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1. Leveraging Local Structure for Improving Model Explanations: An Information Propagation Approach

Author

Yang, Ruo, Wang, Binghui, and Bilgic, Mustafa

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Numerous explanation methods have been recently developed to interpret the decisions made by deep neural network (DNN) models. For image classifiers, these methods typically provide an attribution score to each pixel in the image to quantify its contribution to the prediction. However, most of these explanation methods appropriate attribution scores to pixels independently, even though both humans and DNNs make decisions by analyzing a set of closely related pixels simultaneously. Hence, the attribution score of a pixel should be evaluated jointly by considering itself and its structurally-similar pixels. We propose a method called IProp, which models each pixel's individual attribution score as a source of explanatory information and explains the image prediction through the dynamic propagation of information across all pixels. To formulate the information propagation, IProp adopts the Markov Reward Process, which guarantees convergence, and the final status indicates the desired pixels' attribution scores. Furthermore, IProp is compatible with any existing attribution-based explanation method. Extensive experiments on various explanation methods and DNN models verify that IProp significantly improves them on a variety of interpretability metrics.

Published

2024

2. \chi-sepnet: Deep neural network for magnetic susceptibility source separation

Author

Kim, Minjun, Ji, Sooyeon, Kim, Jiye, Min, Kyeongseon, Jeong, Hwihun, Youn, Jonghyo, Kim, Taechang, Jang, Jinhee, Bilgic, Berkin, Shin, Hyeong-Geol, and Lee, Jongho

Subjects

Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Magnetic susceptibility source separation ($\chi$-separation), an advanced quantitative susceptibility mapping (QSM) method, enables the separate estimation of para- and diamagnetic susceptibility source distributions in the brain. The method utilizes reversible transverse relaxation (R2'=R2*-R2) to complement frequency shift information for estimating susceptibility source concentrations, requiring time-consuming data acquisition for R2 in addition R2*. To address this challenge, we develop a new deep learning network, $\chi$-sepnet, and propose two deep learning-based susceptibility source separation pipelines, $\chi$-sepnet-R2' for inputs with multi-echo GRE and multi-echo spin-echo, and $\chi$-sepnet-R2* for input with multi-echo GRE only. $\chi$-sepnet is trained using multiple head orientation data that provide streaking artifact-free labels, generating high-quality $\chi$-separation maps. The evaluation of the pipelines encompasses both qualitative and quantitative assessments in healthy subjects, and visual inspection of lesion characteristics in multiple sclerosis patients. The susceptibility source-separated maps of the proposed pipelines delineate detailed brain structures with substantially reduced artifacts compared to those from conventional regularization-based reconstruction methods. In quantitative analysis, $\chi$-sepnet-R2' achieves the best outcomes followed by $\chi$-sepnet-R2*, outperforming the conventional methods. When the lesions of multiple sclerosis patients are assessed, both pipelines report identical lesion characteristics in most lesions ($\chi$para: 99.6% and $\chi$dia: 98.4% out of 250 lesions). The $\chi$-sepnet-R2* pipeline, which only requires multi-echo GRE data, has demonstrated its potential to offer broad clinical and scientific applications, although further evaluations for various diseases and pathological conditions are necessary., Comment: 33 pages, 12 figures

Published

2024

3. PRIME: Phase Reversed Interleaved Multi-Echo acquisition enables highly accelerated distortion-free diffusion MRI

Author

Jun, Yohan, Liu, Qiang, Gong, Ting, Cho, Jaejin, Fujita, Shohei, Yong, Xingwang, Huang, Susie Y, Ning, Lipeng, Yendiki, Anastasia, Rathi, Yogesh, and Bilgic, Berkin

Subjects

Physics - Medical Physics, Electrical Engineering and Systems Science - Image and Video Processing, Electrical Engineering and Systems Science - Signal Processing

Abstract

Purpose: To develop and evaluate a new pulse sequence for highly accelerated distortion-free diffusion MRI (dMRI) by inserting an additional echo without prolonging TR, when generalized slice dithered enhanced resolution (gSlider) radiofrequency encoding is used for volumetric acquisition. Methods: A phase-reversed interleaved multi-echo acquisition (PRIME) was developed for rapid, high-resolution, and distortion-free dMRI, which includes two echoes where the first echo is for target diffusion-weighted imaging (DWI) acquisition with high-resolution and the second echo is acquired with either 1) lower-resolution for high-fidelity field map estimation, or 2) matching resolution to enable efficient diffusion relaxometry acquisitions. The sequence was evaluated on in vivo data acquired from healthy volunteers on clinical and Connectome 2.0 scanners. Results: In vivo experiments demonstrated that 1) high in-plane acceleration (Rin-plane of 5-fold with 2D partial Fourier) was achieved using the high-fidelity field maps estimated from the second echo, which was made at a lower resolution/acceleration to increase its SNR while matching the effective echo spacing of the first readout, 2) high-resolution diffusion relaxometry parameters were estimated from dual-echo PRIME data using a white matter model of multi-TE spherical mean technique (MTE-SMT), and 3) high-fidelity mesoscale DWI at 550 um isotropic resolution could be obtained in vivo by capitalizing on the high-performance gradients of the Connectome 2.0 scanner. Conclusion: The proposed PRIME sequence enabled highly accelerated, high-resolution, and distortion-free dMRI using an additional echo without prolonging scan time when gSlider encoding is utilized., Comment: 12 figures, 1 table

Published

2024

4. Fast Whole-Brain MR Multi-Parametric Mapping with Scan-Specific Self-Supervised Networks

Author

Heydari, Amir, Ahmadi, Abbas, Kim, Tae Hyung, and Bilgic, Berkin

Subjects

Quantitative Biology - Quantitative Methods, Physics - Medical Physics

Abstract

Quantification of tissue parameters using MRI is emerging as a powerful tool in clinical diagnosis and research studies. The need for multiple long scans with different acquisition parameters prohibits quantitative MRI from reaching widespread adoption in routine clinical and research exams. Accelerated parameter mapping techniques leverage parallel imaging, signal modelling and deep learning to offer more practical quantitative MRI acquisitions. However, the achievable acceleration and the quality of maps are often limited. Joint MAPLE is a recent state-of-the-art multi-parametric and scan-specific parameter mapping technique with promising performance at high acceleration rates. It synergistically combines parallel imaging, model-based and machine learning approaches for joint mapping of T1, T2*, proton density and the field inhomogeneity. However, Joint MAPLE suffers from prohibitively long reconstruction time to estimate the maps from a multi-echo, multi-flip angle (MEMFA) dataset at high resolution in a scan-specific manner. In this work, we propose a faster version of Joint MAPLE which retains the mapping performance of the original version. Coil compression, random slice selection, parameter-specific learning rates and transfer learning are synergistically combined in the proposed framework. It speeds-up the reconstruction time up to 700 times than the original version and processes a whole-brain MEMFA dataset in 21 minutes on average, which originally requires ~260 hours for Joint MAPLE. The mapping performance of the proposed framework is ~2-fold better than the standard and the state-of-the-art evaluated reconstruction techniques on average in terms of the root mean squared error.

Published

2024

5. PCAPVision: PCAP-Based High-Velocity and Large-Volume Network Failure Detection

Author

Tulczyjew, Lukasz, Biruk, Ihor, Bilgic, Murat, Abondo, Charles, and Weill, Nathanael

Subjects

Computer Science - Networking and Internet Architecture, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Detecting failures via analysis of Packet Capture (PCAP) files is crucial for maintaining network reliability and performance, especially in large-scale telecommunications networks. Traditional methods, relying on manual inspection and rule-based systems, are often too slow and labor-intensive to meet the demands of modern networks. In this paper, we present PCAPVision, a novel approach that utilizes computer vision and Convolutional Neural Networks (CNNs) to detect failures in PCAP files. By converting PCAP data into images, our method leverages the robust pattern recognition capabilities of CNNs to analyze network traffic efficiently. This transformation process involves encoding packet data into structured images, enabling rapid and accurate failure detection. Additionally, we incorporate a continual learning framework, leveraging automated annotation for the feedback loop, to adapt the model dynamically and ensure sustained performance over time. Our approach significantly reduces the time required for failure detection. The initial training phase uses a Voice Over LTE (VoLTE) dataset, demonstrating the model's effectiveness and generalizability when using transfer learning on Mobility Management services. This work highlights the potential of integrating computer vision techniques in network analysis, offering a scalable and efficient solution for real-time network failure detection., Comment: Copyright 2024 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works

Published

2024

6. NLCG-Net: A Model-Based Zero-Shot Learning Framework for Undersampled Quantitative MRI Reconstruction

Author

Jiang, Xinrui, Jun, Yohan, Cho, Jaejin, Gao, Mengze, Yong, Xingwang, and Bilgic, Berkin

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing

Abstract

Typical quantitative MRI (qMRI) methods estimate parameter maps after image reconstructing, which is prone to biases and error propagation. We propose a Nonlinear Conjugate Gradient (NLCG) optimizer for model-based T2/T1 estimation, which incorporates U-Net regularization trained in a scan-specific manner. This end-to-end method directly estimates qMRI maps from undersampled k-space data using mono-exponential signal modeling with zero-shot scan-specific neural network regularization to enable high fidelity T1 and T2 mapping. T2 and T1 mapping results demonstrate the ability of the proposed NLCG-Net to improve estimation quality compared to subspace reconstruction at high accelerations., Comment: 8 pages, 5 figures, submitted to International Society for Magnetic Resonance in Medicine 2024

Published

2024

7. Evaluation of the Factors Influencing Mortality in Patients with Stevens-Johnson Syndrome and Toxic Epidermal Necrolysis: A Multicenter Study of 166 Patients

Author

Erduran, Funda, Adışen, Esra, Emre, Selma, Hayran, Yıldız, Başkan, Emel Bülbül, Yazıcı, Serkan, Bilgiç, Aslı, Alpsoy, Erkan, Günaydın, Sibel Doğan, Elmas, Leyla, Akyol, Melih, Güner, RukiyeYasak, Arıca, Deniz Aksu, Aypek, Yağmur, Ergun, Tülin, Karavelioğlu, Dilan, Yazıcı, Ayça Cordan, Aydoğan, Kübra, Bayramgürler, Dilek, Kıran, Rebiay, Erdoğan, Hilal Kaya, Acer, Ersoy, and Aktaş, Akın

Published

2024

8. Understanding determinants of outward foreign direct investment: the role of economic policy uncertainty, institutional quality, and globalization

Author

Ölmez, Fevzi, Bilgiç, Emre, and Aydın, Esra

Published

2024

9. Blip-Up Blip-Down Circular EPI (BUDA-cEPI) for Distortion-Free dMRI with Rapid Unrolled Deep Learning Reconstruction

Author

Yarach, Uten, Chatnuntawech, Itthi, Liao, Congyu, Teerapittayanon, Surat, Iyer, Siddharth Srinivasan, Kim, Tae Hyung, Haldar, Justin, Cho, Jaejin, Bilgic, Berkin, Hu, Yuxin, Hargreaves, Brian, and Setsompop, Kawin

Subjects

Physics - Medical Physics

Abstract

Purpose: We implemented the blip-up, blip-down circular echo planar imaging (BUDA-cEPI) sequence with readout and phase partial Fourier to reduced off-resonance effect and T2* blurring. BUDA-cEPI reconstruction with S-based low-rank modeling of local k-space neighborhoods (S-LORAKS) is shown to be effective at reconstructing the highly under-sampled BUDA-cEPI data, but it is computationally intensive. Thus, we developed an ML-based reconstruction technique termed "BUDA-cEPI RUN-UP" to enable fast reconstruction. Methods: BUDA-cEPI RUN-UP - a model-based framework that incorporates off-resonance and eddy current effects was unrolled through an artificial neural network with only six gradient updates. The unrolled network alternates between data consistency (i.e., forward BUDA-cEPI and its adjoint) and regularization steps where U-Net plays a role as the regularizer. To handle the partial Fourier effect, the virtual coil concept was also incorporated into the reconstruction to effectively take advantage of the smooth phase prior, and trained to predict the ground-truth images obtained by BUDA-cEPI with S-LORAKS. Results: BUDA-cEPI with S-LORAKS reconstruction enabled the management of off-resonance, partial Fourier, and residual aliasing artifacts. However, the reconstruction time is approximately 225 seconds per slice, which may not be practical in a clinical setting. In contrast, the proposed BUDA-cEPI RUN-UP yielded similar results to BUDA-cEPI with S-LORAKS, with less than a 5% normalized root mean square error detected, while the reconstruction time is approximately 3 seconds. Conclusion: BUDA-cEPI RUN-UP was shown to reduce the reconstruction time by ~88x when compared to the state-of-the-art technique, while preserving imaging details as demonstrated through DTI application., Comment: Number: Figures: 8 Tables: 3 References: 71

Published

2023

10. Chaos and COSMOS -- Considerations on QSM methods with multiple and single orientations and effects from local anisotropy

Author

Gkotsoulias, Dimitrios G., Jäger, Carsten, Müller, Roland, Gräßle, Tobias, Olofsson, Karin M., Møller, Torsten, Unwin, Steve, Crockford, Catherine, Wittig, Roman M., Bilgic, Berkin, and Möller, Harald E.

Subjects

Physics - Medical Physics, Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Purpose: Field-to-susceptibility inversion in quantitative susceptibility mapping (QSM) is ill-posed and needs numerical stabilization through either regularization or oversampling by acquiring data at three or more object orientations. Calculation Of Susceptibility through Multiple Orientations Sampling (COSMOS) is an established oversampling approach and regarded as QSM gold standard. It achieves a well-conditioned inverse problem, requiring rotations by 0{\deg}, 60{\deg} and 120{\deg} in the yz-plane. However, this is impractical in vivo, where head rotations are typically restricted to a range of +-25{\deg}. Non-ideal sampling degrades the conditioning with residual streaking artifacts whose mitigation needs further regularization. Moreover, susceptibility anisotropy in white matter is not considered in the COSMOS model, which may introduce additional bias. The current work presents a thorough investigation of these effects in primate brain. Methods: Gradient-recalled echo (GRE) data of an entire fixed chimpanzee brain were acquired at 7 T (350 microns resolution, 10 orientations) including ideal COSMOS sampling and realistic rotations in vivo. Comparisons of the results included ideal COSMOS, in-vivo feasible acquisitions with 3-8 orientations and single-orientation iLSQR QSM. Results: In-vivo feasible and optimal COSMOS yielded high-quality susceptibility maps with increased SNR resulting from averaging multiple acquisitions. COSMOS reconstructions from non-ideal rotations about a single axis required additional L2-regularization to mitigate residual streaking artifacts. Conclusion: In view of unconsidered anisotropy effects, added complexity of the reconstruction, and the general challenge of multi-orientation acquisitions, advantages of sub-optimal COSMOS schemes over regularized single-orientation QSM appear limited in in-vivo settings., Comment: Text: 2593 words (without legends, references and statements) Abstract: 239 words References: 33 Figures: 4 Tables: 1

Published

2023

11. The clinical efficacy of cGMP-specific sildenafil on mitochondrial biogenesis induction and renal damage in cats with acute on chronic kidney disease

Author

Mehmet Maden, Merve Ider, Mehmet Erman Or, Banu Dokuzeylül, Erdem Gülersoy, Merve Cansu Kılıçkaya, Bengü Bilgiç, Murat Kaan Durgut, Semih İzmirli, Suleyman Serhat Iyigün, Deniz Zeynep Telci, and Amir Naseri

Subjects

Mitochondrial biogenesis, Sildenafil citrate, Urinary biomarker, Azotemia, Cat, Veterinary medicine, SF600-1100

Abstract

Abstract Background Mitochondrial biogenesis (MB) induction has recently emerged as potential therapeutic approaches in kidney pathology and the mitochondria-targeted therapies should be investigated to improve treatment of animals with kidney diseases. This study aimed to investigate the effects of MB induction with sildenafil citrate on the cGMP/NO pathway, glomerular filtration, and reduction of kidney damage and fibrosis (TGF-β/SMAD pathway) in cats with acute on chronic kidney disease (ACKD). Thirty-three cats were divided into the non-azotemic (healthy) group (n:8) and the ACKD group (n:25), comprising different breeds, sexes, and ages. Sildenafil citrate was administered to the non-azotemic and ACKD groups (2.5 mg/kg, PO, q12 hours) for 30 days. Serum and urine NO, MDA, NGAL, KIM-1, TGF-β1, IL-18, FGF 23, PGC-1α and cGMP concentrations were measured. Results Serum cGMP concentrations increased (P

Published

2024

12. Effect of online infant care training and postpartum counseling based on Meleis' transition theory on mothers' readiness for care and breastfeeding: a randomized controlled trial

Author

Fatma Şule Bilgiç and Gülçin Bozkurt

Subjects

infant care, counseling, meleis' transition theory, readiness, breastfeeding, Pediatrics, RJ1-570

Abstract

Background Mothers must acquire the knowledge and skills needed to fulfill their responsibilities and take care of themselves and their babies. Purpose This study aimed to examine the effects of online baby care education and postpartum counseling based on Meleis' transition theory on mothers' readiness for baby care and breastfeeding. Method This randomized controlled trial was conducted between May 2022 and May 2023 at the pregnancy follow-up outpatient clinic of a state hospital. The study sample consisted of 102 pregnant women (52 in the intervention group, 50 in the control group). Results The mean scores of the intervention group compared to the control group were significantly higher immediately after birth and at 1, 2, and 3 months postpartum. Change over time was significantly higher in repeated measurements of National Institute of Child Health and Human Development scale scores of the intervention and control groups (P=0.001). In the first 24 hours, mothers in the intervention group breastfed more successfully than those in the control group (P

Published

2024

13. Understanding determinants of outward foreign direct investment: the role of economic policy uncertainty, institutional quality, and globalization

Author

Fevzi Ölmez, Emre Bilgiç, and Esra Aydın

Subjects

Outward FDI, EPU, Institutional quality, Globalization, Factor augmented model, Business, HF5001-6182

Abstract

Purpose – This research aims to investigate the role of the economic policy uncertainty (EPU) in the outward FDI (OFDI) of the United Kingdom (UK) by considering the institutional quality (IQ) and globalization level of the host country as contextual factors. Design/methodology/approach – The UK’s OFDI to its twenty partners is analyzed by using the factor augmented model for the 2005–2019 period. Findings – The results show that the EPU of the host country has a negative and significant effect on the UK's OFDI. Furthermore, the findings surprisingly illustrate that the globalization level of the host country has a negative and significant impact on the UK's OFDI. In terms of IQ, this study indicates that, while government effectiveness and regulatory quality have a negative and significant influence on the UK's OFDI, the rule of law has a positive and significant effect on the UK's OFDI. Originality/value – This will be one of a few studies considering OFDI in the scope of EPU. Also, the contradicting results of the study add unique perspectives to the literature about the relationship between OFDI, globalization, and IQ.

Published

2024

14. Reliability and Validity Study of the Migraine Interictal Burden Scale-4 in Turkish

Author

Rahsan Karaci, Esra Aydin Sünbül, Pinar Yalinay Dikmen, Elif Ilgaz Aydinlar, Fehmi Bilgiç, Nevra Öksüz, Emel Ur Özçelik, Arife Çimen Atalar, Semih Tasdelen, Esme Ekizoglu, Ezgi Uludüz, Derya Uludüz, Aynur Özge, and Füsun Mayda Domaç

Subjects

interictal burden, migraine, reliability, Neurology. Diseases of the nervous system, RC346-429

Abstract

Objective: The objective of this study was to assess the reliability and validity of the Turkish version of the Migraine Interictal Burden Scale-4 (MIBS-4) in patients with migraine. MIBS-4 measures migraine-related interictal burden in four domains related to difficulty in planning at work or school, family and social life, and emotional/affective and cognitive stress. Materials and Methods: A total of 178 patients with migraine were enrolled in this multicenter, prospective study in two consecutive interviews with 4-week intervals. The comprehensibility, patient–physician reliability, internal consistency, test–retest reliability, and validity of the Turkish translation of MIBS-4 were analyzed. Results: In terms of comprehensibility of all MIBS-4 questions, a statistically significant agreement was obtained between the patient and the physician (intraclass correlation coefficient [ICC] = 0.713; P < 0.001, ICC = 0.851; P < 0.001, ICC = 0.637; and P < 0.001, ICC = 0.760; P < 0.001). No statistically significant difference was found between the comprehensibility of the first, second, third, and fourth questions of MIBS-4 according to the patient self-test and the physician interviews (P = 0.167, P = 0.068, P = 0.121, and P = 0.225, respectively). A significant high consistency was obtained between the first and second interview values (ICC = 0.891; P < 0.001). Cronbach’s alpha coefficient was obtained between 0.818 and 0.845, and the scale was obtained with high reliability. A statistically significant positive correlation was obtained between the first and second interview MIBS values and Headache Impact Test-6, and the correlation coefficients were obtained as 0.158 and 0.330, respectively (P = 0.036 and P < 0.001, respectively). Conclusion: These results demonstrated that the Turkish translation of MIBS-4 is equivalent to the English version in terms of internal consistency, and it has high test–retest reliability and validity. The Turkish version of MIBS-4 can serve as a reliable, useful, and valid tool for assessing the burden on patients between migraine attacks, as well as aiding health-care professionals in enhancing migraine treatment strategies in Türkiye.

Published

2024

15. Personalized Immunotherapy Achieves Complete Response in Metastatic Adenoid Cystic Carcinoma Despite Lack of Conventional Biomarkers

Author

Ünal Metin Tokat, Ashkan Adibi, Esranur Aydın, Eylül Özgü, Şevval Nur Bilgiç, Onur Tutar, Merve Özbek Doğançay, İrem Demiray, and Mutlu Demiray

Subjects

personalized immunotherapy, precision oncology, immune checkpoint inhibitor (ICI), integrative therapies, adenoid cystic carcinoma (ACC), frameshift mutation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

There is currently no effective treatment strategy for recurrent/metastatic adenoid cystic carcinoma (R/M ACC). Furthermore, recent single-agent and combination immunotherapy trials have failed in unselected ACC cohorts, unlike non-ACC salivary gland cancers. Genomic profiling revealed no actionable targets but NOTCH1 and KDM6A frameshift and CTCF splice site mutations (no MYB/L fusion) with a low tumor mutational burden (TMB), microsatellite stable (MSS) and negative programmed death ligand 1 (PD-L1) were observed. We recommended an anti-programmed cell death protein 1 (anti-PD-1) plus anti-Cytotoxic T-lymphocyte-associated protein 4 (anti-CTLA-4) combination based on TMB 2-fold greater-than-median TMB in ACC, tumor harboring multiple immunogenic frameshift or splice site mutations, and PD-L1 negativity. Accordingly, we achieved a complete response in a radiotherapy (RT) and chemotherapy (CT)-refractory patient with locally recurrent lacrimal gland (LG) ACC and lung metastasis following personalized immunotherapy in combination with integrative therapeutics. Therefore, it is crucial to assess not only conventional immune biomarkers but also patient-specific parameters, especially in “immune-cold” cancer types.

Published

2024

16. TERNARY COMPLEX FORMATION OF ISONIAZID WITH SOME TRANSITION METALS AND AMINO ACIDS

Author

Bilgiç Alkaya, Serap Karaderi, and Gülbin Erdoğan

Subjects

i̇soniazid, l-asparajin, l-glutamik asit, metal kompleks, potansiyometri, kararlılık sabiti, isoniazid, l-asparagine, l-glutamic acid, metal complex, satibility constant, Science (General), Q1-390

Abstract

In this article mixed ligand complex formation equilibria of copper(II) and zinc(II) with isoniazid and two amino acids have been determined by potentiometric titration method, involving the use of Irving Rossotti procedure. The formation constants of mixed ligand complexes have been found to be Cu(II)-isoniazid-L-asparagine logK= 7.29; Zn(II)- isoniazid-L-asparagine logK= 4.09 and Cu(II)-isoniazid-L-glutamic acid logK= 6.70; Zn(II)- isoniazid-L-glutamic acid logK= 6.30, at 25.0±0.1° C and I= 0.11 mol dm-3 ionic strength (NaCIO4) in aqueous solution. The maximum values of the conditional formation constants were found to be in accordance with the mixed-ligand complex formation constants in a given pH region. In addition, the mole fractions of different species from mixed complexes were calculated by means of formation constants.

Published

2016

17. Validation of a Common Content Knowledge Test for Hiking and Camping

Author

Mert Bilgiç, Alkan Ugurlu, Erhan Devrilmez, Fatih Dervent, and Phillip Ward

Abstract

"Purpose": This study aimed to develop a valid and reliable hiking and camping common content knowledge test for Turkish preservice physical education teachers. "Method": Participants were 305 physical education students who had previously completed hiking and camping content course in Physical Education Teacher Education. The researchers followed five steps to develop the test. The Rasch model was utilized for data analysis. "Results": Findings showed a good item model fit for all items, except Item 4. Results also indicated that the developed test had high internal consistency for both item difficulty and person ability. Overall, the test findings demonstrated good evidence to support the validity and reliability of hiking and camping common content knowledge test. "Discussion/Conclusion": The developed test can be used for measuring hiking and camping knowledge level of physical education teachers and Physical Education Teacher Education students.

Published

2024

18. Improved Multi-Shot Diffusion-Weighted MRI with Zero-Shot Self-Supervised Learning Reconstruction

Author

Cho, Jaejin, Jun, Yohan, Wang, Xiaoqing, Kobayashi, Caique, and Bilgic, Berkin

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Machine Learning

Abstract

Diffusion MRI is commonly performed using echo-planar imaging (EPI) due to its rapid acquisition time. However, the resolution of diffusion-weighted images is often limited by magnetic field inhomogeneity-related artifacts and blurring induced by T2- and T2*-relaxation effects. To address these limitations, multi-shot EPI (msEPI) combined with parallel imaging techniques is frequently employed. Nevertheless, reconstructing msEPI can be challenging due to phase variation between multiple shots. In this study, we introduce a novel msEPI reconstruction approach called zero-MIRID (zero-shot self-supervised learning of Multi-shot Image Reconstruction for Improved Diffusion MRI). This method jointly reconstructs msEPI data by incorporating deep learning-based image regularization techniques. The network incorporates CNN denoisers in both k- and image-spaces, while leveraging virtual coils to enhance image reconstruction conditioning. By employing a self-supervised learning technique and dividing sampled data into three groups, the proposed approach achieves superior results compared to the state-of-the-art parallel imaging method, as demonstrated in an in-vivo experiment., Comment: 10 pages, 4 figures

Published

2023

19. Recommended Implementation of Quantitative Susceptibility Mapping for Clinical Research in The Brain: A Consensus of the ISMRM Electro-Magnetic Tissue Properties Study Group

Author

Bilgic, Berkin, Costagli, Mauro, Chan, Kwok-Shing, Duyn, Jeff, Langkammer, Christian, Lee, Jongho, Li, Xu, Liu, Chunlei, Marques, José P., Milovic, Carlos, Robinson, Simon Daniel, Schweser, Ferdinand, Shmueli, Karin, Spincemaille, Pascal, Straub, Sina, van Zijl, Peter, Wang, Yi, and Group, ISMRM Electro-Magnetic Tissue Properties Study

Subjects

Physics - Medical Physics

Abstract

This article provides recommendations for implementing quantitative susceptibility mapping (QSM) for clinical brain research. It is a consensus of the ISMRM Electro-Magnetic Tissue Properties Study Group. While QSM technical development continues to advance rapidly, the current QSM methods have been demonstrated to be repeatable and reproducible for generating quantitative tissue magnetic susceptibility maps in the brain. However, the many QSM approaches available give rise to the need in the neuroimaging community for guidelines on implementation. This article describes relevant considerations and provides specific implementation recommendations for all steps in QSM data acquisition, processing, analysis, and presentation in scientific publications. We recommend that data be acquired using a monopolar 3D multi-echo GRE sequence, that phase images be saved and exported in DICOM format and unwrapped using an exact unwrapping approach. Multi-echo images should be combined before background removal, and a brain mask created using a brain extraction tool with the incorporation of phase-quality-based masking. Background fields should be removed within the brain mask using a technique based on SHARP or PDF, and the optimization approach to dipole inversion should be employed with a sparsity-based regularization. Susceptibility values should be measured relative to a specified reference, including the common reference region of whole brain as a region of interest in the analysis, and QSM results should be reported with - as a minimum - the acquisition and processing specifications listed in the last section of the article. These recommendations should facilitate clinical QSM research and lead to increased harmonization in data acquisition, analysis, and reporting., Comment: Authors are listed in alphabetical order. * indicates corresponding authors

Published

2023

20. Zero-DeepSub: Zero-Shot Deep Subspace Reconstruction for Rapid Multiparametric Quantitative MRI Using 3D-QALAS

Author

Jun, Yohan, Arefeen, Yamin, Cho, Jaejin, Fujita, Shohei, Wang, Xiaoqing, Grant, P. Ellen, Gagoski, Borjan, Jaimes, Camilo, Gee, Michael S., and Bilgic, Berkin

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Electrical Engineering and Systems Science - Signal Processing

Abstract

Purpose: To develop and evaluate methods for 1) reconstructing 3D-quantification using an interleaved Look-Locker acquisition sequence with T2 preparation pulse (3D-QALAS) time-series images using a low-rank subspace method, which enables accurate and rapid T1 and T2 mapping, and 2) improving the fidelity of subspace QALAS by combining scan-specific deep-learning-based reconstruction and subspace modeling. Methods: A low-rank subspace method for 3D-QALAS (i.e., subspace QALAS) and zero-shot deep-learning subspace method (i.e., Zero-DeepSub) were proposed for rapid and high fidelity T1 and T2 mapping and time-resolved imaging using 3D-QALAS. Using an ISMRM/NIST system phantom, the accuracy and reproducibility of the T1 and T2 maps estimated using the proposed methods were evaluated by comparing them with reference techniques. The reconstruction performance of the proposed subspace QALAS using Zero-DeepSub was evaluated in vivo and compared with conventional QALAS at high reduction factors of up to 9-fold. Results: Phantom experiments showed that subspace QALAS had good linearity with respect to the reference methods while reducing biases and improving precision compared to conventional QALAS, especially for T2 maps. Moreover, in vivo results demonstrated that subspace QALAS had better g-factor maps and could reduce voxel blurring, noise, and artifacts compared to conventional QALAS and showed robust performance at up to 9-fold acceleration with Zero-DeepSub, which enabled whole-brain T1, T2, and PD mapping at 1 mm isotropic resolution within 2 min of scan time. Conclusion: The proposed subspace QALAS along with Zero-DeepSub enabled high fidelity and rapid whole-brain multiparametric quantification and time-resolved imaging., Comment: 24 figures, 4 tables

Published

2023

21. Dissecting cellulitis of the scalp after hair transplantation: A case report

Author

Aslı Bilgiç, Özlem Dicle, Cumhur İbrahim Başsorgun, and Ayşe Akman

Subjects

dissecting cellulitis, hair transplantation, complication, Dermatology, RL1-803, Diseases of the genitourinary system. Urology, RC870-923

Published

2024

22. The clinical efficacy of cGMP-specific sildenafil on mitochondrial biogenesis induction and renal damage in cats with acute on chronic kidney disease

Author

Maden, Mehmet, Ider, Merve, Or, Mehmet Erman, Dokuzeylül, Banu, Gülersoy, Erdem, Kılıçkaya, Merve Cansu, Bilgiç, Bengü, Durgut, Murat Kaan, İzmirli, Semih, Iyigün, Suleyman Serhat, Telci, Deniz Zeynep, and Naseri, Amir

Published

2024

23. In vitro feeding of all life stages of two-host Hyalomma excavatum and Hyalomma scupense and three-host Hyalomma dromedarii ticks

Author

Elati, Khawla, Benyedem, Hayet, Fukatsu, Kohsuke, Hoffmann-Köhler, Peggy, Mhadhbi, Moez, Bakırcı, Serkan, Bilgiç, Hüseyin Bilgin, Karagenç, Tülin, Darghouth, Mohamed Aziz, and Nijhof, Ard M.

Published

2024

24. IDGI: A Framework to Eliminate Explanation Noise from Integrated Gradients

Author

Yang, Ruo, Wang, Binghui, and Bilgic, Mustafa

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Integrated Gradients (IG) as well as its variants are well-known techniques for interpreting the decisions of deep neural networks. While IG-based approaches attain state-of-the-art performance, they often integrate noise into their explanation saliency maps, which reduce their interpretability. To minimize the noise, we examine the source of the noise analytically and propose a new approach to reduce the explanation noise based on our analytical findings. We propose the Important Direction Gradient Integration (IDGI) framework, which can be easily incorporated into any IG-based method that uses the Reimann Integration for integrated gradient computation. Extensive experiments with three IG-based methods show that IDGI improves them drastically on numerous interpretability metrics., Comment: Accepted by CVPR 2023

Published

2023

25. Clinical, Demographic, and Radiological Characteristics of Patients Demonstrating Antibodies Against Myelin Oligodendrocyte Glycoprotein

Author

Sümeyye Koç, Sedat Şen, Yüksel Terzi, Ferah Kızılay, Serkan Demir, Dürdane Bekar Aksoy, Fatma Kurtuluş, Nuray Bilge, Egemen Idilman, Cihat Uzunköprü, Serdal Güngör, Vedat Çilingir, Özlem Ethemoğlu, Cavit Boz, Haluk Gümüş, Ahmet Kasım Kılıç, Ayşin Kısabay, Levent Sinan Bir, Ömer Faruk Turan, Aysun Soysal, Mesrure Köseoğlu, Gülnur Tekgöl Uzuner, Hasan Bayındır, Sibel Canbaz Kabay, Mustafa Çam, Vildan Yayla, Hüseyin Tan, Abdülcemal Özcan, Özlem Taşkapıoğlu, Muammer Korkmaz, Yusuf Tamam, Yılmaz İnanç, Hüsnü Efendi, Dilcan Kotan, Mehmet Fatih Yetkin, Adnan Burak Bilgiç, Hikmet Saçmacı, Serpil Demirci, Yahya Çelik, Turan Poyraz, and Murat Terzi

Subjects

Medicine

Abstract

Background: Optic neuritis, myelitis, and neuromyelitis optica spectrum disorder (NMOSD) have been associated with antibodies against myelin oligodendrocyte glycoprotein-immunoglobulin G (anti-MOG-IgG). Furthermore, patients with radiological and demographic features atypical for multiple sclerosis (MS) with optic neuritis and myelitis also demonstrate antibodies against aquaporin-4 and anti-MOG-IgG. However, data on the diagnosis, treatment, follow-up, and prognosis in patients with anti-MOG-IgG are limited. Aims: To evaluate the clinical, radiological, and demographic characteristics of patients with anti-MOG-IgG. Study Design: Multicenter, retrospective, observational study. Methods: Patients with blood samples demonstrating anti-MOG-IgG that had been evaluated at the Neuroimmunology laboratory at Ondokuz Mayıs University’s Faculty of Medicine were included in the study. Results: Of the 104 patients with anti-MOG-IgG, 56.7% were women and 43.3% were men. Approximately 2.4% of the patients were diagnosed with MS, 15.8% with acute disseminated encephalomyelitis (ADEM), 39.4% with NMOSD, 31.3% with isolated optic neuritis, and 11.1% with isolated myelitis. Approximately 53.1% of patients with spinal involvement at clinical onset demonstrated a clinical course of NMOSD. Thereafter, 8.8% of these patients demonstrated a clinical course similar to MS and ADEM, and 28.1% demonstrated a clinical course of isolated myelitis. The response to acute attack treatment was lower and the disability was higher in patients aged > 40 years than patients aged < 40 years at clinical onset. Oligoclonal band was detected in 15.5% of the patients. Conclusion: For patients with NMOSD and without anti-NMO antibodies, the diagnosis is supported by the presence of anti-MOG-IgG. Furthermore, advanced age at clinical onset, Expanded Disability Status Scale (EDSS) score at clinical onset, spinal cord involvement, and number of attacks may be negative prognostic factors in patients with anti-MOG-IgG.

Published

2024

26. Isolated Percutaneous Endoscopic Gastrostomy Site Malignancy Due To Nasopharynx Cancer: A Case Report

Author

Yahya Kaan Karatepe, Salih Boluk, Sümeyra Emine Bölük, Çağrı Bilgiç, and Mahmut Salih Genç

Subjects

Medicine

Abstract

PEG (Percutaneous Endoscopic Gastrostomy) procedure is a method used in patients with head and neck cancers whose oral intake is impaired. Although very rare, metastasis may occur due to the possible implantation of tumor cells compatible with primary malignancy at the PEG site. In our case report, we aimed to present a patient who was treated for nasopharyngeal cancer and was found to have a lesion compatible with metastasis at the old PEG site 7 years later.

Published

2024

27. Enhancing Geosıte Accessibility Assessment: A New Mcdm Model

Author

Bilgiç, Sevgi, Karadeniz, Enes, and Selman Er

Published

2024

28. The Relationship between Technological Pedagogical Content Knowledge of Mathematics Teacher Candidates and Teaching Mathematics Anxiety

Author

Ünveren Bilgiç, Emine Nur

Abstract

The aim of this study is to examine the relationship between pre-service mathematics teachers' technological pedagogical content knowledge and their anxiety about teaching mathematics according to gender and class variables. The relational survey model, which is one of the general survey model types, was used in the research carried out by following the quantitative paradigm. Data were collected online from 196 pre-service teachers using the "Mathematics Teaching Anxiety Scale" and the "Technological Pedagogical Content Knowledge Scale". T-test, one way ANOVA and Pearson's Product Moments Correlation Analysis were used in the analysis of the data. The results showed that the pre-service teachers' genders and classes did not affect their mathematics teaching anxieties and technological pedagogical content knowledge. It also revealed a weak positive relationship between the pre-service teachers' technological pedagogical content knowledge and mathematics teaching anxieties.

Published

2022

29. SSL-QALAS: Self-Supervised Learning for Rapid Multiparameter Estimation in Quantitative MRI Using 3D-QALAS

Author

Jun, Yohan, Cho, Jaejin, Wang, Xiaoqing, Gee, Michael, Grant, P. Ellen, Bilgic, Berkin, and Gagoski, Borjan

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Electrical Engineering and Systems Science - Signal Processing

Abstract

Purpose: To develop and evaluate a method for rapid estimation of multiparametric T1, T2, proton density (PD), and inversion efficiency (IE) maps from 3D-quantification using an interleaved Look-Locker acquisition sequence with T2 preparation pulse (3D-QALAS) measurements using self-supervised learning (SSL) without the need for an external dictionary. Methods: A SSL-based QALAS mapping method (SSL-QALAS) was developed for rapid and dictionary-free estimation of multiparametric maps from 3D-QALAS measurements. The accuracy of the reconstructed quantitative maps using dictionary matching and SSL-QALAS was evaluated by comparing the estimated T1 and T2 values with those obtained from the reference methods on an ISMRM/NIST phantom. The SSL-QALAS and the dictionary matching methods were also compared in vivo, and generalizability was evaluated by comparing the scan-specific, pre-trained, and transfer learning models. Results: Phantom experiments showed that both the dictionary matching and SSL-QALAS methods produced T1 and T2 estimates that had a strong linear agreement with the reference values in the ISMRM/NIST phantom. Further, SSL-QALAS showed similar performance with dictionary matching in reconstructing the T1, T2, PD, and IE maps on in vivo data. Rapid reconstruction of multiparametric maps was enabled by inferring the data using a pre-trained SSL-QALAS model within 10 s. Fast scan-specific tuning was also demonstrated by fine-tuning the pre-trained model with the target subject's data within 15 min. Conclusion: The proposed SSL-QALAS method enabled rapid reconstruction of multiparametric maps from 3D-QALAS measurements without an external dictionary or labeled ground-truth training data., Comment: 18 figures, 4 tables

Published

2023

30. 3D-EPI Blip-Up/Down Acquisition (BUDA) with CAIPI and Joint Hankel Structured Low-Rank Reconstruction for Rapid Distortion-Free High-Resolution T2* Mapping

Author

Chen, Zhifeng, Liao, Congyu, Cao, Xiaozhi, Poser, Benedikt A., Xu, Zhongbiao, Lo, Wei-Ching, Wen, Manyi, Cho, Jaejin, Tian, Qiyuan, Wang, Yaohui, Feng, Yanqiu, Xia, Ling, Chen, Wufan, Liu, Feng, and Bilgic, Berkin

Subjects

Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Purpose: This work aims to develop a novel distortion-free 3D-EPI acquisition and image reconstruction technique for fast and robust, high-resolution, whole-brain imaging as well as quantitative T2* mapping. Methods: 3D-Blip-Up and -Down Acquisition (3D-BUDA) sequence is designed for both single- and multi-echo 3D GRE-EPI imaging using multiple shots with blip-up and -down readouts to encode B0 field map information. Complementary k-space coverage is achieved using controlled aliasing in parallel imaging (CAIPI) sampling across the shots. For image reconstruction, an iterative hard-thresholding algorithm is employed to minimize the cost function that combines field map information informed parallel imaging with the structured low-rank constraint for multi-shot 3D-BUDA data. Extending 3D-BUDA to multi-echo imaging permits T2* mapping. For this, we propose constructing a joint Hankel matrix along both echo and shot dimensions to improve the reconstruction. Results: Experimental results on in vivo multi-echo data demonstrate that, by performing joint reconstruction along with both echo and shot dimensions, reconstruction accuracy is improved compared to standard 3D-BUDA reconstruction. CAIPI sampling is further shown to enhance the image quality. For T2* mapping, T2* values from 3D-Joint-CAIPI-BUDA and reference multi-echo GRE are within limits of agreement as quantified by Bland-Altman analysis. Conclusions: The proposed technique enables rapid 3D distortion-free high-resolution imaging and T2* mapping. Specifically, 3D-BUDA enables 1-mm isotropic whole-brain imaging in 22 s at 3 T and 9 s on a 7 T scanner. The combination of multi-echo 3D-BUDA with CAIPI acquisition and joint reconstruction enables distortion-free whole-brain T2* mapping in 47 s at 1.1x1.1x1.0 mm3 resolution.

Published

2022

31. Otomatik Meibomian Bezi ve Göz Kapağı Bölütlemesi.

Author

öykü Diribas, Volkan Okbay, Onat Akça, ömer Mustafa Bilgiç, Nilüfer Yesilirmak, and Gözde Bozdagi Akar

Published

2024

32. ABC Algorithm Based System Identification Method for Three Degrees of Freedom Helicopter Model.

Author

Kübra çiftçi, Engin Hasan Copur, and Hasan Hüseyin Bilgiç

Published

2024

33. Alzheimer's Disease Detection and Dataset Creation from Spontaneous Speech.

Author

Ediz Akarsu, Zahra Huseynliz, Basar Bilgiç, and Banu Diri

Published

2024

34. Coverage Analysis of Terahertz Networks with Relay Clustering.

Author

Bengü Bilgiç, Semiha Tedik Basaran, Ibrahim Hökelek, and Ali Görçin

Published

2024

35. Understanding the Role of Initial Public Offerings in Financial Manipulation: Institutionalization or Cautiousness?

Author

Aydin, Esra, Bilgiç, Emre, Çalıyurt, Kıymet Tunca, Series Editor, and Tunca Çalıyurt, Kıymet, editor

Published

2024

36. Workflows für die virtuelle Absicherung von autonomen Nutzfahrzeugen in der Cloud

Author

Bilgic Istoc, Sami, Berns, Karsten, editor, Dreßler, Klaus, editor, Kalmar, Ralf, editor, Stephan, Nicole, editor, Teutsch, Roman, editor, and Thul, Martin, editor

Published

2024

37. SRNR: Training neural networks for Super-Resolution MRI using Noisy high-resolution Reference data

Author

Xiao, Jiaxin, Li, Zihan, Bilgic, Berkin, Polimeni, Jonathan R., Huang, Susie, and Tian, Qiyuan

Subjects

Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Neural network (NN) based approaches for super-resolution MRI typically require high-SNR high-resolution reference data acquired in many subjects, which is time consuming and a barrier to feasible and accessible implementation. We propose to train NNs for Super-Resolution using Noisy Reference data (SRNR), leveraging the mechanism of the classic NN-based denoising method Noise2Noise. We systematically demonstrate that results from NNs trained using noisy and high-SNR references are similar for both simulated and empirical data. SRNR suggests a smaller number of repetitions of high-resolution reference data can be used to simplify the training data preparation for super-resolution MRI., Comment: 2 pages, 5 figures, submitted to ISMRM

Published

2022

38. Time-efficient, High Resolution 3T Whole Brain Quantitative Relaxometry using 3D-QALAS with Wave-CAIPI Readouts

Author

Cho, Jaejin, Gagoski, Borjan, Kim, Tae Hyung, Wang, Fuyixue, Splitthoff, Daniel Nico, Lo, Wei-Ching, Liu, Wei, Polak, Daniel, Cauley, Stephen, Setsompop, Kawin, Grant, P. Ellen, and Bilgic, Berkin

Subjects

Physics - Medical Physics, Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Purpose: Volumetric, high-resolution, quantitative mapping of brain tissue relaxation properties is hindered by long acquisition times and signal-to-noise (SNR) challenges. This study, for the first time, combines the time-efficient wave-CAIPI readouts into the 3D-quantification using an interleaved Look-Locker acquisition sequence with a T2 preparation pulse (3D-QALAS) acquisition scheme, enabling full brain quantitative T1, T2 and proton density (PD) maps at 1.15 mm3 isotropic voxels in only 3 minutes. Methods: Wave-CAIPI readouts were embedded in the standard 3D-QALAS encoding scheme, enabling full brain quantitative parameter maps (T1, T2, and PD) at acceleration factors of R=3x2 with minimum SNR loss due to g-factor penalties. The quantitative parameter maps were estimated using a dictionary-based mapping algorithm incorporating inversion efficiency and B1 field inhomogeneity. The quantitative maps using the accelerated protocol were quantitatively compared against those obtained from conventional 3D-QALAS sequence using GRAPPA acceleration of R=2 in the ISMRM NIST phantom, and ten healthy volunteers. Results: When tested in both the ISMRM/NIST phantom and ten healthy volunteers, the quantitative maps using the accelerated protocol showed excellent agreement against those obtained from conventional 3D-QALAS at RGRAPPA=2. Conclusion: 3D-QALAS enhanced with wave-CAIPI readouts enables time-efficient, full brain quantitative T1, T2, and PD mapping at 1.15 mm3 in 3 minutes at R=3x2 acceleration. When tested on the NIST phantom and ten healthy volunteers, the quantitative maps obtained from the accelerated wave-CAIPI 3D-QALAS protocol showed very similar values to those obtained from the standard 3D-QALAS (R=2) protocol, alluding to the robustness and reliability of the proposed methods.

Published

2022

39. Effects of Distance Education Models on Senior Nursing Students' Readiness for E-learning, Self-Directed Learning and Clinical Practice: Mixed Method Design

Author

Merlinda Aluş Tokat, Sevcan Özöztürk, Hülya Özberk, Melih Başoğlu, Dilek Bilgiç, Hande Yağcan, Buse Güler, Manolya Parlas, and Figen Yanik

Subjects

COVID-19, distance education, nursing students, e-learning, Internal medicine, RC31-1245, Specialties of internal medicine, RC581-951

Abstract

Aim: COVID-19 pandemic process has had negative effects on education. During the pandemic, the continuation of education was carried out online. The present study aimed to examine the effects of distance education models on the readiness of senior nursing students for e-learning, self-directed learning, and clinical practice. Material and methods: This study was conducted using a mixed-method design with 58 senior nursing students in the 2020-2021 academic fall semester. Descriptive Characteristics Form, University Students' E-learning Readiness Scale, Self-Directed Learning Readiness Scale, Clinical Practice Readiness Assessment Form and focus group interviews were used. Results: Distance education models increased the readiness of senior nursing students for e-learning and self-directed learning. In the interviews, some of the students defined online education as good preparation for the clinic, while others stated that they could not feel like a nurse in a real clinical setting. Conclusions: Distance education as well as in face-to-face nursing education, the importance of using interactive education methods in extraordinary situations such as the COVID-19 pandemic and earthquakes has emerged. Keywords: COVID-19; distance education; nursing students; e-learning.

Published

2024

40. Evaluation of the Factors Influencing Mortality in Patients with Stevens-Johnson Syndrome and Toxic Epidermal Necrolysis: A Multicenter Study of 166 Patients

Author

Funda Erduran, Esra Adışen, Selma Emre, Yıldız Hayran, Emel Bülbül Başkan, Serkan Yazıcı, Aslı Bilgiç, Erkan Alpsoy, Sibel Doğan Günaydın, Leyla Elmas, Melih Akyol, RukiyeYasak Güner, Deniz Aksu Arıca, Yağmur Aypek, Tülin Ergun, Dilan Karavelioğlu, Ayça Cordan Yazıcı, Kübra Aydoğan, Dilek Bayramgürler, Rebiay Kıran, Hilal Kaya Erdoğan, Ersoy Acer, and Akın Aktaş

Subjects

Stevens-Johnson syndrome, Toxic epidermal necrolysis, SCORTEN, Plasmapheresis, Mortality, Survival, Dermatology, RL1-803

Abstract

Abstract Introduction Stevens-Johnson syndrome (SJS) and toxic epidermal necrolysis (TEN) are life-threatening acute mucocutaneous disorders usually triggered by drugs. In this study, we aimed to evaluate the factors affecting mortality in patients with SJS-TEN. Methods Our study is a retrospective cohort study, analyzing data collected from a total of 12 tertiary care centers between April 2012 and April 2022. Results The study included 59 males and 107 females, a total of 166 patients, with an average age of 50.91 ± 21.25 years. Disease classification was TEN in 50% of cases, SJS in 33.1%, and SJS-TEN overlap in 16.9%. The average SCORTEN within the first 24 h was 2.44 ± 1.42. Supportive care was provided to 99.4% of patients. The most commonly used systemic immunomodulatory treatments were systemic steroids (84.3%), IVIG (intravenous immunoglobulin) (49.3%), and cyclosporine (38.6%). Plasmapheresis was administered to five patients. While 66.3% of patients were discharged, 24.1% resulted in exitus. Our comparative analysis of survivors and deceased patients found no effect of systemic steroids, IVIG, and cyclosporine treatments on mortality. Univariate analysis revealed that the SCORTEN scores on days 1 and 3 as well as the rates of detachment at the onset and during follow-up were significantly higher in deceased patients compared to survivors. The rates of fever, positive blood cultures, and systemic antibiotic use were higher in deceased patients compared to survivors. The presence of comorbidities, diabetes, and malignancy were significantly more common in deceased patients. Multivariate regression analysis indicated that over SCORTEN 2, the mortality risk exponentially rose with each SCORTEN increment, culminating in an 84-fold increase in mortality at SCORTEN 5–6 (odds ratio [95% confidence interval]: 13.902–507.537, p

Published

2024

41. Assessment of Effect of Flux Scheme and Turbulence Model on Blade-to-blade Calculations

Author

M. Bilgiç, Ö. U. Baran, and M. H. Aksel

Subjects

blade to blade, turbulence model, upwind, central, shock wave, boundary layer, Mechanical engineering and machinery, TJ1-1570

Abstract

Today, due to advances in computing power, Reynolds Averaged Navier-Stokes (RANS) solvers are widely preferred for quasi-three-dimensional (Q3D) blade-to-blade analysis. This study investigates the performance of different flux calculation methods and turbulence models with a density-based RANS solver (Numeca®) in blade-to-blade analysis. A block-structured mesh topology is used to create a solution grid around the airfoil. Spatial discretization is performed in the pitchwise direction to represent the quasi three-dimensional flow, while only one computational cell is used in the radial direction to simulate the flow through the Q3D cascade. The computational grid around the airfoil is created with the Autogrid® tool using the block mesh topology. For the convective flow calculations, both the central and upwind methods available in Numeca® are applied separately. The Baldwin Lomax (BL), Spalart Allmaras (SA), Shear Stress Transport (SST), Explicit Algebraic Reynolds Stress Model (EARSM) and k-ε (KEPS) turbulence models are used for the turbulent shear stress calculations. In order to evaluate the aerodynamic performance of the spatial discretization methods and turbulence models, the isentropic Mach distribution on the airfoil surface, the total pressure loss and the exit flow angle behind the blade are compared with the experimental data of six test cases. In the compressor cases, the Spalart-Allmaras turbulence model with the Central scheme gives the best results in terms of average loss prediction, while no turbulence model is superior to the other in terms of exit angle prediction. On the turbine side, EARSM and KEPS give better performance in terms of loss prediction for the low Reynolds case compared to others, while the Spalart-Allmaras turbulence model is better for the high Reynolds cases.

Published

2024

42. Latent Signal Models: Learning Compact Representations of Signal Evolution for Improved Time-Resolved, Multi-contrast MRI

Author

Arefeen, Yamin, Xu, Junshen, Zhang, Molin, Dong, Zijing, Wang, Fuyixue, White, Jacob, Bilgic, Berkin, and Adalsteinsson, Elfar

Subjects

Electrical Engineering and Systems Science - Signal Processing, Physics - Medical Physics

Abstract

Purpose: Training auto-encoders on simulated signal evolution and inserting the decoder into the forward model improves reconstructions through more compact, Bloch-equation-based representations of signal in comparison to linear subspaces. Methods: Building on model-based nonlinear and linear subspace techniques that enable reconstruction of signal dynamics, we train auto-encoders on dictionaries of simulated signal evolution to learn more compact, non-linear, latent representations. The proposed Latent Signal Model framework inserts the decoder portion of the auto-encoder into the forward model and directly reconstructs the latent representation. Latent Signal Models essentially serve as a proxy for fast and feasible differentiation through the Bloch-equations used to simulate signal. This work performs experiments in the context of T2-shuffling, gradient echo EPTI, and MPRAGE-shuffling. We compare how efficiently auto-encoders represent signal evolution in comparison to linear subspaces. Simulation and in-vivo experiments then evaluate if reducing degrees of freedom by inserting the decoder into the forward model improves reconstructions in comparison to subspace constraints. Results: An auto-encoder with one real latent variable represents FSE, EPTI, and MPRAGE signal evolution as well as linear subspaces characterized by four basis vectors. In simulated/in-vivo T2-shuffling and in-vivo EPTI experiments, the proposed framework achieves consistent quantitative NRMSE and qualitative improvement over linear approaches. From qualitative evaluation, the proposed approach yields images with reduced blurring and noise amplification in MPRAGE shuffling experiments. Conclusion: Directly solving for non-linear latent representations of signal evolution improves time-resolved MRI reconstructions through reduced degrees of freedom.

Published

2022

43. Effects of different primers and colouring solutions on orthodontic bonding: shear bond strength and colour change

Author

Eren, Hatice Kübra and Bilgiç Zortuk, Fundagül

Published

2024

44. Impact of breathing exercises in patients who had open heart operation on respiratory function and exercise tolerance

Author

Kinas, Selin Burgaz and Bilgic, Sebnem

Published

2024

45. Case report: Precision guided reactive cancer management: molecular complete response in heavily pretreated metastatic CRC by dual immunotherapy and sorafenib

Author

Esranur Aydın, Ünal Metin Tokat, Ashkan Adibi, Eylül Özgü, Şevval Nur Bilgiç, and Mutlu Demiray

Subjects

colorectal cancer, FLT3, high TMB, dual immunotherapy, sorafenib, case report, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundMetastatic colon adenocarcinoma presents significant challenges in treatment, particularly when resistant to standard therapies. Precision oncology, guided by multidisciplinary tumor boards (MTBs), offers a promising way for individualized therapeutic approaches. Integration of comprehensive genomic profiling (CGP) and minimal residual disease (MRD) testing strengthens treatment decision-making, yet challenges persist in identifying and overcoming resistance mechanisms. FLT3 amplification can be one of those resistance/escape mechanisms that needs to be targeted.Case presentationThis case report presents a 58-year-old male diagnosed with metastatic colon adenocarcinoma with liver metastasis, resistant to conventional treatments. Utilizing CGP and MRD testing, our multidisciplinary MTB identified a complex mutational profile, including APC, DAXX, TP53 mutations, and CDK8 and FLT3 amplifications. With a tumor mutational burden of 10 muts/mb and TPS, CPS scores of 0, immunotherapy was considered, employing dual immune checkpoint inhibitors alongside mebendazole and Lenvatinib targeting the WNT and VEGF/angiogenesis pathways. MRD testing revealed early treatment failure. Re-evaluation identified high copied FLT3 amplification (62 copies) as a resistance mechanism, prompting modification to incorporate sorafenib and dual immunotherapy with mebendazole. Subsequent MRD assessments and radiological scans demonstrated a remarkable therapeutic response, with sustained efficacy and absence of detectable residual disease.ConclusionThis case highlights the successful application of precision oncology principles, facilitated by dynamic MTB-guided treatment strategies. Integration of MRD testing provided early detection of treatment inefficacy, allowing for timely intervention and adaptation of the treatment plan. Additionally, the case highlights the educational value of rare molecular alterations, emphasizing continual learning and refinement of treatment approaches in precision oncology.

Published

2024

46. Leaders or Followers? A Temporal Analysis of Tweets from IRA Trolls

Author

Balasubramanian, Siva K., Bilgic, Mustafa, Culotta, Aron, Hemphill, Libby, Nikolich, Anita, and Shapiro, Matthew A.

Subjects

Computer Science - Social and Information Networks, Computer Science - Information Retrieval

Abstract

The Internet Research Agency (IRA) influences online political conversations in the United States, exacerbating existing partisan divides and sowing discord. In this paper we investigate the IRA's communication strategies by analyzing trending terms on Twitter to identify cases in which the IRA leads or follows other users. Our analysis focuses on over 38M tweets posted between 2016 and 2017 from IRA users (n=3,613), journalists (n=976), members of Congress (n=526), and politically engaged users from the general public (n=71,128). We find that the IRA tends to lead on topics related to the 2016 election, race, and entertainment, suggesting that these are areas both of strategic importance as well having the highest potential impact. Furthermore, we identify topics where the IRA has been relatively ineffective, such as tweets on military, political scandals, and violent attacks. Despite many tweets on these topics, the IRA rarely leads the conversation and thus has little opportunity to influence it. We offer our proposed methodology as a way to track the strategic choices of future influence operations in real-time., Comment: ICWSM 2022

Published

2022

47. Developing an Attitude Scale for Turkish Sign Language (TSL-AS)

Author

Bilgiç, Hatice Cansu, Aslan, Cem, Özdemir Kiliç, Merve, and Kan, Adnan

Abstract

In this study, the aim is to develop a measurement tool that can be used to measure attitudes towards Turkish Sign Language (TSL). For this purpose, the researchers followed a systematic process. The study group consists of students in the special education departments of three different universities' faculties of education in the spring semester of the 2019-2020 academic year. The developed scale was applied to 510 students in total. The scale data obtained from the students were randomly divided into two; Exploratory Factor Analysis (EFA) was performed with the first group data (n1=297), and Confirmatory Factor Analysis (CFA) was performed with the second group data (n2=213). Within the scope of the results obtained from EFA, it was determined that the scale consists of four factors (effort, necessity, avoidance, active use) and 20 items. When the obtained construct validity was tested with CFA, it was seen that the values of fit indexes were at an acceptable level. The internal consistency of the scale was calculated with Cronbach's Alfa and the result obtained from this data set was determined as 0.91. The reliability coefficients of the factors ranged from 0.70 to 0.90. Findings showed that the scale is valid and reliable to measure attitudes towards TSL.

Published

2021

48. Evaluation of the Emergency Remote Teaching Process during the COVID-19 Pandemic: Implications Based on Students' Views

Author

Bilgiç, Hatice Gökçe

Abstract

This study aims to examine the level of students' satisfaction and opinions about the emergency remote teaching process during the COVID-19 pandemic in the Ondokuz Mayis University in Turkey. Based on the results a guide was constructed for universities to be prepared for emergency remote teaching situations. The study was designed as a survey method which is a quantitative research. Data was collected using an 8-section quantitative questionnaire with 53 close-ended questions. Participants were 3540 university students consisting of 150 graduate students and 3390 undergraduate students. The results indicated that 72.5% of participants (n= 2567) graded their distance learning experiences during the pandemic as moderately satisfactory or higher during the pandemic at the university. Based on the results, the highest satisfaction score is for the system including LMS and videoconferencing tools, and the lowest satisfaction score is for assessment and measurement methods. Moreover, attendance of synchronous lessons, regular instantaneous feedback provided by instructors, asynchronous activities and instantaneous interaction with instructors contributed to students' learning during the emergency remote teaching process in the pandemic. On the other hand, deficiency of face-to-face interaction, homework, technical problems during synchronous lessons, and motivational deficiencies were scored as obstacles. In addition, universities should be prepared for an alternative way of teaching for similar crises like the COVID-19 pandemic, and distance education technologies must have a supportive role in face-to-face learning in universities. Universities who were using emerging technologies before COVID-19 crisis had a comparative advantage over those who did not integrate new technologies into their education system.

Published

2021

49. The effect of soy isoflavones given to women in the climacteric period on menopausal symptoms and quality of life: Systematic review and meta-analysis of randomized controlled trials

Author

GENÇTÜRK, Nuran, BİLGİÇ, Fatma Şule, and KABAN, Hülya Ulaşlı

Published

2024

50. The impact of educational and training programs on disaster awareness and preparedness among health sciences students: A quasi-experimental study

Author

Aslanoğlu, Aziz, Bilgiç, Nurcan, Murad, Amal A., Elshatarat, Rami A., Abujaber, Dana Anwer, Al Qasim, Eman, Siddiq, Najlaa A., Sobeh, Dena Eltabey, Eltayeb, Mudathir M., and Saleh, Zyad T.

Published

2024