Enhancing precision in aneurysm volume measurement: A comparative study of techniques including an artificial intelligence-based method for endovascular coiling.

Journal: Surgical neurology international

Published Date: Jan 1, 2025

Abstract

BACKGROUND: Durable occlusion after endovascular coiling can be compromised by recanalization, underscoring the need for accurate cerebral aneurysm assessment. Precise volume measurement not only informs treatment decisions and detects subtle aneurysm growth but also refines calculations of packing density, historically linked to occlusion success. This study compares three volume-measurement approaches-traditional two-dimensional (2D) estimation, a semi-automated three-dimensional (3D) technique, and an artificial intelligence (AI)-based 3D method.

Authors

Rafael Trindade Tatit

Interventional Neuroradiology, Hospital Israelita Albert Einstein, São Paulo, Brazil.
Carlos Eduardo Baccin

Interventional Neuroradiology, Hospital Israelita Albert Einstein, São Paulo, Brazil.
Priya Nair

Department of Biomedical Engineering (2016-2017), Arizona State University, Tempe, United States.
Emmanuel O Mensah

Neurosurgery Division, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, United States.
James Ryan Mason

Department of Radiology, University of Pittsburgh Medical Center, Pittsburgh, United States.
Seena Dehkharghani

Department of Radiology, New York University Langone Medical Center (S.D.).
Karen Copeland

Boulder Statistics, 760 Twilight Ln, Steamboat Springs CO 80487, United States.
Christopher S Ogilvy

Neurosurgery Division, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, United States.

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External Resources

View on PubMed Access via DOI PubMed (40469319)

Enhancing precision in aneurysm volume measurement: A comparative study of techniques including an artificial intelligence-based method for endovascular coiling.

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Enhancing precision in aneurysm volume measurement: A comparative study of techniques including an artificial intelligence-based method for endovascular coiling.

Abstract

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