Arterial Tortuosity: An Imaging Biomarker of Childhood Stroke Pathogenesis?

Author:

Wei Felix1,Diedrich Karl T.1,Fullerton Heather J.1,deVeber Gabrielle1,Wintermark Max1,Hodge Jacquie1,Kirton Adam1,Dowling MM2,Benedict SL3,Bernard TJ4,Fox CK5,Friedman NR6,Lo WD7,Ichord RN8,Tan MA9,Mackay MT10,Hernandez Chavez MI11,Humphreys P12,Jordan LC13,Sultan SM14,Rivkin MJ15,Rafay MF16,Titomanlio L17,Kovacevic GS18,Yager JY19,Amlie-Lefond C20,Dlamini N21,Condie J22,Yeh EA23,Kneen R24,Bjornson BH25,Pergami P26,Zou LP27,Elbers J28,Abdalla A29,Chan AK30,Farooq O31,Lim MJ21,Carpenter JL32,Pavlakis S33,Wong VCN34,Forsyth R35,

Affiliation:

1. From the Calgary Pediatric Stroke Program, Section of Neurology, Department of Pediatrics, Alberta Children’s Hospital Research Institute, University of Calgary, Calgary, AB, Canada (F.W., J.H., A.K.); Mebio, Inc, Cambridge, MA (K.T.D.); Departments of Neurology and Pediatrics, University of California, San Francisco (H.J.F.); Department of Neurology, Hospital for Sick Children, Toronto, ON, Canada (G.d.V.); and Division of Neuroradiology, Department of Radiology, University of Virginia,...

2. University of Texas Southwestern Medical Center, Dallas

3. Primary Children’s Medical Center, Salt Lake City, UT

4. Children’s Hospital Colorado, Aurora

5. University of California San Francisco

6. Cleveland Clinic Children’s Hospital, OH

7. The Ohio State University and Nationwide Children’s Hospital, Columbus

8. Children’s Hospital of Philadelphia, PA

9. University of the Philippines-Philippine General Hospital, Manila, Philippines

10. Royal Children’s Hospital Melbourne, Melbourne, Victoria, Australia

11. Pontificia Universidad Catolica de Chile, Santiago, Chile

12. Children’s Hospital of Eastern Ontario, Ottawa, Ontario, Canada

13. Vanderbilt University Medical Center, Nashville, TN

14. Columbia University Medical Center, New York, NY

15. Boston Children’s Hospital, MA

16. Children’s Hospital, Winnipeg, University of Manitoba, Winnipeg, Manitoba, Canada

17. Hôpital Robert Debré, Paris, France

18. Mother and Child Healthcare Institute, Beograd, Serbia

19. Stollery Children’s Hospital, Edmonton, Alberta, Canada

20. Seattle Children’s Hospital, WA

21. Evelina London Children’s Hospital, London, United Kingdom

22. Phoenix Children’s Hospital, AZ

23. Children’s Hospital of Buffalo, NY

24. Alder Hey Children’s Hospital, Liverpool, United Kingdom

25. British Columbia Children’s Hospital, Vancouver, British Columbia, Canada

26. West Virginia University, Morgantown

27. Chinese PLA General Hospital, Beijing, China

28. Stanford Children’s Health, Palo Alto, CA

29. Akron Children’s Hospital, OH

30. McMaster University Medical Center, Hamilton, Hamilton, Ontario, Canada

31. Women & Children’s Hospital of Buffalo, NY

32. Children’s National Medical Center, Washington, DC

33. Maimonides Medical Center, Brooklyn, NY

34. Queen Mary Hospital, the University of Hong Kong, Hong Kong

35. Institute of Neuroscience, Newcastle University, Newcastle, United Kingdom

Abstract

Background and Purpose— Arteriopathy is the leading cause of childhood arterial ischemic stroke. Mechanisms are poorly understood but may include inherent abnormalities of arterial structure. Extracranial dissection is associated with connective tissue disorders in adult stroke. Focal cerebral arteriopathy is a common syndrome where pathophysiology is unknown but may include intracranial dissection or transient cerebral arteriopathy. We aimed to quantify cerebral arterial tortuosity in childhood arterial ischemic stroke, hypothesizing increased tortuosity in dissection. Methods— Children (1 month to 18 years) with arterial ischemic stroke were recruited within the Vascular Effects of Infection in Pediatric Stroke (VIPS) study with controls from the Calgary Pediatric Stroke Program. Objective, multi-investigator review defined diagnostic categories. A validated imaging software method calculated the mean arterial tortuosity of the major cerebral arteries using 3-dimensional time-of-flight magnetic resonance angiographic source images. Tortuosity of unaffected vessels was compared between children with dissection, transient cerebral arteriopathy, meningitis, moyamoya, cardioembolic strokes, and controls (ANOVA and post hoc Tukey). Trauma-related versus spontaneous dissection was compared (Student t test). Results— One hundred fifteen children were studied (median, 6.8 years; 43% women). Age and sex were similar across groups. Tortuosity means and variances were consistent with validation studies. Tortuosity in controls (1.346±0.074; n=15) was comparable with moyamoya (1.324±0.038; n=15; P =0.998), meningitis (1.348±0.052; n=11; P =0.989), and cardioembolic (1.379±0.056; n=27; P =0.190) cases. Tortuosity was higher in both extracranial dissection (1.404±0.084; n=22; P =0.021) and transient cerebral arteriopathy (1.390±0.040; n=27; P =0.001) children. Tortuosity was not different between traumatic versus spontaneous dissections ( P =0.70). Conclusions— In children with dissection and transient cerebral arteriopathy, cerebral arteries demonstrate increased tortuosity. Quantified arterial tortuosity may represent a clinically relevant imaging biomarker of vascular biology in pediatric stroke.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Advanced and Specialised Nursing,Cardiology and Cardiovascular Medicine,Clinical Neurology

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