Multimodal CT imaging of ischemic stroke thrombi identifies scale-invariant radiomic features that reflect clot biology

Briana A Santo; Seyyed Mostafa Mousavi Janbeh Sarayi; Andrew D McCall; Andre Monteiro; Brianna Donnelly; Adnan H Siddiqui; Vincent M Tutino

doi:10.1136/jnis-2022-019967

Multimodal CT imaging of ischemic stroke thrombi identifies scale-invariant radiomic features that reflect clot biology

J Neurointerv Surg. 2023 Dec;15(12):1257-1263. doi: 10.1136/jnis-2022-019967. Epub 2023 Feb 14.

Authors

Briana A Santo^{1

2}, Seyyed Mostafa Mousavi Janbeh Sarayi², Andrew D McCall³, Andre Monteiro^{2

4}, Brianna Donnelly^{2

4}, Adnan H Siddiqui^{2

4}, Vincent M Tutino^{5

2

4}

Affiliations

¹ Department of Pathology and Anatomical Sciences, University at Buffalo, Buffalo, NY, USA.
² Canon Stroke and Vascular Research Center, University at Buffalo, Buffalo, NY, USA.
³ Optical Imaging and Analysis Facility, University at Buffalo, Buffalo, NY, USA.
⁴ Department of Neurosurgery, University at Buffalo, Buffalo, New York, USA.
⁵ Department of Pathology and Anatomical Sciences, University at Buffalo, Buffalo, NY, USA vincentt@buffalo.edu.

Abstract

Background: Biological interpretability of ischemic stroke clot imaging remains challenging.

Objective: To carry out paired CT/micro-CT imaging of ischemic stroke clots retrieved by thrombectomy with the aim of identifying interpretable image features that are correlated among pretreatment image modalities and post-treatment histopathology.

Methods: We performed multimodal CT imaging and histology for 10 stroke clots retrieved by mechanical thrombectomy. Clots were manually segmented from co-registered, pretreatment CT angiography (CTA) and non-contrast CT (NCCT). For the same cases, retrieved clots were iodine-stained, and imaged with a ScanCo micro-CT 100 (4.9 µm resolution). Afterwards, clots were subjected to histological processing (hematoxylin and eosin staining) and whole slide scanned (40X). Clot radiomic features (RFs) (n=93 per modality, 279 total) were extracted using PyRadiomics and histological composition was computed using Orbit Image Analysis. Correlation analysis was used to test associations between micro-CT and CTA (or NCCT) RFs as well as between RFs and histological composition. Statistical significance was considered at R≥0.65 and q<0.05.

Results: From paired RF correlation analysis, we identified 23 scale-invariant RFs with significant correlation between micro-CT and CTA (18), and micro-CT and NCCT (5). Correlation of unpaired RFs identified 377 positively and 36 negatively correlated RFs between micro-CT and CTA, and 168 positively and 41 negatively correlated RFs between micro-CT and NCCT. Scale-invariant RFs computed from CTA and NCCT demonstrated significant correlation with red blood cell and fibrin-platelet components, while micro-CT RFs were found to be correlated with white blood cell percent composition.

Conclusion: Multimodal CT, radiomic, and histological analysis of stroke clots can help to bridge the gap between pretreatment imaging and clot pathobiology.

Keywords: CT; CT angiography; stroke; thrombectomy.

MeSH terms

Biology
Brain Ischemia* / diagnostic imaging
Brain Ischemia* / pathology
Brain Ischemia* / surgery
Computed Tomography Angiography / methods
Humans
Ischemic Stroke*
Stroke* / diagnostic imaging
Stroke* / surgery
Thrombectomy
Thrombosis* / pathology

Grants and funding

UL1 TR001412/TR/NCATS NIH HHS/United States