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2. A Data-Driven Medical Decision Framework for Associating Adverse Drug Events with Drug-Drug Interaction Mechanisms

Author

Adeeb Noor

Subjects
Pharmacovigilance, Drug-Related Side Effects and Adverse Reactions, Biomedical Engineering, Humans, Drug Interactions, Health Informatics, Surgery, Biotechnology
Abstract

Adverse drug events (ADEs) occur when multiple drugs interact within an individual, thus causing effects that were not initially predicted. Such toxic interactions lead to morbidity and mortality. Contemporary research surrounding ADEs has tended to focus on the detection of potential ADEs without great concern for elucidating the associations of drug-drug interaction (DDI) mechanisms that can predict potential adverse drug reactions (ADRs). Such associations are of great practical importance for everyday pharmacovigilance efforts. This study presents a data-driven framework for conducting knowledge-driven data analysis that combines a semantic inference system and enrichment analysis in order to identify potential ADE mechanisms. The framework was used to rank mechanisms according to their relevance for DDIs and also to categorize ADEs based on the number of DDI mechanism associations identified through enrichment analysis. Its validity is demonstrated through using both commercial and publicly available DDI resources. The results of this study solidly prove the framework’s effectiveness and highlight potential for future research by way of incorporating additional and broader data to deepen and expand its capabilities.

Published
2022

3. A Rule-Based Inference Framework to Explore and Explain the Biological Related Mechanisms of Potential Drug-Drug Interactions

Author

Abdullah Assiri and Adeeb Noor

Subjects
General Immunology and Microbiology, Article Subject, Applied Mathematics, Modeling and Simulation, Humans, Drug Interactions, General Medicine, General Biochemistry, Genetics and Molecular Biology
Abstract

As more drugs are developed and the incidence of polypharmacy increases, it is becoming critically important to anticipate potential DDIs before they occur in the clinic, along with those for which effects might go unobserved. However, traditional methods for DDI identification are unable to coalesce interaction mechanisms out of vast lists of potential or known DDIs, much less study them accurately. Computational methods have great promise but have realized only limited clinical utility. This work develops a rule-based inference framework to predict DDI mechanisms and support determination of their clinical relevance. Given a drug pair, our framework interrogates and describes DDI mechanisms based on a knowledge graph that integrates extensive available biomedical resources through semantic web technologies and backward chaining inference, effectively identifying facts within the graph that prove and explain the mechanisms of the drugs’ interaction. The framework was evaluated through a case study combining a chemotherapy agent, irinotecan, and a widely used antibiotic, levofloxacin. The mutual interactions identified indicate that our framework can effectively explore and explain the mechanisms of potential DDIs. This approach has the potential to improve drug discovery and design and to support rapid and cost-effective identification of DDIs along with their putative mechanisms, a key step in determining clinical relevance and supporting clinical decision-making.

Published
2022

7. A computational approach to predict multi-pathway drug-drug interactions: A case study of irinotecan, a colon cancer medication

Author

Adeeb Noor and Abdullah M. Assiri

Subjects
0301 basic medicine, Drug, Colorectal cancer, media_common.quotation_subject, Drug-drug interaction, Pharmaceutical Science, Single level, Irinotecan, Bioinformatics, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, Medicine, Multi-pathway, media_common, Pharmacology, business.industry, lcsh:RM1-950, medicine.disease, Semantic web technologies, Colon cancer, Clinical Practice, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Original Article, Prediction, business, medicine.drug
Abstract

Drug-drug interactions (DDIs) are a potentially distressing corollary of drug interventions, and may result in discomfort, debilitating illness, or even death. Existing research predominantly considers only a single level of interaction; however, serious health complications may result from multi-pathway DDIs, and so new methods are needed to enable predicting and preventing complex DDIs. This article introduces a novel method for the prediction of DDIs at two pharmacological levels (metabolic and transporter interactions) by means of a rule-based model implemented with Semantic Web technologies. The chemotherapy agent irinotecan is used as a case study for demonstrating the validity of this approach. Mechanistic and interaction data were mined from available sources and then used to predict interactors of irinotecan, including potential DDIs mediated by previously unidentified mechanisms. The findings also draw attention to the profound variation between DDI resources, indicating that clinical practice would see significant value from the development of an evidence-based resource to support DDI identification.

Published
2020

8. A Novel Approach to Ensemble Classifiers: FsBoost-Based Subspace Method

Author

Redhwan Nour, Muhammed Kürşad Uçar, Kemal Polat, Abdullah M. Assiri, Adeeb Noor, BAİBÜ, Mühendislik Fakültesi, Elektrik Elektronik Mühendisliği Bölümü, and Polat, Kemal

Subjects
Article Subject, Computer science, business.industry, General Mathematics, 0206 medical engineering, Ensemble Classifiers, General Engineering, Pattern recognition, 02 engineering and technology, Engineering (General). Civil engineering (General), 020601 biomedical engineering, QA1-939, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Artificial intelligence, TA1-2040, business, Classifier (UML), Mathematics, Subspace topology
Abstract

WOS:000556407600004 In this article, an algorithm is proposed for creating an ensemble classifier. The name of the algorithm is the F-score subspace method (FsBoost). According to this method, the features are selected with the F-score and classified with different or the same classifiers. In the next step, the ensemble classifier is created. Two versions that are named FsBoost.V1 and FsBoost.V2 have been developed based on classification by the same or different classifiers. According to the results obtained, the results are consistent with the literature. Besides, a higher accuracy rate is obtained compared with many algorithms in the literature. The algorithm is fast because it has a few steps. It is thought that the algorithm will be successful due to these advantages.

Published
2020

9. Agent-enabled task offloading in UAV-aided mobile edge computing

Author

Rui Wang, Yong Cao, Thamer A Alamoudi, Redhwan Nour, and Adeeb Noor

Subjects
Mobile edge computing, Computer Networks and Communications, Computer science, business.industry, Distributed computing, 020206 networking & telecommunications, Cloud computing, 02 engineering and technology, Energy consumption, Service provider, Task (computing), 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Augmented reality, Quality of experience, Enhanced Data Rates for GSM Evolution, business
Abstract

With the appearance of various mobile applications, such as automatic driving and augmented reality, it is difficult for the power and computing ability of mobile terminals to satisfy user demands. Therefore, an increasing number of terminal devices are requesting computing resources on the edge cloud. Because an unmanned aerial vehicle (UAV) is quite flexible and closer to the user side, an UAV can be adopted to assist mobile edge computing (MEC) while executing task offloading, which may reduce the pressure on edge clouds. However, it is unreasonable for users to make blind requests for resources due to the information asymmetry between a user and a service provider, and thus the quality of experience of user may be reduced. In this paper, an agent is introduced into the offloading of computing tasks, and a novel framework of agent-enabled task offloading in UAV-aided MEC(UMEC) is put forth to help the user, UAV, and edge cloud execute the offloading of computing tasks. With the intelligence and perceptibility of an agent, a system model is formulated in this paper to guide the agent in obtaining the optimum computing offloading plan, with minimum task execution delay and energy consumption. Simulation results showed that the introduction of an agent may significantly reduce delay and energy consumption, and the effectiveness of agent has been illustrated.

Published
2020

10. Analysis of the stochastic point reactor using Wiener-Hermite expansion

Author

Adeeb Noor and Mohamed El-Beltagy

Subjects
Work (thermodynamics), Current (mathematics), 020209 energy, 02 engineering and technology, Variance (accounting), 01 natural sciences, 010305 fluids & plasmas, Set (abstract data type), Nuclear Energy and Engineering, Simple (abstract algebra), 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Applied mathematics, Neutron, Point (geometry), Square root of a matrix, Mathematics
Abstract

In the current work, the stochastic point reactor model is analyzed using the Wiener-Hermite expansion (WHE). The simplified stochastic point reactor model (Ayyoubzadeh and Vosoughi, 2014), at which no matrix square root, is considered. The stochastic system is reduced to a set of deterministic equations that are solved to get the mean and variance of the neutron and precursor populations. The well-known numerical deterministic techniques are used to get the solution without the need for the time-consuming sampling techniques. Estimations of the neutron and precursor groups fluctuations at the startup are quantified. Many cases are tested and compared with the results in the literature. The current technique is shown to be efficient, accurate and simple compared with the available techniques.

Published
2019

12. COVID-19 Identification System Using Transfer Learning Technique With Mobile-NetV2 and Chest X-Ray Images

Author

Mahmoud Ragab, Samah Alshehri, Gamil Abdel Azim, Hibah M. Aldawsari, Adeeb Noor, Jaber Alyami, and S. Abdel-khalek

Subjects
Deep Learning, Artificial Intelligence, X-Rays, Public Health, Environmental and Occupational Health, COVID-19, Humans, Pandemics
Abstract

Diagnosis is a crucial precautionary step in research studies of the coronavirus disease, which shows indications similar to those of various pneumonia types. The COVID-19 pandemic has caused a significant outbreak in more than 150 nations and has significantly affected the wellness and lives of many individuals globally. Particularly, discovering the patients infected with COVID-19 early and providing them with treatment is an important way of fighting the pandemic. Radiography and radiology could be the fastest techniques for recognizing infected individuals. Artificial intelligence strategies have the potential to overcome this difficulty. Particularly, transfer learning MobileNetV2 is a convolutional neural network architecture that can perform well on mobile devices. In this study, we used MobileNetV2 with transfer learning and augmentation data techniques as a classifier to recognize the coronavirus disease. Two datasets were used: the first consisted of 309 chest X-ray images (102 with COVID-19 and 207 were normal), and the second consisted of 516 chest X-ray images (102 with COVID-19 and 414 were normal). We assessed the model based on its sensitivity rate, specificity rate, confusion matrix, and F1-measure. Additionally, we present a receiver operating characteristic curve. The numerical simulation reveals that the model accuracy is 95.8% and 100% at dropouts of 0.3 and 0.4, respectively. The model was implemented using Keras and Python programming.

Published
2021

13. A Feature-Driven Decision Support System for Heart Failure Prediction Based on χ2 Statistical Model and Gaussian Naive Bayes

Author

Adeeb Noor, Redhwan Nour, Iqbal Qasim, Liaqat Ali, Noorbakhsh Amiri Golilarz, Shafqat Ullah Khan, and Imrana Yakubu

Subjects
Decision support system, 020205 medical informatics, Computer science, Gaussian, 02 engineering and technology, Machine learning, computer.software_genre, General Biochemistry, Genetics and Molecular Biology, Normal distribution, symbols.namesake, Bayes' theorem, Naive Bayes classifier, 0202 electrical engineering, electronic engineering, information engineering, General Immunology and Microbiology, business.industry, Applied Mathematics, Statistical model, General Medicine, Support vector machine, Modeling and Simulation, Test score, symbols, 020201 artificial intelligence & image processing, Artificial intelligence, business, computer
Abstract

Heart failure (HF) is considered a deadliest disease worldwide. Therefore, different intelligent medical decision support systems have been widely proposed for detection of HF in literature. However, low rate of accuracies achieved on the HF data is a major problem in these decision support systems. To improve the prediction accuracy, we have developed a feature-driven decision support system consisting of two main stages. In the first stage, χ2 statistical model is used to rank the commonly used 13 HF features. Based on the χ2 test score, an optimal subset of features is searched using forward best-first search strategy. In the second stage, Gaussian Naive Bayes (GNB) classifier is used as a predictive model. The performance of the newly proposed method (χ2-GNB) is evaluated by using an online heart disease database of 297 subjects. Experimental results show that our proposed method could achieve a prediction accuracy of 93.33%. The developed method (i.e., χ2-GNB) improves the HF prediction performance of GNB model by 3.33%. Moreover, the newly proposed method also shows better performance than the available methods in literature that achieved accuracies in the range of 57.85–92.22%.

Published
2019

14. Seeking Standards of Health Informatics Education in Saudi Arabia

Author

Adeeb Noor

Subjects
General Computer Science, Mechanics of Materials, Electrical and Electronic Engineering, Civil and Structural Engineering
Abstract

As an initial step towards diversifying Saudi Arabia economy, the kingdom is focusing on the development and improvement of all public services through technology especially the health sector to meet the standards of the western world. We discuss the progress of the health informatics education globally with the main focus on the Kingdom of Saudi Arabia. For this purpose, we survey all academic institutions with their levels of education and found that only 9% of the 109 academic institutions offered specific programs in Health Informatics. While we focus on Saudi Arabia, we also gather information on courses per AMIA identification for Saudi academic institutions.

Published
2019

15. Ontology-based prediction of cancer driver genes

Author

Ashraf Dallol, Georgios V. Gkoutos, Rolina Al-Wassia, Shadi S. Alkhayyat, Sara Althubaiti, Robert Hoehndorf, Takashi Gojobori, Katsuhiko Mineta, Paul N. Schofield, Andrew D Beggs, Adeeb Noor, Andreas Karwath, Althubaiti, Sara [0000-0001-5754-8569], Dallol, Ashraf [0000-0002-8803-228X], Mineta, Katsuhiko [0000-0002-4727-045X], Beggs, Andrew D [0000-0003-0784-2967], Schofield, Paul N [0000-0002-5111-7263], Hoehndorf, Robert [0000-0001-8149-5890], Apollo - University of Cambridge Repository, Beggs, Andrew D. [0000-0003-0784-2967], and Schofield, Paul N. [0000-0002-5111-7263]

Subjects
Colorectal cancer, lcsh:Medicine, 02 engineering and technology, medicine.disease_cause, Machine Learning, 0302 clinical medicine, Neoplasms, Exome, lcsh:Science, Cancer genetics, 0303 health sciences, Mutation, Multidisciplinary, article, High-Throughput Nucleotide Sequencing, Genomics, Phenotype, 3. Good health, 030220 oncology & carcinogenesis, Identification (biology), 139, 141, 0206 medical engineering, 631/114/2403, Computational biology, Biology, 03 medical and health sciences, Biomarkers, Tumor, medicine, Humans, Genetic Predisposition to Disease, Gene, Genetic Association Studies, 030304 developmental biology, Whole genome sequencing, Genetic heterogeneity, lcsh:R, Computational Biology, Cancer, Molecular Sequence Annotation, Oncogenes, 631/114/1305, medicine.disease, Gene Ontology, 692/4028/67/68, ROC Curve, lcsh:Q, 119, human activities, 020602 bioinformatics
Abstract

Identifying and distinguishing cancer driver genes among thousands of candidate mutations remains a major challenge. Accurate identification of driver genes and driver mutations is critical for advancing cancer research and personalizing treatment based on accurate stratification of patients. Due to inter-tumor genetic heterogeneity, many driver mutations within a gene occur at low frequencies, which make it challenging to distinguish them from non-driver mutations. We have developed a novel method for identifying cancer driver genes. Our approach utilizes multiple complementary types of information, specifically cellular phenotypes, cellular locations, functions, and whole body physiological phenotypes as features. We demonstrate that our method can accurately identify known cancer driver genes and distinguish between their role in different types of cancer. In addition to confirming known driver genes, we identify several novel candidate driver genes. We demonstrate the utility of our method by validating its predictions in nasopharyngeal cancer and colorectal cancer using whole exome and whole genome sequencing.

Published
2019

16. Corrigendum to: Drug-drug interaction discovery and demystification using Semantic Web technologies

Author

Abdullah Assiri and Adeeb Noor

Subjects
Pharmacology, Pharmacovigilance, Databases, Factual, Pharmacogenetics, Knowledge Bases, Humans, Health Informatics, Drug Interactions, Pharmacokinetics, Research and Applications, Corrigenda, Unified Medical Language System, Semantic Web
Abstract

Objective: To develop a novel pharmacovigilance inferential framework to infer mechanistic explanations for asserted drug-drug interactions (DDIs) and deduce potential DDIs. Materials and Methods: A mechanism-based DDI knowledge base was constructed by integrating knowledge from several existing sources at the pharmacokinetic, pharmacodynamic, pharmacogenetic, and multipathway interaction levels. A query-based framework was then created to utilize this integrated knowledge base in conjunction with 9 inference rules to infer mechanistic explanations for asserted DDIs and deduce potential DDIs. Results: The drug-drug interactions discovery and demystification (D3) system achieved an overall 85% recall rate in terms of inferring mechanistic explanations for the DDIs integrated into its knowledge base, while demonstrating a 61% precision rate in terms of the inference or lack of inference of mechanistic explanations for a balanced, randomly selected collection of interacting and noninteracting drug pairs. Discussion: The successful demonstration of the D3 system’s ability to confirm interactions involving well-studied drugs enhances confidence in its ability to deduce interactions involving less-studied drugs. In its demonstration, the D3 system infers putative explanations for most of its integrated DDIs. Further enhancements to this work in the future might include ranking interaction mechanisms based on likelihood of applicability, determining the likelihood of deduced DDIs, and making the framework publicly available. Conclusion: The D3 system provides an early-warning framework for augmenting knowledge of known DDIs and deducing unknown DDIs. It shows promise in suggesting interaction pathways of research and evaluation interest and aiding clinicians in evaluating and adjusting courses of drug therapy.

Published
2019

17. A Feature-Driven Decision Support System for Heart Failure Prediction Based on

Author

Liaqat, Ali, Shafqat Ullah, Khan, Noorbakhsh Amiri, Golilarz, Imrana, Yakubu, Iqbal, Qasim, Adeeb, Noor, and Redhwan, Nour

Subjects
Heart Failure, Models, Statistical, Support Vector Machine, Databases, Factual, Normal Distribution, Computational Biology, Bayes Theorem, Expert Systems, Decision Support Systems, Clinical, Decision Support Techniques, Machine Learning, Humans, Diagnosis, Computer-Assisted, Research Article
Abstract

Heart failure (HF) is considered a deadliest disease worldwide. Therefore, different intelligent medical decision support systems have been widely proposed for detection of HF in literature. However, low rate of accuracies achieved on the HF data is a major problem in these decision support systems. To improve the prediction accuracy, we have developed a feature-driven decision support system consisting of two main stages. In the first stage, χ2 statistical model is used to rank the commonly used 13 HF features. Based on the χ2 test score, an optimal subset of features is searched using forward best-first search strategy. In the second stage, Gaussian Naive Bayes (GNB) classifier is used as a predictive model. The performance of the newly proposed method (χ2-GNB) is evaluated by using an online heart disease database of 297 subjects. Experimental results show that our proposed method could achieve a prediction accuracy of 93.33%. The developed method (i.e., χ2-GNB) improves the HF prediction performance of GNB model by 3.33%. Moreover, the newly proposed method also shows better performance than the available methods in literature that achieved accuracies in the range of 57.85–92.22%.

Published
2019

18. Discovering gaps in Saudi education for digital health transformation

Author

Adeeb Noor

Subjects
Medical education, General Computer Science, business.industry, Computer science, Digital transformation, Core competency, Information technology, 02 engineering and technology, Digital health, Health informatics, 03 medical and health sciences, 0302 clinical medicine, Coursework, Health care, ComputingMilieux_COMPUTERSANDEDUCATION, 0202 electrical engineering, electronic engineering, information engineering, eHealth, 020201 artificial intelligence & image processing, 030212 general & internal medicine, business, Curriculum, Competence (human resources), Healthcare system, Accreditation
Abstract

The growing complexity of healthcare systems worldwide and the medical profession’s increasing dependency on information technology for accurate practice and treatment call for specific standardized education in health informatics programming, and accreditation of health informatics programs based on core competencies is progressing at an international level. This study investigates the state of affairs in health informatics programs within the Kingdom of Saudi Arabia (KSA) to determine (1) how well international standards are being met and (2) what further development is needed in light of KSA’s recent eHealth initiatives. This descriptive study collected data from publicly available resources to investigate Health Informatics programs at 109 Saudi institutions. Information about coursework offered at each institution was compared with American Medical Informatics Association (AMIA) curriculum guidelines. Of 109 institutions surveyed, only a handful offered programs specifically in health informatics. Of these, most programs did not match the coursework recommended by AMIA, and the majority of programs mimicked existing curricula from other countries rather than addressing unique Saudi conditions. Education in health informatics in KSA appears to be scattered, non-standardized, and somewhat outdated. Based on these findings, there is a clear opportunity for greater focus on core competencies within health informatics programs. The Saudi digital transformation (eHealth) initiative, as part of Saudi Vision 2030, clearly calls for implementation of internationally accepted health informatics competencies in education programs and healthcare practice, which can only occur through greater collaboration between medical and technology educators and strategic partnerships with companies, medical centers, and governmental institutions.

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