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1. An Efficient Framework for Accurate Arterial Input Selection in DSC-MRI of Glioma Brain Tumors

Author

Rahimzadeh H., Fathi Kazerooni A., Deevband M. R., and Saligheh Rad H.

Subjects
Perfusion, Dynamic Susceptibility Contrast Enhanced MRI, Arterial Input Function, Cluster Analysis, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Introduction: Automatic and accurate arterial input function (AIF) selection has an essential role for quantification of cerebral perfusion hemodynamic parameters using dynamic susceptibility contrast magnetic resonance imaging (DSC-MRI). The purpose of this study is to develop an optimal automatic method for arterial input function determination in DSC-MRI of glioma brain tumors by using a new preprocessing method. Material and Methods: For this study, DSC-MR images of 43 patients with glioma brain tumors were retrieved retrospectively. Our proposed AIF selection framework consisted an effcient pre-processing step, through which non-arterial curves such as tumorous, tissue, noisy and partial-volume affected curves were excluded, followed by AIF selection through agglomerative hierarchical (AH) clustering method. The performance of automatic AIF clustering was compared with manual AIF selection performed by an experienced radiologist, based on curve shape parameters, i.e. maximum peak (MP), full-width-at-half-maximum (FWHM), M (=MP/ (TTP × FWHM)) and root mean square error (RMSE). Results: Mean values of AIFs shape parameters were compared with those derived from manually selected AIFs by two-tailed paired t-test. The results showed statistically insignificant differences in MP, FWHM, and M parameters and lower RMSE, approving the resemblance of the selected AIF with the gold standard. The intraclass correlation coefficient and coefficients of variation percent showed a better agreement between manual AIF and our proposed AIF selection than previously proposed methods. Conclusion: The results of current work suggest that by using efficient preprocessing steps, the accuracy of automatic AIF selection could be improved and this method appears promising for efficient and accurate clinical applications.

Published
2019

2. Integrating imaging and genomic data for the discovery of distinct glioblastoma subtypes: a joint learning approach

Author

Guo, Jun, Fathi Kazerooni, Anahita, Toorens, Erik, Akbari, Hamed, Yu, Fanyang, Sako, Chiharu, Mamourian, Elizabeth, Shinohara, Russell T., Koumenis, Constantinos, Bagley, Stephen J., Morrissette, Jennifer J. D., Binder, Zev A., Brem, Steven, Mohan, Suyash, Lustig, Robert A., O’Rourke, Donald M., Ganguly, Tapan, Bakas, Spyridon, Nasrallah, MacLean P., and Davatzikos, Christos

Published
2024
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3. Dynamic Contrast Magnetic Resonance Imaging (DCE-MRI) and Diffusion Weighted MR Imaging (DWI) for Differentiation between Benign and Malignant Salivary Gland Tumors

Author

Assili S, Fathi Kazerooni A, Aghaghazvini L, Saligheh Rad. H.R., and Pirayesh Islamian J.

Subjects
DCE-MRI, DWI, Salivary Gland Tumors, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Background: Salivary gland tumors form nearly 3% of head and neck tumors. Due to their large histological variety and vicinity to facial nerves, pre-operative diagnosis and differentiation of benign and malignant parotid tumors are a major challenge for radiologists. Objective: The majority of these tumors are benign; however, sometimes they tend to transform into a malignant form. Functional MRI techniques, namely dynamic contrast enhanced (DCE-) MRI and diffusion-weighted MRI (DWI) can indicate the characteristics of tumor tissue. Methods: DCE-MRI analysis is based on the parameters of time intensity curve (TIC) before and after contrast agent injection. This method has the potential to identify the angiogenesis of tumors. DWI analysis is performed according to diffusion of water molecules in a tissue for determination of the cellularity of tumors. Conclusion: According to the literature, these methods cannot be used individually to differentiate benign from malignant salivary gland tumors. An effective approach could be to combine the aforementioned methods to increase the accuracy of discrimination between different tumor types. The main objective of this study is to explore the application of DCE-MRI and DWI for assessment of salivary gland tumor types.

Published
2012

4. Automated tumor segmentation and brain tissue extraction from multiparametric MRI of pediatric brain tumors: A multi-institutional study.

Author

Fathi Kazerooni, Anahita, Arif, Sherjeel, Madhogarhia, Rachel, Khalili, Nastaran, Haldar, Debanjan, Bagheri, Sina, Familiar, Ariana, Anderson, Hannah, Haldar, Shuvanjan, Tu, Wenxin, Chul Kim, Meen, Viswanathan, Karthik, Muller, Sabine, Prados, Michael, Kline, Cassie, Vidal, Lorenna, Aboian, Mariam, Storm, Phillip, Resnick, Adam, Ware, Jeffrey, Vossough, Arastoo, Davatzikos, Christos, and Nabavizadeh, Ali

Subjects
deep learning, magnetic resonance imaging, pediatric brain tumor, skull-stripping, tumor segmentation
Abstract

BACKGROUND: Brain tumors are the most common solid tumors and the leading cause of cancer-related death among all childhood cancers. Tumor segmentation is essential in surgical and treatment planning, and response assessment and monitoring. However, manual segmentation is time-consuming and has high interoperator variability. We present a multi-institutional deep learning-based method for automated brain extraction and segmentation of pediatric brain tumors based on multi-parametric MRI scans. METHODS: Multi-parametric scans (T1w, T1w-CE, T2, and T2-FLAIR) of 244 pediatric patients ( n = 215 internal and n = 29 external cohorts) with de novo brain tumors, including a variety of tumor subtypes, were preprocessed and manually segmented to identify the brain tissue and tumor subregions into four tumor subregions, i.e., enhancing tumor (ET), non-enhancing tumor (NET), cystic components (CC), and peritumoral edema (ED). The internal cohort was split into training ( n = 151), validation ( n = 43), and withheld internal test ( n = 21) subsets. DeepMedic, a three-dimensional convolutional neural network, was trained and the model parameters were tuned. Finally, the network was evaluated on the withheld internal and external test cohorts. RESULTS: Dice similarity score (median ± SD) was 0.91 ± 0.10/0.88 ± 0.16 for the whole tumor, 0.73 ± 0.27/0.84 ± 0.29 for ET, 0.79 ± 19/0.74 ± 0.27 for union of all non-enhancing components (i.e., NET, CC, ED), and 0.98 ± 0.02 for brain tissue in both internal/external test sets. CONCLUSIONS: Our proposed automated brain extraction and tumor subregion segmentation models demonstrated accurate performance on segmentation of the brain tissue and whole tumor regions in pediatric brain tumors and can facilitate detection of abnormal regions for further clinical measurements.

Published
2023

5. Integrating imaging and genomic data for the discovery of distinct glioblastoma subtypes: a joint learning approach

Author

Jun Guo, Anahita Fathi Kazerooni, Erik Toorens, Hamed Akbari, Fanyang Yu, Chiharu Sako, Elizabeth Mamourian, Russell T. Shinohara, Constantinos Koumenis, Stephen J. Bagley, Jennifer J. D. Morrissette, Zev A. Binder, Steven Brem, Suyash Mohan, Robert A. Lustig, Donald M. O’Rourke, Tapan Ganguly, Spyridon Bakas, MacLean P. Nasrallah, and Christos Davatzikos

Subjects
Medicine, Science
Abstract

Abstract Glioblastoma is a highly heterogeneous disease, with variations observed at both phenotypical and molecular levels. Personalized therapies would be facilitated by non-invasive in vivo approaches for characterizing this heterogeneity. In this study, we developed unsupervised joint machine learning between radiomic and genomic data, thereby identifying distinct glioblastoma subtypes. A retrospective cohort of 571 IDH-wildtype glioblastoma patients were included in the study, and pre-operative multi-parametric MRI scans and targeted next-generation sequencing (NGS) data were collected. L21-norm minimization was used to select a subset of 12 radiomic features from the MRI scans, and 13 key driver genes from the five main signal pathways most affected in glioblastoma were selected from the genomic data. Subtypes were identified using a joint learning approach called Anchor-based Partial Multi-modal Clustering on both radiomic and genomic modalities. Kaplan–Meier analysis identified three distinct glioblastoma subtypes: high-risk, medium-risk, and low-risk, based on overall survival outcome (p

Published
2024
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7. The effects of intraovarian injection of autologous menstrual blood-derived mesenchymal stromal cells on pregnancy outcomes in women with poor ovarian response

Author

Simin Zafardoust, Somaieh Kazemnejad, Mina Fathi-Kazerooni, Maryam Darzi, Mohammad Reza Sadeghi, Ali Sadeghi Tabar, and Zahra Sehat

Subjects
Poor ovarian responder, Menstrual blood stromal cells, Cell therapy, Clinical trial, Infertility, Medicine (General), R5-920, Biochemistry, QD415-436
Abstract

Abstract Background Assisted reproduction faces a significant obstacle in the form of poor ovarian response (POR) to controlled ovarian stimulation. To address this challenge, mesenchymal stem cell therapy has been proposed as a potential treatment for female infertility and/or restoration of ovarian function in POR women. Our previous research has demonstrated that menstrual blood-derived-mesenchymal stromal cells (MenSCs) injected into the ovaries of women with POR can increase pregnancy rates. The objective of this study was to examine whether MenSC therapy could enhance ovarian reserve parameters and pregnancy outcomes in a larger population of individuals with POR. Method This study consisted of 180 infertile individuals with POR who declined oocyte donation. Participants were divided into two groups: those who received bilateral MenSCs intraovarian injection and those who received no intervention. Our primary aim was to compare the rates of spontaneous pregnancy between the two groups, followed by an investigation of any alterations in the ovarian reserve parameters, such as serum FSH, AMH, and AFC levels, as well as the ICSI/IVF outcomes, in both groups of participants. Results The MenSC therapy exhibited a favourable tolerability profile and did not raise any safety concerns. Following the 2-month follow-up period, women who received MenSC treatment demonstrated a significantly higher rate of spontaneous pregnancy (P

Published
2023
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8. Radiomics for characterization of the glioma immune microenvironment

Author

Nastaran Khalili, Anahita Fathi Kazerooni, Ariana Familiar, Debanjan Haldar, Adam Kraya, Jessica Foster, Mateusz Koptyra, Phillip B. Storm, Adam C. Resnick, and Ali Nabavizadeh

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Increasing evidence suggests that besides mutational and molecular alterations, the immune component of the tumor microenvironment also substantially impacts tumor behavior and complicates treatment response, particularly to immunotherapies. Although the standard method for characterizing tumor immune profile is through performing integrated genomic analysis on tissue biopsies, the dynamic change in the immune composition of the tumor microenvironment makes this approach not feasible, especially for brain tumors. Radiomics is a rapidly growing field that uses advanced imaging techniques and computational algorithms to extract numerous quantitative features from medical images. Recent advances in machine learning methods are facilitating biological validation of radiomic signatures and allowing them to “mine” for a variety of significant correlates, including genetic, immunologic, and histologic data. Radiomics has the potential to be used as a non-invasive approach to predict the presence and density of immune cells within the microenvironment, as well as to assess the expression of immune-related genes and pathways. This information can be essential for patient stratification, informing treatment decisions and predicting patients’ response to immunotherapies. This is particularly important for tumors with difficult surgical access such as gliomas. In this review, we provide an overview of the glioma microenvironment, describe novel approaches for clustering patients based on their tumor immune profile, and discuss the latest progress on utilization of radiomics for immune profiling of glioma based on current literature.

Published
2023
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9. Quantification of Multi-Parametric Magnetic Resonance Imaging Based on Radiomics Analysis for Differentiation of Benign and Malignant Lesions of Prostate

Author

Soheila Koopaei, Anahita Fathi Kazerooni, Mahyar Ghafoori, Mohammadreza Alviri, Fakhereh Pashaei, and Hamidreza Saligheh Rad

Subjects
prostatic neoplasms, multiparametric magnetic resonance imaging, radiomics fatures, quantification analysis, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Background: The most common cancer (non-cutaneous) malignancy among men is prostate cancer. Management of prostate cancer, including staging and treatment, playing an important role in decreasing mortality rates. Among all current diagnostic tools, multiparametric MRI (mp-MRI) has shown high potential in localizing and staging prostate cancer. Quantification of mp-MRI helps to decrease the dependency of diagnosis on readers’ opinions. Objective: The aim of this research is to set a method based on quantification of mp-MRI images for discrimination between benign and malignant prostatic lesions with fusion-guided MR imaging/transrectal ultrasonography biopsy as a pathology validation reference. Material and Methods: It is an analytical research that 27 patients underwent the mp-MRI examination, including T1- and T2- weighted and diffusion weighted imaging (DWI). Quantification was done by calculating radiomic features from mp-MRI images. Receiver-operating-characteristic curve was done for each feature to evaluate the discriminatory capacity and linear discriminant analysis (LDA) and leave-one-out cross-validation for feature filtering to estimate the sensitivity, specificity and accuracy of the benign and malignant lesion differentiation process is used. Results: An accuracy, sensitivity and specificity of 92.6%, 95.2% and 83.3%, respectively, were achieved from a subset of radiomics features obtained from T2-weighted images and apparent diffusion coefficient (ADC) maps for distinguishing benign and malignant prostate lesions. Conclusion: Quantification of mp-MRI (T2-weighted images and ADC-maps) based on radiomics feature has potential to distinguish benign with appropriate accuracy from malignant prostate lesions. This technique is helpful in preventing needless biopsies in patients and provides an assisted diagnosis for classifications of prostate lesions.

Published
2023
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10. Time Series Analysis and Correlation of Subway Turnstile Usage and COVID-19 Prevalence in New York City

Author

Fathi-Kazerooni, Sina, Rojas-Cessa, Roberto, Dong, Ziqian, and Umpaichitra, Vatcharapan

Subjects
Physics - Physics and Society, Statistics - Applications
Abstract

In this paper, we show a strong correlation between turnstile usage data of the New York City subway provided by the Metropolitan Transport Authority of New York City and COVID-19 deaths and cases reported by the New York City Department of Health. The turnstile usage data not only indicate the usage of the city's subway but also people's activity that promoted the large prevalence of COVID-19 city dwellers experienced from March to May of 2020. While this correlation is apparent, no proof has been provided before. Here we demonstrate this correlation through the application of a long short-term memory neural network. We show that the correlation of COVID-19 prevalence and deaths considers the incubation and symptomatic phases on reported deaths. Having established this correlation, we estimate the dates when the number of COVID-19 deaths and cases would approach zero after the reported number of deaths were decreasing by using the Auto-Regressive Integrated Moving Average model. We also estimate the dates when the first cases and deaths occurred by back-tracing the data sets and compare them to the reported dates., Comment: S. Fathi-Kazerooni, R. Rojas-Cessa, Z. Dong, and V. Umpaichitra, "Time Series Analysis and Correlation of Subway Turnstile Usage and COVID-19 Prevalence in New York City," pp. 1-8, 2020

Published
2020

11. Beam with Adaptive Divergence Angle in Free-Space Optical Communications for High-Speed Trains

Author

Kaymak, Yagiz, Fathi-Kazerooni, Sina, Rojas-Cessa, Roberto, Feng, JiangHua, Ansari, Nirwan, Zhou, MengChu, and Zhang, Tairan

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Networking and Internet Architecture
Abstract

In this paper, we propose an adaptive beam that adapts its divergence angle according to the receiver aperture diameter and the communication distance to improve the received power and ease the alignment between the communicating optical transceivers in a free-space optical communications (FSOC) system for high-speed trains (HSTs). We compare the received power, signal-to-noise ratio, bit error rate, and the maximum communication distance of the proposed adaptive beam with a beam that uses a fixed divergence angle of 1 mrad. The proposed adaptive beam yields a higher received power with an increase of 33 dB in average over the fixed-divergence beam under varying visibility conditions and distance. Moreover, the proposed adaptive divergence angle extends the communication distance of a FSOC system for HSTs to about three times under different visibility conditions as compared to a fixed divergence beam. We also propose a new ground transceiver placement that places the ground transceivers of a FSOC system for HSTs on gantries placed above the train passage instead of placing them next to track. The proposed transceiver placement provides a received-power increase of 3.8 dB in average over the conventional placement of ground-station transceivers next to the track.

Published
2018

12. Radiomic Analysis of Multi-parametric MR Images (MRI) for Classification of Parotid Tumors

Author

Anahita Fathi Kazerooni, Mahnaz Nabil, Mohammadreza Alviri, Soheila Koopaei, Faezeh Salahshour, Sanam Assili, Hamidreza Saligheh Rad, and Leila Aghaghazvini

Subjects
parotid neoplasms, radiomics, texture analysis, magnetic resonance imaging, machine learning, diagnosis, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Background: Characterization of parotid tumors before surgery using multi-parametric magnetic resonance imaging (MRI) scans can support clinical decision making about the best-suited therapeutic strategy for each patient. Objective: This study aims to differentiate benign from malignant parotid tumors through radiomics analysis of multi-parametric MR images, incorporating T2-w images with ADC-map and parametric maps generated from Dynamic Contrast Enhanced MRI (DCE-MRI).Material and Methods: MRI scans of 31 patients with histopathologically-confirmed parotid gland tumors (23 benign, 8 malignant) were included in this retrospective study. For DCE-MRI, semi-quantitative analysis, Tofts pharmacokinetic (PK) modeling, and five-parameter sigmoid modeling were performed and parametric maps were generated. For each patient, borders of the tumors were delineated on whole tumor slices of T2-w image, ADC-map, and the late-enhancement dynamic series of DCE-MRI, creating regions-of-interest (ROIs). Radiomic analysis was performed for the specified ROIs. Results: Among the DCE-MRI-derived parametric maps, wash-in rate (WIR) and PK-derived Ktrans parameters surpassed the accuracy of other parameters based on support vector machine (SVM) classifier. Radiomics analysis of ADC-map outperformed the T2-w and DCE-MRI techniques using the simpler classifier, suggestive of its inherently high sensitivity and specificity. Radiomics analysis of the combination of T2-w image, ADC-map, and DCE-MRI parametric maps resulted in accuracy of 100% with both classifiers with fewer numbers of selected texture features than individual images. Conclusion: In conclusion, radiomics analysis is a reliable quantitative approach for discrimination of parotid tumors and can be employed as a computer-aided approach for pre-operative diagnosis and treatment planning of the patients.

Published
2022
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13. The University of Pennsylvania glioblastoma (UPenn-GBM) cohort: advanced MRI, clinical, genomics, & radiomics

Author

Spyridon Bakas, Chiharu Sako, Hamed Akbari, Michel Bilello, Aristeidis Sotiras, Gaurav Shukla, Jeffrey D. Rudie, Natali Flores Santamaría, Anahita Fathi Kazerooni, Sarthak Pati, Saima Rathore, Elizabeth Mamourian, Sung Min Ha, William Parker, Jimit Doshi, Ujjwal Baid, Mark Bergman, Zev A. Binder, Ragini Verma, Robert A. Lustig, Arati S. Desai, Stephen J. Bagley, Zissimos Mourelatos, Jennifer Morrissette, Christopher D. Watt, Steven Brem, Ronald L. Wolf, Elias R. Melhem, MacLean P. Nasrallah, Suyash Mohan, Donald M. O’Rourke, and Christos Davatzikos

Subjects
Science
Abstract

Measurement(s) Magnetic Resonance Imaging Technology Type(s) Magnetic Resonance Imaging of the Brain with and without Contrast Sample Characteristic - Organism Homo sapiens Sample Characteristic - Environment brain Sample Characteristic - Location United States of America

Published
2022
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14. Current state of pediatric neuro-oncology imaging, challenges and future directions

Author

Ali Nabavizadeh, Matthew J Barkovich, Ali Mian, Van Ngo, Anahita Fathi Kazerooni, and Javier E Villanueva-Meyer

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Imaging plays a central role in neuro-oncology including primary diagnosis, treatment planning, and surveillance of tumors. The emergence of quantitative imaging and radiomics provided an uprecedented opportunity to compile mineable databases that can be utilized in a variety of applications. In this review, we aim to summarize the current state of conventional and advanced imaging techniques, standardization efforts, fast protocols, contrast and sedation in pediatric neuro-oncologic imaging, radiomics-radiogenomics, multi-omics and molecular imaging approaches. We will also address the existing challenges and discuss future directions.

Published
2023
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15. Clinical measures, radiomics, and genomics offer synergistic value in AI-based prediction of overall survival in patients with glioblastoma

Author

Fathi Kazerooni, Anahita, Saxena, Sanjay, Toorens, Erik, Tu, Danni, Bashyam, Vishnu, Akbari, Hamed, Mamourian, Elizabeth, Sako, Chiharu, Koumenis, Costas, Verginadis, Ioannis, Verma, Ragini, Shinohara, Russell T., Desai, Arati S., Lustig, Robert A., Brem, Steven, Mohan, Suyash, Bagley, Stephen J., Ganguly, Tapan, O’Rourke, Donald M., Bakas, Spyridon, Nasrallah, MacLean P., and Davatzikos, Christos

Published
2022
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17. Clinical measures, radiomics, and genomics offer synergistic value in AI-based prediction of overall survival in patients with glioblastoma

Author

Anahita Fathi Kazerooni, Sanjay Saxena, Erik Toorens, Danni Tu, Vishnu Bashyam, Hamed Akbari, Elizabeth Mamourian, Chiharu Sako, Costas Koumenis, Ioannis Verginadis, Ragini Verma, Russell T. Shinohara, Arati S. Desai, Robert A. Lustig, Steven Brem, Suyash Mohan, Stephen J. Bagley, Tapan Ganguly, Donald M. O’Rourke, Spyridon Bakas, MacLean P. Nasrallah, and Christos Davatzikos

Subjects
Medicine, Science
Abstract

Abstract Multi-omic data, i.e., clinical measures, radiomic, and genetic data, capture multi-faceted tumor characteristics, contributing to a comprehensive patient risk assessment. Here, we investigate the additive value and independent reproducibility of integrated diagnostics in prediction of overall survival (OS) in isocitrate dehydrogenase (IDH)-wildtype GBM patients, by combining conventional and deep learning methods. Conventional radiomics and deep learning features were extracted from pre-operative multi-parametric MRI of 516 GBM patients. Support vector machine (SVM) classifiers were trained on the radiomic features in the discovery cohort (n = 404) to categorize patient groups of high-risk (OS

Published
2022
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18. Unsupervised machine learning using K-means identifies radiomic subgroups of pediatric low-grade gliomas that correlate with key molecular markers

Author

Debanjan Haldar, Anahita Fathi Kazerooni, Sherjeel Arif, Ariana Familiar, Rachel Madhogarhia, Nastaran Khalili, Sina Bagheri, Hannah Anderson, Ibraheem Salman Shaikh, Aria Mahtabfar, Meen Chul Kim, Wenxin Tu, Jefferey Ware, Arastoo Vossough, Christos Davatzikos, Phillip B. Storm, Adam Resnick, and Ali Nabavizadeh

Subjects
Radiomics, Radiogenomics, Pediatric low-grade glioma, Unsupervised machine learning, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Introduction: Despite advancements in molecular and histopathologic characterization of pediatric low-grade gliomas (pLGGs), there remains significant phenotypic heterogeneity among tumors with similar categorizations. We hypothesized that an unsupervised machine learning approach based on radiomic features may reveal distinct pLGG imaging subtypes. Methods: Multi-parametric MR images (T1 pre- and post-contrast, T2, and T2 FLAIR) from 157 patients with pLGGs were collected and 881 quantitative radiomic features were extracted from tumorous region. Clustering was performed using K-means after applying principal component analysis (PCA) for feature dimensionality reduction. Molecular and demographic data was obtained from the PedCBioportal and compared between imaging subtypes. Results: K-means identified three distinct imaging-based subtypes. Subtypes differed in mutational frequencies of BRAF (p < 0.05) as well as the gene expression of BRAF (p

Published
2023
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19. Towards Consistency in Pediatric Brain Tumor Measurements: Challenges, Solutions, and the Role of AI-Based Segmentation

Author

Familiar, Ariana M, primary, Fathi Kazerooni, Anahita, additional, Vossough, Arastoo, additional, Ware, Jeffrey B, additional, Bagheri, Sina, additional, Khalili, Nastaran, additional, Anderson, Hannah, additional, Haldar, Debanjan, additional, Storm, Phillip B, additional, Resnick, Adam C, additional, Kann, Benjamin H, additional, Aboian, Mariam, additional, Kline, Cassie, additional, Weller, Michael, additional, Huang, Raymond Y, additional, Chang, Susan M, additional, Fangusaro, Jason R, additional, Hoffman, Lindsey M, additional, Mueller, Sabine, additional, Prados, Michael, additional, and Nabavizadeh, Ali, additional

Published
2024
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20. Training and Comparison of nnU-Net and DeepMedic Methods for Autosegmentation of Pediatric Brain Tumors

Author

Vossough, Arastoo, primary, Khalili, Nastaran, additional, Familiar, Ariana M., additional, Gandhi, Deep, additional, Viswanathan, Karthik, additional, Tu, Wenxin, additional, Haldar, Debanjan, additional, Bagheri, Sina, additional, Anderson, Hannah, additional, Haldar, Shuvanjan, additional, Storm, Phillip B., additional, Resnick, Adam, additional, Ware, Jeffrey B., additional, Nabavizadeh, Ali, additional, and Fathi Kazerooni, Anahita, additional

Published
2024
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25. Differential Diagnosis Among Alzheimer's Disease, Mild Cognitive Impairment, and Normal Subjects Using Resting-State fMRI Data Extracted from Multi Subject Dictionary Learning Atlas

Author

Farzad Alizadeh, Hassan Homayoun, Amir hossein Batouli, Maryam Noroozian, Forough Sodaie, Hanieh Mobarak Salary, Anahita Fathi Kazerooni, and Hamidreza Saligheh Rad

Subjects
Alzheimer’s Disease, Resting-State Functional Magnetic Resonance Imaging, Blood-Oxygen-Level-Dependent Signal, Artificial Neural Network, Deep Learning, Medical technology, R855-855.5
Abstract

Purpose: A powerful imaging method for evaluating brain patches is resting-state functional magnetic resonance imaging, in which the subject is at rest. Artificial neural networks are one of the several Alzheimer's disease analysis and diagnosis methods which is used in this study. We investigate artificial neural networks' ability to diagnose Alzheimer's disease using resting-state functional magnetic resonance imaging data. Material and Methods: Functional and structural magnetic resonance imaging data acquisition was applied for 15 Alzheimer’s disease, 17 mild cognitive impaired, and ten normal healthy participants. Time series of blood oxygen level dependent extracted from the multi subject dictionary learning brain atlas after pre-processing. This study develops a one-dimensional convolutional neural network using extracted signals of the functional atlas for differential diagnosis of Alzheimer's disease. Results: Applying the proposed method to resting-state functional magnetic resonance imaging signals for classifying three classes of Alzheimer's disease patients resulted in overall accuracy, F1-score, and precision of 0.685 ,0.663, and 0.681 respectively. Using 39 regions in the brain and proposing a quiet simple network than most of the available deep learning-based methods are the main advantages of this model. Conclusion: Resting-state functional magnetic resonance imaging signal recognition based on a functional atlas with the application of a deep neural network has a pattern recognition capability that can make a differential diagnosis with an acceptable level of accuracy and precision. Therefore, deep neural networks can be considered as a tool for the early diagnosis of Alzheimer’s disease.

Published
2022
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26. The ISMRM Open Science Initiative for Perfusion Imaging (OSIPI): Results from the OSIPI–Dynamic Contrast‐Enhanced challenge

Author

Shalom, Eve S., primary, Kim, Harrison, additional, van der Heijden, Rianne A., additional, Ahmed, Zaki, additional, Patel, Reyna, additional, Hormuth, David A., additional, DiCarlo, Julie C., additional, Yankeelov, Thomas E., additional, Sisco, Nicholas J., additional, Dortch, Richard D., additional, Stokes, Ashley M., additional, Inglese, Marianna, additional, Grech‐Sollars, Matthew, additional, Toschi, Nicola, additional, Sahoo, Prativa, additional, Singh, Anup, additional, Verma, Sanjay K., additional, Rathore, Divya K., additional, Kazerouni, Anum S., additional, Partridge, Savannah C., additional, LoCastro, Eve, additional, Paudyal, Ramesh, additional, Wolansky, Ivan A., additional, Shukla‐Dave, Amita, additional, Schouten, Pepijn, additional, Gurney‐Champion, Oliver J., additional, Jiřík, Radovan, additional, Macíček, Ondřej, additional, Bartoš, Michal, additional, Vitouš, Jiří, additional, Das, Ayesha Bharadwaj, additional, Kim, S. Gene, additional, Bokacheva, Louisa, additional, Mikheev, Artem, additional, Rusinek, Henry, additional, Berks, Michael, additional, Hubbard Cristinacce, Penny L., additional, Little, Ross A., additional, Cheung, Susan, additional, O'Connor, James P. B., additional, Parker, Geoff J. M., additional, Moloney, Brendan, additional, LaViolette, Peter S., additional, Bobholz, Samuel, additional, Duenweg, Savannah, additional, Virostko, John, additional, Laue, Hendrik O., additional, Sung, Kyunghyun, additional, Nabavizadeh, Ali, additional, Saligheh Rad, Hamidreza, additional, Hu, Leland S., additional, Sourbron, Steven, additional, Bell, Laura C., additional, and Fathi Kazerooni, Anahita, additional

Published
2023
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27. GAN Tunnel: Network Traffic Steganography by Using GANs to Counter Internet Traffic Classifiers

Author

Sina Fathi-Kazerooni and Roberto Rojas-Cessa

Subjects
Generative adversarial networks, GAN, Internet packet classification, machine learning, online privacy, statistical traffic properties, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

In this paper, we introduce a novel traffic masking method, called Generative Adversarial Network (GAN) tunnel, to protect the identity of applications that generate network traffic from classification by adversarial Internet traffic classifiers (ITCs). Such ITCs have been used in the past for website fingerprinting and detection of network protocols. Their use is becoming more ubiquitous than before for inferring user information. ITCs based on machine learning can identify user applications by analyzing the statistical features of encrypted packets. Our proposed GAN tunnel generates traffic that mimics a decoy application and encapsulates actual user traffic in the GAN-generated traffic to prevent classification from adversarial ITCs. We show that the statistical distributions of the generated traffic features closely resemble those of the actual network traffic. Therefore, the actual user applications and information associated with the user remain anonymous. We test the GAN tunnel traffic against high-performing ITCs, such as Random Forest and eXtreme Gradient Boosting (XGBoost), and we show that the GAN tunnel protects the identity of the source applications effectively.

Published
2020
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33. The Pro12Ala polymorphism in the PPAR­γ2 gene is not associated with an increased risk of NAFLD in Iranian patients with type 2 diabetes mellitus

Author

Leila Saremi, Shirin Lotfipanah, Masumeh Mohammadi, Hassan Hosseinzadeh, Mina Fathi-Kazerooni, Behrooz Johari, and Zohreh Saltanatpour

Subjects
Pro12Ala polymorphism, PPAR­γ2 gene, NAFLD, Type 2 diabetes mellitus, Cytology, QH573-671
Abstract

Abstract Background The peroxisome proliferator-activated receptors (PPARs) are ligand-activated transcription factors that belong to the nuclear hormone receptor superfamily. Several studies have demonstrated a significant association between Pro12Ala polymorphism of the PPAR­γ2 gene and metabolic disorders. Therefore, this study aimed to evaluate the association of Pro12Ala polymorphism with increased risk of NAFLD in Iranian patients with type 2 diabetes mellitus. Methods This cross-sectional study was performed on 145 healthy control subjects and 145 NAFLD patients with a history of type 2 diabetes. Pro12Ala polymorphism genotyping was performed using PCR–restriction fragment length polymorphism (RFLP) technique with the Bs1I restriction enzyme. Results Our results demonstrated that CC and GG genotypes of Pro12Ala were found in the participants, but there was no statistically significant difference between NAFLD patients and healthy controls (P = 0.64 and χ2 = 0.21). Conclusion This study suggests that Pro12Ala polymorphism of the PPAR­γ2 gene cannot be considered as a risk factor for NAFLD in the Iranian population.

Published
2019
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37. Radiomic signatures of meningiomas using the Ki-67 proliferation index as a prognostic marker of clinical outcomes

Author

Khanna, Omaditya, primary, Fathi Kazerooni, Anahita, additional, Arif, Sherjeel, additional, Mahtabfar, Aria, additional, Momin, Arbaz A., additional, Andrews, Carrie E., additional, Hafazalla, Karim, additional, Baldassari, Michael P., additional, Velagapudi, Lohit, additional, Garcia, Jose A., additional, Sako, Chiharu, additional, Farrell, Christopher J., additional, Evans, James J., additional, Judy, Kevin D., additional, Andrews, David W., additional, Flanders, Adam E., additional, Shi, Wenyin, additional, and Davatzikos, Christos, additional

Published
2023
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39. Radio-Pathomic Approaches in Pediatric Neurooncology: Opportunities and Challenges

Author

Familiar, Ariana M., Mahtabfar, Aria, Fathi Kazerooni, Anahita, Kiani, Mahsa, Vossough, Arastoo, Viaene, Angela, Storm, Philip B., Resnick, Adam C., Nabavizadeh, Ali, Familiar, Ariana M., Mahtabfar, Aria, Fathi Kazerooni, Anahita, Kiani, Mahsa, Vossough, Arastoo, Viaene, Angela, Storm, Philip B., Resnick, Adam C., and Nabavizadeh, Ali

Abstract

With medical software platforms moving to cloud environments with scalable storage and computing, the translation of predictive artificial intelligence (AI) models to aid in clinical decision-making and facilitate personalized medicine for cancer patients is becoming a reality. Medical imaging, namely radiologic and histologic images, has immense analytical potential in neuro-oncology, and models utilizing integrated radiomic and pathomic data may yield a synergistic effect and provide a new modality for precision medicine. At the same time, the ability to harness multi-modal data is met with challenges in aggregating data across medical departments and institutions, as well as significant complexity in modeling the phenotypic and genotypic heterogeneity of pediatric brain tumors. In this paper, we review recent pathomic and integrated pathomic, radiomic, and genomic studies with clinical applications. We discuss current challenges limiting translational research on pediatric brain tumors and outline technical and analytical solutions. Overall, we propose that to empower the potential residing in radio-pathomics, systemic changes in cross-discipline data management and end-to-end software platforms to handle multi-modal data sets are needed, in addition to embracing modern AI-powered approaches. These changes can improve the performance of predictive models, and ultimately the ability to advance brain cancer treatments and patient outcomes through the development of such models.

Published
2023

43. Adding Value to Liquid Biopsy for Brain Tumors: The Role of Imaging.

Author

Khalili, Nastaran, Shooli, Hossein, Hosseini, Nastaran, Fathi Kazerooni, Anahita, Familiar, Ariana, Bagheri, Sina, Anderson, Hannah, Bagley, Stephen J., and Nabavizadeh, Ali

Subjects
BRAIN tumor diagnosis, PROFESSIONAL practice, NEUROLOGY, BLOOD-brain barrier, DNA, CENTRAL nervous system tumors, EARLY detection of cancer, MAGNETIC resonance imaging, POSITRON emission tomography computed tomography, BRAIN tumors, BODY fluid examination, TUMOR markers, CANCER patient medical care
Abstract

Simple Summary: Clinical management in neuro-oncology has shifted to an integrated method that combines molecular profiles with histopathological and imaging data. Liquid biopsy is a non-invasive method that captures the molecular diversity of the whole tumor by detecting specific tumor biomarkers that circulate in body fluids like the cerebrospinal fluid. However, the limited presence and short half-life of tumor-derived biomarkers, especially in central nervous system (CNS) tumors, have restricted the use of liquid biopsy in clinical settings. Here, we review the diverse clinical applications of liquid biopsy in CNS tumors and discuss the added value of imaging in enhancing the release and detection of circulating tumor biomarkers. Clinical management in neuro-oncology has changed to an integrative approach that incorporates molecular profiles alongside histopathology and imaging findings. While the World Health Organization (WHO) guideline recommends the genotyping of informative alterations as a routine clinical practice for central nervous system (CNS) tumors, the acquisition of tumor tissue in the CNS is invasive and not always possible. Liquid biopsy is a non-invasive approach that provides the opportunity to capture the complex molecular heterogeneity of the whole tumor through the detection of circulating tumor biomarkers in body fluids, such as blood or cerebrospinal fluid (CSF). Despite all of the advantages, the low abundance of tumor-derived biomarkers, particularly in CNS tumors, as well as their short half-life has limited the application of liquid biopsy in clinical practice. Thus, it is crucial to identify the factors associated with the presence of these biomarkers and explore possible strategies that can increase the shedding of these tumoral components into biological fluids. In this review, we first describe the clinical applications of liquid biopsy in CNS tumors, including its roles in the early detection of recurrence and monitoring of treatment response. We then discuss the utilization of imaging in identifying the factors that affect the detection of circulating biomarkers as well as how image-guided interventions such as focused ultrasound can help enhance the presence of tumor biomarkers through blood–brain barrier (BBB) disruption. [ABSTRACT FROM AUTHOR]

Published
2023
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46. The Radiogenomic and Spatiogenomic Landscapes of Glioblastoma, and their Relationship to Oncogenic Drivers

Author

Anahita Fathi Kazerooni, Hamed Akbari, Xiaoju Hu, Vikas Bommineni, Dimitris Grigoriadis, Erik Toorens, Chiharu Sako, Elizabeth Mamourian, Dominique Ballinger, Robyn Sussman, Ashish Singh, Ioannis I. Verginadis, Nadia Dahmane, Constantinos Koumenis, Zev A. Binder, Stephen J. Bagley, Suyash Mohan, Artemis Hatzigeorgiou, Donald M. O’Rourke, Tapan Ganguly, Subhajyoti De, Spyridon Bakas, MacLean P. Nasrallah, and Christos Davatzikos

Abstract

Glioblastoma (GBM) is well-known for its molecular and spatial heterogeneity, which poses a challenge for precision therapies and clinical trial stratification. Here, in a comprehensive radiogenomics study of 358 GBMs, we investigated the associations between the imaging and spatial characteristics of the tumors with their cancer gene mutation status, as well as with the cross-sectionally inferred likely order of mutational events. We show that cross-validated machine learning analysis of multi-parametric MRI scans results in distinctivein vivoimaging signatures of several mutations, which are relatively more distinctive in homogeneous tumors which harbor only one of these mutations. These imaging signatures offer mechanistic insights into how various mutations influence the phenotype of the tumor and its surrounding infiltrated brain tissue via neovascularization and vascular leakage, increased cell density, invasion and migration, and other characteristics captured by respective imaging features. Furthermore, we found that spatial location and tumor distribution vary, depending on the GBM’s molecular characteristics. Finally, distinct imaging and spatial characteristics were associated with cross-sectionally estimated evolutionary trajectories of the tumors. Collectively, our study establishes a panel ofin vivoand clinically accessible imaging-AI biomarkers of GBM that reflect their molecular composition and oncogenic drivers.

Published
2022

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