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51. Securing transactions: a hybrid dependable ensemble machine learning model using IHT-LR and grid search

Author

Md. Alamin Talukder, Rakib Hossen, Md Ashraf Uddin, Mohammed Nasir Uddin, and Uzzal Kumar Acharjee

Subjects
Credit card, Fraudulent transactions, Ensemble model, Machine learning, Detection, Computer engineering. Computer hardware, TK7885-7895, Electronic computers. Computer science, QA75.5-76.95
Abstract

Abstract Financial institutions and businesses face an ongoing challenge from fraudulent transactions, prompting the need for effective detection methods. Detecting credit card fraud is crucial for identifying and preventing unauthorized transactions. While credit card fraud incidents are relatively rare, they can result in substantial financial losses, particularly due to the high monetary value associated with fraudulent transactions. Timely detection of fraud enables investigators to take swift actions to mitigate further losses. However, the investigation process is often time-consuming, limiting the number of alerts that can be thoroughly examined each day. Therefore, the primary objective of a fraud detection model is to provide accurate alerts while minimizing false alarms and missed fraud cases. In this paper, we introduce a state-of-the-art hybrid ensemble (ENS) dependable machine learning (ML) model that intelligently combines multiple algorithms with proper weighted optimization using grid search, including decision tree (DT), random forest (RF), K-nearest neighbor (KNN), and multilayer perceptron (MLP), to enhance fraud identification. To address the data imbalance issue, we employ the instant hardness threshold (IHT) technique in conjunction with logistic regression (LR), surpassing conventional approaches. Our experiments are conducted on a publicly available credit card dataset comprising 284,807 transactions. The proposed model achieves impressive accuracy rates of 99.66%, 99.73%, 98.56%, and 99.79%, and a perfect 100% for the DT, RF, KNN, MLP and ENS models, respectively. The hybrid ensemble model outperforms existing works, establishing a new benchmark for detecting fraudulent transactions in high-frequency scenarios. The results highlight the effectiveness and reliability of our approach, demonstrating superior performance metrics and showcasing its exceptional potential for real-world fraud detection applications.

Published
2024
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52. Brain tumor classification utilizing pixel distribution and spatial dependencies higher-order statistical measurements through explainable ML models

Author

Sharmin Akter, Md. Simul Hasan Talukder, Sohag Kumar Mondal, Mohammad Aljaidi, Rejwan Bin Sulaiman, and Ahmad Abdullah Alshammari

Subjects
MRI, DWT, PCA, ExtratreesClassifier, KNNImputer, SVM, Medicine, Science
Abstract

Abstract Brain tumors are among the most fatal and devastating diseases, and they often result in a significant reduction in life expectancy. The devising of treatment plans that can extend the lives of affected individuals hinges on an accurate diagnosis of these tumors. Identifying and analyzing large volumes of magnetic resonance imaging (MRI) data manually proves to be both challenging and time-consuming. As a result, there exists a pressing need for a reliable machine-learning approach to accurately diagnose brain tumors, and numerous methods have already been proposed over the last decade. In this paper, a novel, comprehensive approach is proposed for identifying and classifying a given MR brain image as abnormal. Three common brain diseases, namely glioma, meningioma, and pituitary tumor, are chosen as abnormal brains, and the Figshare MRI brain image dataset was collected from the Kaggle and IEEE websites. The proposed method is initiated by employing 1st-order statistics, 2nd-order statistics, and higher-order transformed (DWT) feature extraction to extract features from images. Then missing data is addressed and handled using KNNImputer, followed by the application of the ExtratreesClassifier and PCA feature selection methods to identify the most relevant features and reduce the dimensions of these features. Subsequently, the reduced features are submitted to seven machine learning models, namely RF, GB, CB, SVM, LGBM, DT, and LR. The strategy of k-fold cross-validation is utilized to enhance the performance of those models. Finally, the models are evaluated using XAI approaches, which ensure transparent decision-making processes and provide insights into the model’s predictions. Remarkably, our approach achieves the highest accuracy, precision, recall, F1 score, MCC, Kappa, AUC-ROC, and R2, as well as the lowest loss, among the seven models evaluated, proving its effectiveness and applicability in multiple analytic applications relying on publicly available datasets.

Published
2024
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53. Long-term survival following anti-PD-(L)1 monotherapy in advanced urothelial cancer and an assessment of potential prognostic clinical factors: a multicentre observational study

Author

Chantal F. Stockem, Sarah M. H. Einerhand, Isabel Miras Rodríguez, Youssra Salhi, Esther Pérez, Dimitra R. Bakaloudi, Rafee Talukder, Belen Caramelo, Rafael Morales-Barrera, Astrid De Meulenaere, Alessandro Rametta, Andrea Bottelli, Felix Lefort, Patrizia Giannatempo, Christof Vulsteke, Joan Carles, Ignacio Duran, Petros Grivas, Alfonso Gómez de Liaño, Debbie G. J. Robbrecht, Begoña P. Valderrama, Vincent van der Noort, and Michiel S. van der Heijden

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

Abstract Background Anti-PD-(L)1 agent are approved as first- and second-line treatment options in advanced urothelial cancer (UC), but information about long-term survival is scarce. There is a need for prognostic factors, as these may help in the decision-making concerning anti-PD-(L)1 in patients with UC. Here, we examined long-term survival following anti-PD-(L)1 in advanced UC and assessed clinical factors for their correlation with survival. Methods We collected data from patients with advanced UC treated with anti-PD-(L)1 between 2013 and 2023. Overall- and progression-free survival (OS, PFS) were determined using the Kaplan-Meier method. Independent variables were analysed by uni- and multivariate Cox regression for their association with OS and PFS. Results Survival analyses included 552 patients. Patient characteristics in our cohort were consistent with those of a typical advanced UC population. After median follow-up of 49 months, five-year OS and PFS rates were 16.0% and 6.9% respectively. The absence of visceral and/or bone metastases and elevated C-reactive protein level, gamma-glutamyltransferase level and neutrophil-to-lymphocyte ratio were identified as favourable prognostic factors for OS. Conclusions A selected subset of patients with advanced UC may experience long-term clinical benefit from anti-PD-(L)1 treatment. We identified prognostic factors that might be used for risk assessment and clinical trial stratification.

Published
2024
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54. Who do you choose? Employees' perceptions of artificial intelligence versus humans in performance feedback

Author

Mohammad Islam Biswas, Md. Shamim Talukder, and Atikur Rahman Khan

Subjects
artificial intelligence, employee perceptions, performance management systems, performance feedback, Accounting. Bookkeeping, HF5601-5689, Finance, HG1-9999
Abstract

Firms have already begun integrating artificial intelligence (AI) as a replacement for conventional performance management systems owing to its technological superiority. This transition has sparked a growing interest in determining how employees perceive and respond to performance feedback provided by AI as opposed to human supervisors. A 2 x 2 between-subject experimental design was employed that was manipulated into four experimental conditions: AI algorithms, AI data, highly experienced human supervisors and low-experience human supervisor conditions. A one-way ANOVA and Welch t-test were used to analyze data. Our findings revealed that with a predefined fixed formula employed for performance feedback, employees exhibited higher levels of trust in AI algorithms, had greater performance expectations and showed stronger intentions to seek performance feedback from AI algorithms than highly experienced human supervisors. Conversely, when performance feedback was provided by human supervisors, even those with less experience, in a discretionary manner, employees' perceptions were higher compared to similar feedback provided by AI data. Moreover, additional analysis findings indicated that combined AI-human performance feedback led to higher levels of employees' perceptions compared to performance feedback solely by AI or humans. The findings of our study advocate the incorporation of AI in performance management systems and the implementation of AI-human combined feedback approaches as a potential strategy to alleviate the negative perception of employees, thereby increasing firms' return on AI investment. Our study represents one of the initial endeavors exploring the integration of AI in performance management systems and AI-human collaboration in providing performance feedback to employees.

Published
2024
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55. Multiscale characterization of dislocation development during cyclic bending under tension in commercially pure titanium

Author

Nathan Miller, Nicholas Pitkin, Talukder Musfika Tasnim Oishi, Desmond Mensah, Marko Knezevic, Michael Miles, and David Fullwood

Subjects
Dislocation density, Elongation to failure, Strain hardening, Cyclic bending under tension, Commercially pure titanium (CP–Ti), Sheet metal forming, Mining engineering. Metallurgy, TN1-997
Abstract

Cyclic bending under tension (CBT) has been shown to increase room temperature elongation-to-failure in various sheet metals beyond that of simple tension. A greater understanding of deformation mechanisms in CBT would allow for its elongation-enhancing effects to be more fully exploited, creating potential for new forming strategies. CBT-induced cyclic bending/unbending stresses combined with applied macroscopic tensile stresses create complex through-thickness stress profiles, where differing hardening behavior is expected near the surfaces compared with the middle of the sheet. This work uses high resolution electron backscatter diffraction characterization of geometrically necessary dislocation density together with X-ray diffraction-based evaluations of total dislocation density and in-plane digital image correlation to provide an in-depth analysis of through-thickness dislocation development and associated hardening rates throughout the CBT process in CP-Ti Grade 4 sheet metal. It was found that dislocation density is relatively uniform across the sheet at lower cycles, increases in the sheet center at higher cycles, and eventually approaches saturation near failure. Namely, dislocation accumulation occurs more slowly in the ratcheting, bending/unbending portions of the sheet (i.e., near the surfaces) from cyclic load reversals, and develops faster in the central tensile portion, where dislocation density up to 1.43x higher than near the surfaces was observed. High dislocation densities in the sheet center were found to precede significant central void accumulation, concentrating damage away from peak surface stresses, presumably contributing to delayed failure.

Published
2024
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56. Autism Spectrum Disorder among 16- to 30-Month-Old Children in Bangladesh: Observational Cross-Sectional Study

Author

Shaheen Akhter, Jannatara Shefa, Mohammad Abdul Quader, Khurshid Talukder, A. H. M. Enayet Hussain, Gopen Kumar Kundu, Kanij Fatema, Sayeda Tabassum Alam, Kazi Ashraful Islam, Md Sayedur Rahman, Mohammad Mizanur Rahman, Ziaul Hasan, and Muzharul Mannan

Abstract

Autism spectrum disorder is a developmental disorder that includes deficits in social communication and interaction, and restricted and repetitive behaviours, interests, or activities. This survey was done to assess autism spectrum disorder prevalence in 16- to 30-month-old children at an urban-rural distribution and determine the association of socioeconomic and demographic conditions. An observational cross-sectional study was conducted in 30 districts of Bangladesh. Three-stage cluster sampling was used with 'Red Flag', Modified Checklist for Toddlers and "Diagnostic and Statistical Manual of Mental Disorders, 5th Edition," respectively. Data editing and analysis were done using CSPro 6 and SPSS 23. The survey included 37,982 households (71% rural, 29% urban) with 38,440 children. 'Red Flag' was positive in 209/10,000 children. Modified Checklist for Toddlers was positive in 149/10,000 children. "Diagnostic and Statistical Manual of Mental Disorders, 5th Edition"--positive autism spectrum disorder prevalence was 17/10,000 young children (boys 24/10,000, girls 9.8/10,000). Prevalence was higher in urban than rural (25/10,000 and 14/10,000 respectively). It was 77/10,000 in mothers aged 35-39 years and 23/10,000 in children of fathers aged 40 years. For families within the lowest wealth quintile, the autism spectrum disorder prevalence was 15/10,000. Autism spectrum disorder at very young ages in Bangladesh is still low. It was higher in urban areas, with the advanced age of parents, especially mothers, and in families with higher wealth quintiles.

Published
2024
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59. IoMT-Blockchain based Secured Remote Patient Monitoring Framework for Neuro-Stimulation Device

Author

Sourav, Md Sakib Ullah, Mahmud, Mohammad Sultan, Talukder, Md Simul Hasan, Sulaiman, Rejwan Bin, and Yasin, Abdullah

Subjects
Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence
Abstract

Biomedical Engineering's Internet of Medical Things (IoMT) is helping to improve the accuracy, dependability, and productivity of electronic equipment in the healthcare business. Real-time sensory data from patients may be delivered and subsequently analyzed through rapid development of wearable IoMT devices, such as neuro-stimulation devices with a range of functions. Data from the Internet of Things is gathered, analyzed, and stored in a single location. However, single-point failure, data manipulation, privacy difficulties, and other challenges might arise as a result of centralization. Due to its decentralized nature, blockchain (BC) can alleviate these issues. The viability of establishing a non-invasive remote neurostimulation system employing IoMT-based transcranial Direct Current Stimulation is investigated in this work (tDCS). A hardware-based prototype tDCS device has been developed that can be operated over the internet using an android application. Our suggested framework addresses the problems of IoMTBC-based systems, meets the criteria of real-time remote patient monitoring systems, and incorporates literature best practices in the relevant fields., Comment: 8 Figures and 2 Tables

Published
2023

60. Unleashing the Power of Extra-Tree Feature Selection and Random Forest Classifier for Improved Survival Prediction in Heart Failure Patients

Author

Talukder, Md. Simul Hasan, Sulaiman, Rejwan Bin, and Angon, Mouli Bardhan Paul

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Heart failure is a life-threatening condition that affects millions of people worldwide. The ability to accurately predict patient survival can aid in early intervention and improve patient outcomes. In this study, we explore the potential of utilizing data pre-processing techniques and the Extra-Tree (ET) feature selection method in conjunction with the Random Forest (RF) classifier to improve survival prediction in heart failure patients. By leveraging the strengths of ET feature selection, we aim to identify the most significant predictors associated with heart failure survival. Using the public UCL Heart failure (HF) survival dataset, we employ the ET feature selection algorithm to identify the most informative features. These features are then used as input for grid search of RF. Finally, the tuned RF Model was trained and evaluated using different matrices. The approach was achieved 98.33% accuracy that is the highest over the exiting work., Comment: 7 page, 6 Table and 6 Figure

Published
2023

61. Comparative Analysis of Epileptic Seizure Prediction: Exploring Diverse Pre-Processing Techniques and Machine Learning Models

Author

Talukder, Md. Simul Hasan and Sulaiman, Rejwan Bin

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Epilepsy is a prevalent neurological disorder characterized by recurrent and unpredictable seizures, necessitating accurate prediction for effective management and patient care. Application of machine learning (ML) on electroencephalogram (EEG) recordings, along with its ability to provide valuable insights into brain activity during seizures, is able to make accurate and robust seizure prediction an indispensable component in relevant studies. In this research, we present a comprehensive comparative analysis of five machine learning models - Random Forest (RF), Decision Tree (DT), Extra Trees (ET), Logistic Regression (LR), and Gradient Boosting (GB) - for the prediction of epileptic seizures using EEG data. The dataset underwent meticulous preprocessing, including cleaning, normalization, outlier handling, and oversampling, ensuring data quality and facilitating accurate model training. These preprocessing techniques played a crucial role in enhancing the models' performance. The results of our analysis demonstrate the performance of each model in terms of accuracy. The LR classifier achieved an accuracy of 56.95%, while GB and DT both attained 97.17% accuracy. RT achieved a higher accuracy of 98.99%, while the ET model exhibited the best performance with an accuracy of 99.29%. Our findings reveal that the ET model outperformed not only the other models in the comparative analysis but also surpassed the state-of-the-art results from previous research. The superior performance of the ET model makes it a compelling choice for accurate and robust epileptic seizure prediction using EEG data., Comment: 14 pages, 4 Tables and 5 Figures

Published
2023

62. Rank Your Summaries: Enhancing Bengali Text Summarization via Ranking-based Approach

Author

Shahariar, G. M., Talukder, Tonmoy, Sotez, Rafin Alam Khan, and Shawon, Md. Tanvir Rouf

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

With the increasing need for text summarization techniques that are both efficient and accurate, it becomes crucial to explore avenues that enhance the quality and precision of pre-trained models specifically tailored for summarizing Bengali texts. When it comes to text summarization tasks, there are numerous pre-trained transformer models at one's disposal. Consequently, it becomes quite a challenge to discern the most informative and relevant summary for a given text among the various options generated by these pre-trained summarization models. This paper aims to identify the most accurate and informative summary for a given text by utilizing a simple but effective ranking-based approach that compares the output of four different pre-trained Bengali text summarization models. The process begins by carrying out preprocessing of the input text that involves eliminating unnecessary elements such as special characters and punctuation marks. Next, we utilize four pre-trained summarization models to generate summaries, followed by applying a text ranking algorithm to identify the most suitable summary. Ultimately, the summary with the highest ranking score is chosen as the final one. To evaluate the effectiveness of this approach, the generated summaries are compared against human-annotated summaries using standard NLG metrics such as BLEU, ROUGE, BERTScore, WIL, WER, and METEOR. Experimental results suggest that by leveraging the strengths of each pre-trained transformer model and combining them using a ranking-based approach, our methodology significantly improves the accuracy and effectiveness of the Bengali text summarization., Comment: Accepted in International Conference on Big Data, IoT and Machine Learning 2023 (BIM 2023)

Published
2023

63. Smart Transformation of EFL Teaching and Learning Approaches

Author

Talukder, Md. Russell

Subjects
Computer Science - Artificial Intelligence
Abstract

The calibration of the EFL teaching and learning approaches with Artificial Intelligence can potentially facilitate a smart transformation, fostering a personalized and engaging experience in teaching and learning among the stakeholders. The paper focuses on developing an EFL Big Data Ecosystem that is based on Big Data, Analytics, Machine Learning and cluster domain of EFL teaching and learning contents. Accordingly, the paper uses two membranes to construe its framework, namely (i) Open Big Data Membrane that stores random data collected from various source domains and (ii) Machine Learning Membrane that stores specially prepared structured and semi-structured data. Theoretically, the structured and semi structured data are to be prepared skill-wise, attribute-wise, method-wise, and preference-wise to accommodate the personalized preferences and diverse teaching and learning needs of different individuals. The ultimate goal is to optimize the learning experience by leveraging machine learning to create tailored content that aligns with the diverse teaching and learning needs of the EFL communities., Comment: 59 pages , 7 figures, 30 tables, multidisciplinary research article

Published
2023
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64. Online learning for X-ray, CT or MRI

Author

Bhuiyan, Mosabbir, Nasim, MD Abdullah Al, Saif, Sarwar, Gupta, Kishor Datta, Alam, Md Jahangir, and Talukder, Sajedul

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Physics - Medical Physics
Abstract

Medical imaging plays an important role in the medical sector in identifying diseases. X-ray, computed tomography (CT) scans, and magnetic resonance imaging (MRI) are a few examples of medical imaging. Most of the time, these imaging techniques are utilized to examine and diagnose diseases. Medical professionals identify the problem after analyzing the images. However, manual identification can be challenging because the human eye is not always able to recognize complex patterns in an image. Because of this, it is difficult for any professional to recognize a disease with rapidity and accuracy. In recent years, medical professionals have started adopting Computer-Aided Diagnosis (CAD) systems to evaluate medical images. This system can analyze the image and detect the disease very precisely and quickly. However, this system has certain drawbacks in that it needs to be processed before analysis. Medical research is already entered a new era of research which is called Artificial Intelligence (AI). AI can automatically find complex patterns from an image and identify diseases. Methods for medical imaging that uses AI techniques will be covered in this chapter., Comment: 14 pages, 17 figures, 1 table; Acceptance of the chapter for the Springer book "Data-driven approaches to medical imaging"

Published
2023

65. AutoML Systems For Medical Imaging

Author

Jidney, Tasmia Tahmida, Biswas, Angona, Nasim, MD Abdullah Al, Hossain, Ismail, Alam, Md Jahangir, Talukder, Sajedul, Hossain, Mofazzal, and Ullah, Md Azim

Subjects
Computer Science - Artificial Intelligence
Abstract

The integration of machine learning in medical image analysis can greatly enhance the quality of healthcare provided by physicians. The combination of human expertise and computerized systems can result in improved diagnostic accuracy. An automated machine learning approach simplifies the creation of custom image recognition models by utilizing neural architecture search and transfer learning techniques. Medical imaging techniques are used to non-invasively create images of internal organs and body parts for diagnostic and procedural purposes. This article aims to highlight the potential applications, strategies, and techniques of AutoML in medical imaging through theoretical and empirical evidence., Comment: 11 pages, 4 figures; Acceptance of the chapter for the Springer book "Data-driven approaches to medical imaging"

Published
2023

66. Deep learning powered real-time identification of insects using citizen science data

Author

Chiranjeevi, Shivani, Sadaati, Mojdeh, Deng, Zi K, Koushik, Jayanth, Jubery, Talukder Z, Mueller, Daren, Neal, Matthew E O, Merchant, Nirav, Singh, Aarti, Singh, Asheesh K, Sarkar, Soumik, Singh, Arti, and Ganapathysubramanian, Baskar

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Insect-pests significantly impact global agricultural productivity and quality. Effective management involves identifying the full insect community, including beneficial insects and harmful pests, to develop and implement integrated pest management strategies. Automated identification of insects under real-world conditions presents several challenges, including differentiating similar-looking species, intra-species dissimilarity and inter-species similarity, several life cycle stages, camouflage, diverse imaging conditions, and variability in insect orientation. A deep-learning model, InsectNet, is proposed to address these challenges. InsectNet is endowed with five key features: (a) utilization of a large dataset of insect images collected through citizen science; (b) label-free self-supervised learning for large models; (c) improving prediction accuracy for species with a small sample size; (d) enhancing model trustworthiness; and (e) democratizing access through streamlined MLOps. This approach allows accurate identification (>96% accuracy) of over 2500 insect species, including pollinator (e.g., butterflies, bees), parasitoid (e.g., some wasps and flies), predator species (e.g., lady beetles, mantises, dragonflies) and harmful pest species (e.g., armyworms, cutworms, grasshoppers, stink bugs). InsectNet can identify invasive species, provide fine-grained insect species identification, and work effectively in challenging backgrounds. It also can abstain from making predictions when uncertain, facilitating seamless human intervention and making it a practical and trustworthy tool. InsectNet can guide citizen science data collection, especially for invasive species where early detection is crucial. Similar approaches may transform other agricultural challenges like disease detection and underscore the importance of data collection, particularly through citizen science efforts..

Published
2023

67. An Improved Model for Diabetic Retinopathy Detection by using Transfer Learning and Ensemble Learning

Author

Talukder, Md. Simul Hasan, Sarkar, Ajay Kirshno, Akter, Sharmin, and Nuhi-Alamin, Md.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Diabetic Retinopathy (DR) is an ocular condition caused by a sustained high level of sugar in the blood, which causes the retinal capillaries to block and bleed, causing retinal tissue damage. It usually results in blindness. Early detection can help in lowering the risk of DR and its severity. The robust and accurate prediction and detection of diabetic retinopathy is a challenging task. This paper develops a machine learning model for detecting Diabetic Retinopathy that is entirely accurate. Pre-trained models such as ResNet50, InceptionV3, Xception, DenseNet121, VGG19, NASNetMobile, MobileNetV2, DensNet169, and DenseNet201 with pooling layer, dense layer, and appropriate dropout layer at the bottom of them were carried out in transfer learning (TL) approach. Data augmentation and regularization was performed to reduce overfitting. Transfer Learning model of DenseNet121, Average and weighted ensemble of DenseNet169 and DenseNet201 TL architectures contribute individually the highest accuracy of 100%, the highest precision, recall, F-1 score of 100%, 100%, and 100%, respectively., Comment: 22 pages, 7 Tables and 7 Figures

Published
2023

68. Case Studies on X-Ray Imaging, MRI and Nuclear Imaging

Author

Sarker, Shuvra, Biswas, Angona, Nasim, MD Abdullah Al, Ali, Md Shahin, Puppala, Sai, and Talukder, Sajedul

Subjects
Computer Science - Artificial Intelligence
Abstract

The field of medical imaging is an essential aspect of the medical sciences, involving various forms of radiation to capture images of the internal tissues and organs of the body. These images provide vital information for clinical diagnosis, and in this chapter, we will explore the use of X-ray, MRI, and nuclear imaging in detecting severe illnesses. However, manual evaluation and storage of these images can be a challenging and time-consuming process. To address this issue, artificial intelligence (AI)-based techniques, particularly deep learning (DL), have become increasingly popular for systematic feature extraction and classification from imaging modalities, thereby aiding doctors in making rapid and accurate diagnoses. In this review study, we will focus on how AI-based approaches, particularly the use of Convolutional Neural Networks (CNN), can assist in disease detection through medical imaging technology. CNN is a commonly used approach for image analysis due to its ability to extract features from raw input images, and as such, will be the primary area of discussion in this study. Therefore, we have considered CNN as our discussion area in this study to diagnose ailments using medical imaging technology., Comment: 15 pages, 3 figures, 4 tables; Acceptance of the chapter for the Springer book "Data-driven approaches to medical imaging"

Published
2023

69. Generative Adversarial Networks for Data Augmentation

Author

Biswas, Angona, Nasim, MD Abdullah Al, Imran, Al, Sejuty, Anika Tabassum, Fairooz, Fabliha, Puppala, Sai, and Talukder, Sajedul

Subjects
Computer Science - Artificial Intelligence
Abstract

One way to expand the available dataset for training AI models in the medical field is through the use of Generative Adversarial Networks (GANs) for data augmentation. GANs work by employing a generator network to create new data samples that are then assessed by a discriminator network to determine their similarity to real samples. The discriminator network is taught to differentiate between actual and synthetic samples, while the generator system is trained to generate data that closely resemble real ones. The process is repeated until the generator network can produce synthetic data that is indistinguishable from genuine data. GANs have been utilized in medical image analysis for various tasks, including data augmentation, image creation, and domain adaptation. They can generate synthetic samples that can be used to increase the available dataset, especially in cases where obtaining large amounts of genuine data is difficult or unethical. However, it is essential to note that the use of GANs in medical imaging is still an active area of research to ensure that the produced images are of high quality and suitable for use in clinical settings., Comment: 13 pages, 6 figures, 1 table; Acceptance of the chapter for the Springer book "Data-driven approaches to medical imaging"

Published
2023

70. Active Learning on Medical Image

Author

Biswas, Angona, Nasim, MD Abdullah Al, Ali, Md Shahin, Hossain, Ismail, Ullah, Md Azim, and Talukder, Sajedul

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

The development of medical science greatly depends on the increased utilization of machine learning algorithms. By incorporating machine learning, the medical imaging field can significantly improve in terms of the speed and accuracy of the diagnostic process. Computed tomography (CT), magnetic resonance imaging (MRI), X-ray imaging, ultrasound imaging, and positron emission tomography (PET) are the most commonly used types of imaging data in the diagnosis process, and machine learning can aid in detecting diseases at an early stage. However, training machine learning models with limited annotated medical image data poses a challenge. The majority of medical image datasets have limited data, which can impede the pattern-learning process of machine-learning algorithms. Additionally, the lack of labeled data is another critical issue for machine learning. In this context, active learning techniques can be employed to address the challenge of limited annotated medical image data. Active learning involves iteratively selecting the most informative samples from a large pool of unlabeled data for annotation by experts. By actively selecting the most relevant and informative samples, active learning reduces the reliance on large amounts of labeled data and maximizes the model's learning capacity with minimal human labeling effort. By incorporating active learning into the training process, medical imaging machine learning models can make more efficient use of the available labeled data, improving their accuracy and performance. This approach allows medical professionals to focus their efforts on annotating the most critical cases, while the machine learning model actively learns from these annotated samples to improve its diagnostic capabilities., Comment: 12 pages, 8 figures; Acceptance of the chapter for the Springer book "Data-driven approaches to medical imaging"

Published
2023

71. Introduction to Medical Imaging Informatics

Author

Jahangir, Md. Zihad Bin, Hossain, Ruksat, Islam, Riadul, Nasim, MD Abdullah Al, Haque, Md. Mahim Anjum, Alam, Md Jahangir, and Talukder, Sajedul

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Medical imaging informatics is a rapidly growing field that combines the principles of medical imaging and informatics to improve the acquisition, management, and interpretation of medical images. This chapter introduces the basic concepts of medical imaging informatics, including image processing, feature engineering, and machine learning. It also discusses the recent advancements in computer vision and deep learning technologies and how they are used to develop new quantitative image markers and prediction models for disease detection, diagnosis, and prognosis prediction. By covering the basic knowledge of medical imaging informatics, this chapter provides a foundation for understanding the role of informatics in medicine and its potential impact on patient care., Comment: 18 pages, 11 figures, 2 tables; Acceptance of the chapter for the Springer book "Data-driven approaches to medical imaging"

Published
2023

73. Response and Outcomes of Maintenance Avelumab After Platinum-Based Chemotherapy (PBC) in Patients With Advanced Urothelial Carcinoma (aUC): Real World Experience.

Author

Bakaloudi, Dimitra, Talukder, Rafee, Lin, Genevieve, Makrakis, Dimitrios, Diamantopoulos, Leonidas, Tripathi, Nishita, Agarwal, Neeraj, Zakopoulou, Roubini, Bamias, Aristotelis, Brown, Jason, Pinato, David, Korolewicz, James, Jindal, Tanya, Koshkin, Vadim, Murgić, Jure, Miletić, Marija, Frobe, Ana, Johnson, Jeffrey, Zakharia, Yousef, Drakaki, Alexandra, Rodriguez-Vida, Alejo, Rey-Cárdenas, Macarena, Castellano, Daniel, Buznego, Lucia, Duran, Ignacio, Carballeira, Clara, Barrera, Rafael, Marmorejo, David, McKay, Rana, Stewart, Tyler, Gupta, Shilpa, Ruplin, Andrew, Yu, Evan, Khaki, Ali, and Grivas, Petros

Subjects
Anti-PD(L)1, Bladder cancer, Immune Checkpoint Inhibitors, Immunotherapy, Urinary tract cancer, Humans, Antibodies, Monoclonal, Retrospective Studies, Carcinoma, Transitional Cell, Platinum, Urinary Bladder Neoplasms
Abstract

BACKGROUND: Platinum-based chemotherapy (PBC) followed by avelumab switch maintenance in nonprogressors is standard first line (1L) treatment for advanced urothelial carcinoma (aUC). We describe clinical features and outcomes in a real-world cohort treated with avelumab maintenance for aUC. MATERIALS AND METHODS: This was a retrospective cohort study of patients (pts) who received 1L switch maintenance avelumab after no progression on PBC for aUC. We calculated progression-free survival (PFS) and overall survival (OS) from initiation of maintenance avelumab. We also described OS and PFS for specific subsets using Cox regression and observed response rate (ORR). RESULTS: A total of 108 pts with aUC from 14 sites treated with maintenance avelumab were included. There was a median of 6 weeks1-30 from end of PBC to avelumab initiation; median follow-up time from avelumab initiation was 8.8 months (1-42.7). Median [m]PFS was 9.6 months (95%CI 7.5-12.1) and estimated 1-year OS was 72.5%. CR/PR (vs. SD) to 1L PBC (HR = 0.33, 95% CI 0.13-0.87) and ECOG PS 0 (vs. ≥1), (HR = 0.15, 95% CI 0.05-0.47) were associated with longer OS. The presence of liver metastases was associated with shorter PFS (HR = 2.32, 95% CI 1.17-4.59). ORR with avelumab maintenance was 28.7% (complete response 17.6%, partial response 11.1%), 29.6% stable disease, 26.9% progressive disease as best response (14.8% best response unknown). CONCLUSIONS: Results seem relatively consistent with findings from JAVELIN Bladder100 trial and recent real world studies. Prior response to platinum-based chemotherapy, ECOG PS 0, and absence of liver metastases were favorable prognostic factors. Limitations include the retrospective design, lack of randomization and central scan review, and possible selection/confounding biases.

Published
2023

85. Long-term survival following anti-PD-(L)1 monotherapy in advanced urothelial cancer and an assessment of potential prognostic clinical factors: a multicentre observational study

Author

Stockem, Chantal F., Einerhand, Sarah M. H., Rodríguez, Isabel Miras, Salhi, Youssra, Pérez, Esther, Bakaloudi, Dimitra R., Talukder, Rafee, Caramelo, Belen, Morales-Barrera, Rafael, De Meulenaere, Astrid, Rametta, Alessandro, Bottelli, Andrea, Lefort, Felix, Giannatempo, Patrizia, Vulsteke, Christof, Carles, Joan, Duran, Ignacio, Grivas, Petros, de Liaño, Alfonso Gómez, Robbrecht, Debbie G. J., Valderrama, Begoña P., van der Noort, Vincent, and van der Heijden, Michiel S.

Published
2024
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93. Correction: Developing an integrated clinical decision support system for the early identification and management of kidney disease—building cross-sectoral partnerships

Author

Gorham, Gillian, Abeyaratne, Asanga, Heard, Sam, Moore, Liz, George, Pratish, Kamler, Paul, Majoni, Sandawana William, Chen, Winnie, Balasubramanya, Bhavya, Talukder, Mohammad Radwanur, Pascoe, Sophie, Whitehead, Adam, Sajiv, Cherian, Maple-Brown, Louise, Kangaharan, Nadarajah, and Cass, Alan

Published
2024
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95. Developing an integrated clinical decision support system for the early identification and management of kidney disease—building cross-sectoral partnerships

Author

Gorham, Gillian, Abeyaratne, Asanga, Heard, Sam, Moore, Liz, George, Pratish, Kamler, Paul, Majoni, Sandawana William, Chen, Winnie, Balasubramanya, Bhavya, Talukder, Mohammad Radwanur, Pascoe, Sophie, Whitehead, Adam, Sajiv, Cherian, Maple-Brown, Louise, Kangaharan, Nadarajah, and Cass, Alan

Published
2024
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100. Prevalence and determinants of hypertension in South-Asian Urban Communities: findings from Demographic and Health Surveys (DHS) data of South Asian countries

Author

Talukder, Ashis, Sara, Sabiha Shirin, Khan, Zahidul Islam, Yadav, Uday Narayan, Mistry, Sabuj Kanti, Biswas, Tuhin, Alam, Ariful, Ali, Md. Wazid, Jannat, Zerin, Haseen, Fariha, Uddin, Md. Jasim, Gray, Darren J., Ahmed, Tahmeed, Kelly, Matthew, Islam, Sheikh Mohammed Shariful, and Sarma, Haribondhu

Published
2024
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