Characterization of thrombus composition with multimodality CT-based imaging: An in-vitro study

Yong Hong Ding, Mehdi Abbasi, Gregory Michalak, Shuai Leng, Daying Dai, Seán Fitzgerald, Ram Kadirvel, David F. Kallmes, Waleed Brinjikji

Research output: Contribution to journalArticlepeer-review

Abstract

Background: CT is the most commonly used imaging modality for acute ischemic stroke evaluation. There is growing interest to use pre-operative imaging to characterize clot composition in stroke. We performed an in-vitro study examining the ability of various CT techniques in differentiation between different clot types. Methods: Five clot types with varying fibrin and red blood cells (RBCs) densities (5% RBC and 95% fibrin; 25% RBC and 75% fibrin; 50% RBC and 50% fibrin; 75% RBC and 25% fibrin; 95% RBC and 5% fibrin) were prepared and scanned using various CT scanning protocols (single-energy, dual-energy, photon-counting detector CT, mixed images, and virtual monoenergetic images). Martius Scarlett Blue trichrome staining was performed to confirm the composition of each clot. Mean CT values of each type of clot under different scanning protocol were calculated and compared. Results: Mean CT values of the CT numbers in the five clot specimens for 5%, 25%, and 50% RBC clot were similar across modalities, and increased significantly for 75% and 95% RBC clots (P<0.0001). Mean CT values are highest in the Mono +50 keV images in each type of clot, and they were also significantly higher than all other imaging protocols (P<0.001). Dual-energy CT with Mono +50 keV images showed the greatest difference between attenuation in each type of clot. Conclusion: Mono +50 keV dual-energy CT scan may be helpful for differentiating between RBC-rich and fibrin-rich thrombi seen in large-vessel occlusion patients.

Original languageEnglish (US)
JournalJournal of neurointerventional surgery
DOIs
StateAccepted/In press - 2020

Keywords

  • CT
  • embolic
  • stroke

ASJC Scopus subject areas

  • Surgery
  • Clinical Neurology

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