normal control participants. , 2003, AJNR. American journal of neuroradiology.

[2]  D. Levine The pathogenesis of syringomyelia associated with lesions at the foramen magnum: a critical review of existing theories and proposal of a new hypothesis , 2004, Journal of the Neurological Sciences.

[3]  B. Martin,et al.  Cerebrospinal fluid hydrodynamics in type I Chiari malformation , 2011, Neurological research.

[4]  Nikolaos Stergiopulos,et al.  A coupled hydrodynamic model of the cardiovascular and cerebrospinal fluid system. , 2012, American journal of physiology. Heart and circulatory physiology.

[5]  V. Haughton,et al.  Cerebrospinal fluid flow in foramen magnum: temporal and spatial patterns at MR imaging in volunteers and in patients with Chiari I malformation. , 2004, Radiology.

[6]  Wilma van der Riet,et al.  Magnetic resonance velocity mapping of 3D cerebrospinal fluid flow dynamics in hydrocephalus: preliminary results , 2011, European Radiology.

[7]  K. Muraszko,et al.  Chiari malformation Type I and syrinx in children undergoing magnetic resonance imaging. , 2011, Journal of neurosurgery. Pediatrics.

[8]  F. Alessandrini,et al.  Cerebrospinal fluid flow dynamics study in Chiari I malformation: implications for syrinx formation. , 2000, Neurosurgical focus.

[9]  K. Foley,et al.  Quantitative cine-mode magnetic resonance imaging of Chiari I malformations: an analysis of cerebrospinal fluid dynamics. , 1994, Neurosurgery.

[10]  M. McGirt,et al.  Correlation of hindbrain CSF flow and outcome after surgical decompression for Chiari I malformation , 2008, Child's Nervous System.

[11]  V. Haughton,et al.  Peak CSF Velocities in Patients with Symptomatic and Asymptomatic Chiari I Malformation , 2010, American Journal of Neuroradiology.

[12]  M. McGirt,et al.  Relationship of cine phase-contrast magnetic resonance imaging with outcome after decompression for Chiari I malformations. , 2006, Neurosurgery.

[13]  V. Haughton,et al.  Foramen magnum cerebrospinal fluid flow characteristics in children with Chiari I malformation before and after craniocervical decompression. , 2004, Journal of neurosurgery.

[14]  C. Schulz,et al.  Standard and cardiac-gated phase-contrast magnetic resonance imaging in the clinical course of patients with Chiari malformation Type I. , 2011, Neurosurgical focus.

[15]  I. Idy-Peretti,et al.  Cerebrospinal Fluid Dynamics and Relation with Blood Flow: A Magnetic Resonance Study with Semiautomated Cerebrospinal Fluid Segmentation , 2001, Investigative radiology.

[16]  L Solymosi,et al.  Phase-contrast MR imaging of the cervical CSF and spinal cord: volumetric motion analysis in patients with Chiari I malformation. , 2000, AJNR. American journal of neuroradiology.

[17]  A. Moglia,et al.  Presyrinx in children with Chiari malformations , 2009, Neurology.

[18]  M C Speer,et al.  Chiari I malformation redefined: clinical and radiographic findings for 364 symptomatic patients. , 1999, Neurosurgery.

[19]  Peter Boesiger,et al.  Determination of peak velocity in stenotic areas: echocardiography versus k-t SENSE accelerated MR Fourier velocity encoding. , 2008, Radiology.

[20]  Oliver Ganslandt,et al.  Insight into the patterns of cerebrospinal fluid flow in the human ventricular system using MR velocity mapping , 2010, NeuroImage.

[21]  Friedhelm Beyersdorf,et al.  Time-resolved three-dimensional magnetic resonance velocity mapping of cardiovascular flow paths in volunteers and patients with Fontan circulation. , 2011, European journal of cardio-thoracic surgery : official journal of the European Association for Cardio-thoracic Surgery.

[22]  K. Houkin,et al.  Pathogenesis of syringomyelia associated with Chiari type 1 malformation: review of evidences and proposal of a new hypothesis , 2010, Neurosurgical Review.

[23]  D. Greitz Unraveling the riddle of syringomyelia , 2006, Neurosurgical Review.

[24]  Patrick A Turski,et al.  Differentiation between symptomatic Chiari I malformation and asymptomatic tonsilar ectopia by using cerebrospinal fluid flow imaging: initial estimate of imaging accuracy. , 2007, Radiology.

[25]  Thomas J. Royston,et al.  MR Measurement of Cerebrospinal Fluid Velocity Wave Speed in the Spinal Canal , 2009, IEEE Transactions on Biomedical Engineering.

[26]  G. Crelier,et al.  Magnetic resonance 4D flow characteristics of cerebrospinal fluid at the craniocervical junction and the cervical spinal canal , 2011, European Radiology.

[27]  V. Haughton,et al.  Idiopathic syringomyelia: phase-contrast MR of cerebrospinal fluid flow dynamics at level of foramen magnum. , 2009, Radiology.

[28]  Michael Markl,et al.  Improved SNR in phase contrast velocimetry with five‐point balanced flow encoding , 2010, Magnetic resonance in medicine.

[29]  T. Shawker,et al.  Elucidating the pathophysiology of syringomyelia. , 1999, Journal of neurosurgery.

[30]  Anusha Sivaramakrishnan,et al.  Magnetic resonance imaging-based measurements of cerebrospinal fluid and blood flow as indicators of intracranial compliance in patients with Chiari malformation. , 2005, Journal of neurosurgery.

[31]  K. Scheffler,et al.  Time‐resolved three‐dimensional (3D) phase‐contrast (PC) balanced steady‐state free precession (bSSFP) , 2009, Magnetic resonance in medicine.

[32]  Lynne E Bilston,et al.  The influence of the relative timing of arterial and subarachnoid space pulse waves on spinal perivascular cerebrospinal fluid flow as a possible factor in syrinx development. , 2010, Journal of neurosurgery.

[33]  P. Turski,et al.  Four-dimensional phase contrast magnetic resonance angiography: potential clinical applications. , 2011, European journal of radiology.

[34]  M. McGirt,et al.  Correlation of Cerebrospinal Fluid Flow Dynamics and Headache in Chiari I Malformation , 2005, Neurosurgery.

[35]  S. Patz,et al.  Cough-Associated Headache in Patients with Chiari I Malformation: CSF Flow Analysis by Means of Cine Phase-Contrast MR Imaging , 2011, American Journal of Neuroradiology.