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231 results on '"ENQUOBAHRIE, Andinet"'

1. Focused Active Learning for Histopathological Image Classification

Author

Schmidt, Arne, Morales-Álvarez, Pablo, Cooper, Lee A. D., Newberg, Lee A., Enquobahrie, Andinet, Katsaggelos, Aggelos K., and Molina, Rafael

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Active Learning (AL) has the potential to solve a major problem of digital pathology: the efficient acquisition of labeled data for machine learning algorithms. However, existing AL methods often struggle in realistic settings with artifacts, ambiguities, and class imbalances, as commonly seen in the medical field. The lack of precise uncertainty estimations leads to the acquisition of images with a low informative value. To address these challenges, we propose Focused Active Learning (FocAL), which combines a Bayesian Neural Network with Out-of-Distribution detection to estimate different uncertainties for the acquisition function. Specifically, the weighted epistemic uncertainty accounts for the class imbalance, aleatoric uncertainty for ambiguous images, and an OoD score for artifacts. We perform extensive experiments to validate our method on MNIST and the real-world Panda dataset for the classification of prostate cancer. The results confirm that other AL methods are 'distracted' by ambiguities and artifacts which harm the performance. FocAL effectively focuses on the most informative images, avoiding ambiguities and artifacts during acquisition. For both experiments, FocAL outperforms existing AL approaches, reaching a Cohen's kappa of 0.764 with only 0.69% of the labeled Panda data.

Published
2024

2. Harmonization Benchmarking Tool for Neuroimaging Datasets

Author

Osika, Tom, Ebrahim, Ebrahim, Styner, Martin, Niethammer, Marc, Sawyer, Thomas, and Enquobahrie, Andinet

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Quantitative Biology - Quantitative Methods
Abstract

A major data pre-processing step for large, multi-site studies is to handle site effects by harmonizing data, generating a dataset that enables more powerful analyses and more robust algorithms. There is a wide variety of data harmonization techniques, but there are few tools that streamline the process of harmonizing data, comparing across techniques, and benchmarking new techniques. In this paper, we introduce HArmonization BEnchmarking Tool (HABET), an open source tool for generating harmonized images and evaluating the performance of different harmonization algorithms. To demonstrate the capabilities of HABET, we harmonize diffusion MRI images from the Adolescent Brain and Cognitive Development (ABCD) study using two different approaches, and we compare their performance., Comment: This work has been submitted to the IEEE for possible publication

Published
2022

3. Optimal Transport Features for Morphometric Population Analysis

Author

Gerber, Samuel, Niethammer, Marc, Ebrahim, Ebrahim, Piven, Joseph, Dager, Stephen R., Styner, Martin, Aylward, Stephen, and Enquobahrie, Andinet

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing, Quantitative Biology - Quantitative Methods, I.4.9, J.3, I.5.2
Abstract

Brain pathologies often manifest as partial or complete loss of tissue. The goal of many neuroimaging studies is to capture the location and amount of tissue changes with respect to a clinical variable of interest, such as disease progression. Morphometric analysis approaches capture local differences in the distribution of tissue or other quantities of interest in relation to a clinical variable. We propose to augment morphometric analysis with an additional feature extraction step based on unbalanced optimal transport. The optimal transport feature extraction step increases statistical power for pathologies that cause spatially dispersed tissue loss, minimizes sensitivity to shifts due to spatial misalignment or differences in brain topology, and separates changes due to volume differences from changes due to tissue location. We demonstrate the proposed optimal transport feature extraction step in the context of a volumetric morphometric analysis of the OASIS-1 study for Alzheimer's disease. The results demonstrate that the proposed approach can identify tissue changes and differences that are not otherwise measurable., Comment: submitted to Medical Image Analysis

Published
2022

4. Image-based immersed boundary model of the aortic root

Author

Hasan, Ali, Kolahdouz, Ebrahim M., Enquobahrie, Andinet, Caranasos, Thomas G., Vavalle, John P., and Griffith, Boyce E.

Subjects
Physics - Medical Physics, Computer Science - Computational Engineering, Finance, and Science, Computer Science - Computer Vision and Pattern Recognition
Abstract

Each year, approximately 300,000 heart valve repair or replacement procedures are performed worldwide, including approximately 70,000 aortic valve replacement surgeries in the United States alone. This paper describes progress in constructing anatomically and physiologically realistic immersed boundary (IB) models of the dynamics of the aortic root and ascending aorta. This work builds on earlier IB models of fluid-structure interaction (FSI) in the aortic root, which previously achieved realistic hemodynamics over multiple cardiac cycles, but which also were limited to simplified aortic geometries and idealized descriptions of the biomechanics of the aortic valve cusps. By contrast, the model described herein uses an anatomical geometry reconstructed from patient-specific computed tomography angiography (CTA) data, and employs a description of the elasticity of the aortic valve leaflets based on a fiber-reinforced constitutive model fit to experimental tensile test data. Numerical tests show that the model is able to resolve the leaflet biomechanics in diastole and early systole at practical grid spacings. The model is also used to examine differences in the mechanics and fluid dynamics yielded by fresh valve leaflets and glutaraldehyde-fixed leaflets similar to those used in bioprosthetic heart valves. Although there are large differences in the leaflet deformations during diastole, the differences in the open configurations of the valve models are relatively small, and nearly identical hemodynamics are obtained in all cases considered.

Published
2017

6. SlicerPET: A workflow based software module for PET/CT guided needle biopsy

Author

Zukić, Dženan, Finet, Julien, Wilson, Emmanuel, Banovac, Filip, Esposito, Giuseppe, Cleary, Kevin, and Enquobahrie, Andinet

Subjects
Computer Science - Graphics, I.4.9
Abstract

Biopsy is commonly used to confirm cancer diagnosis when radiologically indicated. Given the ability of PET to localize malignancies in heterogeneous tumors and tumors that do not have a CT correlate, PET/CT guided biopsy may improve the diagnostic yield of biopsies. To facilitate PET/CT guided needle biopsy, we developed a workflow that allows us to bring PET image guidance into the interventional CT suite. In this abstract, we present SlicerPET, a user-friendly workflow based module developed using open source software libraries to guide needle biopsy in the interventional suite.

Published
2015
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7. The interactive medical simulation toolkit (iMSTK): an open source platform for surgical simulation.

Author

Moore, Jacob, Scheirich, Harald, Jadhav, Shreeraj, Enquobahrie, Andinet, Paniagua, Beatriz, Wilson, Andrew, Bray, Aaron, Sankaranarayanan, Ganesh, and Clipp, Rachel B.

Subjects
MEDICAL simulation, HERNIA surgery, HUMAN error, HIATAL hernia, SURGICAL meshes
Abstract

Introduction: Human error is one of the leading causes of medical error. It is estimated that human error leads to between 250,000 and 440,000 deaths each year. Medical simulation has been shown to improve the skills and confidence of clinicians and reduce medical errors. Surgical simulation is critical for training surgeons in complicated procedures and can be particularly effective in skill retention. Methods: The interactive Medical Simulation Toolkit (iMSTK) is an open source platform with position-based dynamics, continuous collision detection, smooth particle hydrodynamics, integrated haptics, and compatibility with Unity and Unreal, among others. iMSTK provides a wide range of real-time simulation capabilities with a flexible open-source license (Apache 2.0) that encourages adoption across the research and commercial simulation communities. iMSTK uses extended position-based dynamics and an established collision and constraint implementations to model biological tissues and their interactions with medical tools and other tissues. Results: The platform demonstrates performance, that is, compatible with realtime simulation that incorporates both visualization and haptics. iMSTK has been used in a variety of virtual simulations, including for laparoscopic hiatal hernia surgery, laparoscopic cholecystectomy, osteotomy procedures, and kidney biopsy procedures. Discussion: iMSTK currently supports building simulations for a wide range of surgical scenarios. Future work includes expanding Unity support to make it easier to use and improving the speed of the computation to allow for larger scenes and finer meshes for larger surgical procedures. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Active Learning Technique for Multimodal Brain Tumor Segmentation Using Limited Labeled Images

Author

Sharma, Dhruv, Shanis, Zahil, Reddy, Chandan K., Gerber, Samuel, Enquobahrie, Andinet, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Wang, Qian, editor, Milletari, Fausto, editor, Nguyen, Hien V., editor, Albarqouni, Shadi, editor, Cardoso, M. Jorge, editor, Rieke, Nicola, editor, Xu, Ziyue, editor, Kamnitsas, Konstantinos, editor, Patel, Vishal, editor, Roysam, Badri, editor, Jiang, Steve, editor, Zhou, Kevin, editor, Luu, Khoa, editor, and Le, Ngan, editor

Published
2019
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9. Intramodality Domain Adaptation Using Self Ensembling and Adversarial Training

Author

Shanis, Zahil, Gerber, Samuel, Gao, Mingchen, Enquobahrie, Andinet, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Wang, Qian, editor, Milletari, Fausto, editor, Nguyen, Hien V., editor, Albarqouni, Shadi, editor, Cardoso, M. Jorge, editor, Rieke, Nicola, editor, Xu, Ziyue, editor, Kamnitsas, Konstantinos, editor, Patel, Vishal, editor, Roysam, Badri, editor, Jiang, Steve, editor, Zhou, Kevin, editor, Luu, Khoa, editor, and Le, Ngan, editor

Published
2019
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14. Intracranial Volume Quantification from 3D Photography

Author

Tu, Liyun, Porras, Antonio R., Ensel, Scott, Tsering, Deki, Paniagua, Beatriz, Enquobahrie, Andinet, Oh, Albert, Keating, Robert, Rogers, Gary F., Linguraru, Marius George, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Cardoso, M. Jorge, editor, Arbel, Tal, editor, Luo, Xiongbiao, editor, Wesarg, Stefan, editor, Reichl, Tobias, editor, González Ballester, Miguel Ángel, editor, McLeod, Jonathan, editor, Drechsler, Klaus, editor, Peters, Terry, editor, Erdt, Marius, editor, Mori, Kensaku, editor, Linguraru, Marius George, editor, Uhl, Andreas, editor, Oyarzun Laura, Cristina, editor, and Shekhar, Raj, editor

Published
2017
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15. Locally Affine Diffeomorphic Surface Registration for Planning of Metopic Craniosynostosis Surgery

Author

Porras, Antonio R., Paniagua, Beatriz, Enquobahrie, Andinet, Ensel, Scott, Shah, Hina, Keating, Robert, Rogers, Gary F., Linguraru, Marius George, Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Pandu Rangan, C., Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Weikum, Gerhard, Series Editor, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Descoteaux, Maxime, editor, Maier-Hein, Lena, editor, Franz, Alfred, editor, Jannin, Pierre, editor, Collins, D. Louis, editor, and Duchesne, Simon, editor

Published
2017
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26. Ultrasound-Guided Navigation System for Orthognathic Surgery

Author

Paniagua, Beatriz, Zukic, Dženan, Ortiz, Ricardo, Aylward, Stephen, Golden, Brent, Nguyen, Tung, Enquobahrie, Andinet, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Linte, Cristian A, editor, Yaniv, Ziv, editor, and Fallavollita, Pascal, editor

Published
2015
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28. Bender: An Open Source Software for Efficient Model Posing and Morphing

Author

Finet, Julien, Ortiz, Ricardo, Andruejol, Johan, Enquobahrie, Andinet, Jomier, Julien, Payne, Jason, Aylward, Stephen, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Kobsa, Alfred, Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Bello, Fernando, editor, and Cotin, Stéphane, editor

Published
2014
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29. Designing tracking software for image-guided surgery applications: IGSTK experience

Author

Enquobahrie, Andinet, Gobbi, David, Turek, Matthew, Cheng, Patrick, Yaniv, Ziv, Lindseth, Frank, and Cleary, Kevin

Abstract

Abstract: Objective: Many image-guided surgery applications require tracking devices as part of their core functionality. The Image-Guided Surgery Toolkit (IGSTK) was designed and developed to interface tracking devices with software applications incorporating medical images. Methods: IGSTK was designed as an open source C++ library that provides the basic components needed for fast prototyping and development of image-guided surgery applications. This library follows a component-based architecture with several components designed for specific sets of image-guided surgery functions. At the core of the toolkit is the tracker component that handles communication between a control computer and navigation device to gather pose measurements of surgical instruments present in the surgical scene. The representations of the tracked instruments are superimposed on anatomical images to provide visual feedback to the clinician during surgical procedures. Results: The initial version of the IGSTK toolkit has been released in the public domain and several trackers are supported. The toolkit and related information are available at http://www.igstk.org. Conclusion: With the increased popularity of minimally invasive procedures in health care, several tracking devices have been developed for medical applications. Designing and implementing high-quality and safe software to handle these different types of trackers in a common framework is a challenging task. It requires establishing key software design principles that emphasize abstraction, extensibility, reusability, fault-tolerance, and portability. IGSTK is an open source library that satisfies these needs for the image-guided surgery community.

Published
2024
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