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Threshold quantification of coronary artery blockage using a cascaded ensemble U-Net-based pipeline

bracu.type.groupStudent Works
dc.contributor.advisorAlam, Md. Ashraful
dc.contributor.advisorDofadar, Dibyo Fabian
dc.contributor.authorSakib, Shadman
dc.contributor.authorChowdhury, Momtaheena
dc.contributor.authorNitu, Sumaiya Saba
dc.contributor.authorMysha, Munira Akter
dc.contributor.departmentDepartment of Computer Science and Engineering
dc.date.accessioned2025-08-26T05:28:44Z
dc.date.available2025-08-26T05:28:44Z
dc.date.copyright2025
dc.date.issued2025-06
dc.descriptionCataloged from PDF version of thesis.
dc.descriptionIncludes bibliographical references (pages 31-37).
dc.descriptionThis thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Computer Science and Engineering, 2025.en_US
dc.description.abstractCoronary artery disease remains a primary driver of morbidity and mortality world- wide, with precise quantification of arterial stenosis essential for risk stratification and treatment planning. We propose a fully automated, cascaded–ensemble deep learning framework for 3D CTA analysis that integrates coarse whole‐volume seg- mentation with multi‐model patch‐level refinement and skeleton‐based stenosis as- sessment. First, a 3D U‐Net coarse network localizes the coronary tree across the entire volume. Regions of interest are then cropped via dilated centerline extrac- tion and passed through an ensemble of four patch‐level architectures—3D U‐Net, 3D ResU‐Net, Attention U‐Net, and U‐Net++—to capture fine vessel details. Pre- dicted centerlines are skeletonized and compared against ground truth to compute percentage stenosis, leveraging distance‐transform radii measurements. We evaluate performance over 40 training epochs, reporting AUC, Dice, precision, recall, F1 for training, validation, and test cohorts, alongside bootstrapped 95% CIs, Wilcoxon p‐values, and correlation matrices. Visual comparisons of all model outputs on the same Frangi‐enhanced slices demonstrate complementary strengths, while ensemble voting yields more robust boundary delineation. On a 1000‐case CTA dataset, this research’s approach achieves a mean Dice >0.80 and significantly less stenosis error, illustrating its potential and reliability than other prior researches and 2D Unet Models.en_US
dc.description.degreeBachelor of Science in Computer Science and Engineering
dc.description.statementofresponsibilityShadman Sakib
dc.description.statementofresponsibilityMomtaheena Chowdhury
dc.description.statementofresponsibilitySumaiya Saba Nitu
dc.description.statementofresponsibilityMunira Akter Mysha
dc.format.extent37 pages
dc.identifier.otherID 24141034
dc.identifier.otherID 21201307
dc.identifier.otherID 23241129
dc.identifier.otherID 24341133
dc.identifier.urihttp://hdl.handle.net/10361/26582
dc.language.isoenen_US
dc.publisherBRAC Universityen_US
dc.rightsBRAC University theses are protected by copyright. They may be viewed from this source for any purpose, but reproduction or distribution in any format is prohibited without written permission.
dc.subjectCoronaryen_US
dc.subjectQuantificationen_US
dc.subjectStenosisen_US
dc.titleThreshold quantification of coronary artery blockage using a cascaded ensemble U-Net-based pipelineen_US
dc.typeThesisen_US

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