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8,323 results on '"Khan, A."'

1. CytoNet: an efficient dual attention based automatic prediction of cancer sub types in cytology studies.

Author

Ilyas, Naveed, Naseer, Farhat, Khan, Anwar, Raja, Aamir, Lee, Yong-Moon, Park, Jae, and Lee, Boreom

Subjects
Humans, Neural Networks, Computer, Neoplasms, Diagnosis, Computer-Assisted, Female, Algorithms, Cytodiagnosis, Image Processing, Computer-Assisted
Abstract

Computer-assisted diagnosis (CAD) plays a key role in cancer diagnosis or screening. Whereas, current CAD performs poorly on whole slide image (WSI) analysis, and thus fails to generalize well. This research aims to develop an automatic classification system to distinguish between different types of carcinomas. Obtaining rich deep features in multi-class classification while achieving high accuracy is still a challenging problem. The detection and classification of cancerous cells in WSI are quite challenging due to the misclassification of normal lumps and cancerous cells. This is due to cluttering, occlusion, and irregular cell distribution. Researchers in the past mostly obtained the hand-crafted features while neglecting the above-mentioned challenges which led to a reduction of the classification accuracy. To mitigate this problem we proposed an efficient dual attention-based network (CytoNet). The proposed network is composed of two main modules (i) Efficient-Net and (ii) Dual Attention Module (DAM). Efficient-Net is capable of obtaining higher accuracy and enhancing efficiency as compared to existing Convolutional Neural Networks (CNNs). It is also useful to obtain the most generic features as it has been trained on ImageNet. Whereas DAM is very robust in obtaining attention and targeted features while negating the background. In this way, the combination of an efficient and attention module is useful to obtain the robust, and intrinsic features to obtain comparable performance. Further, we evaluated the proposed network on two well-known datasets (i) Our generated thyroid dataset (ii) Mendeley Cervical dataset (Hussain in Data Brief, 2019) with enhanced performance compared to their counterparts. CytoNet demonstrated a 99% accuracy rate on the thyroid dataset in comparison to its counterpart. The precision, recall, and F1-score values achieved on the Mendeley Cervical dataset are 0.992, 0.985, and 0.977, respectively. The code implementation is available on GitHub. https://github.com/naveedilyas/CytoNet-An-Efficient-Dual-Attention-based-Automatic-Prediction-of-Cancer-Sub-types-in-Cytol.

Published
2024

2. Salt stress amelioration and nutrient strengthening in spinach (Spinacia oleracea L.) via biochar amendment and zinc fortification: seed priming versus foliar application.

Author

Ahmad, Shoaib, Khan Sehrish, Adiba, Hussain, Afzal, Zhang, Lidan, Owdah Alomrani, Sarah, Ahmad, Azeem, Al-Ghanim, Khalid, Ali Alshehri, Mohammad, Ali, Shafaqat, and Sarker, Pallab

Subjects
Antioxidant enzymes activates, Biochar, Chlorophyll pigments, Nutrient contents, Salinity, Spinacia oleracea, Charcoal, Salt Stress, Zinc Oxide, Plant Leaves, Photosynthesis, Zinc, Nutrients, Chlorophyll, Seeds, Antioxidants, Soil, Oxidative Stress, Salinity
Abstract

Soil salinity is a major nutritional challenge with poor agriculture production characterized by high sodium (Na+) ions in the soil. Zinc oxide nanoparticles (ZnO NPs) and biochar have received attention as a sustainable strategy to reduce biotic and abiotic stress. However, there is a lack of information regarding the incorporation of ZnO NPs with biochar to ameliorate the salinity stress (0, 50,100 mM). Therefore, the current study aimed to investigate the potentials of ZnO NPs application (priming and foliar) alone and with a combination of biochar on the growth and nutrient availability of spinach plants under salinity stress. Results demonstrated that salinity stress at a higher rate (100 mM) showed maximum growth retardation by inducing oxidative stress, resulted in reduced photosynthetic rate and nutrient availability. ZnO NPs (priming and foliar) alone enhanced growth, chlorophyll contents and gas exchange parameters by improving the antioxidant enzymes activity of spinach under salinity stress. While, a significant and more pronounced effect was observed at combined treatments of ZnO NPs with biochar amendment. More importantly, ZnO NPs foliar application with biochar significantly reduced the Na+ contents in root 57.69%, and leaves 61.27% of spinach as compared to the respective control. Furthermore, higher nutrient contents were also found at the combined treatment of ZnO NPs foliar application with biochar. Overall, ZnO NPs combined application with biochar proved to be an efficient and sustainable strategy to alleviate salinity stress and improve crop nutritional quality under salinity stress. We inferred that ZnO NPs foliar application with a combination of biochar is more effectual in improving crop nutritional status and salinity mitigation than priming treatments with a combination of biochar.

Published
2024

3. Genetic polymorphisms associated with adverse pregnancy outcomes in nulliparas.

Author

Khan, Raiyan, Guerrero, Rafael, Wapner, Ronald, Hahn, Matthew, Raja, Anita, Salleb-Aouissi, Ansaf, Grobman, William, Simhan, Hyagriv, Silver, Robert, Reddy, Uma, Radivojac, Predrag, Peer, Itsik, Haas, David, and Chung, Judith

Subjects
Fetal death, Genetic association, Gestational diabetes, Miscarriage, Preeclampsia, Pregnancy loss, Preterm birth, Stillbirth, Humans, Pregnancy, Female, Polymorphism, Single Nucleotide, Genome-Wide Association Study, Pregnancy Outcome, Diabetes, Gestational, Adult, Pre-Eclampsia, Genetic Predisposition to Disease, Parity
Abstract

Adverse pregnancy outcomes (APOs) affect a large proportion of pregnancies and represent an important cause of morbidity and mortality worldwide. Yet the pathophysiology of APOs is poorly understood, limiting our ability to prevent and treat these conditions. To search for genetic markers of maternal risk for four APOs, we performed multi-ancestry genome-wide association studies (GWAS) for pregnancy loss, gestational length, gestational diabetes, and preeclampsia. We clustered participants by their genetic ancestry and focused our analyses on three sub-cohorts with the largest sample sizes: European, African, and Admixed American. Association tests were carried out separately for each sub-cohort and then meta-analyzed together. Two novel loci were significantly associated with an increased risk of pregnancy loss: a cluster of SNPs located downstream of the TRMU gene (top SNP: rs142795512), and the SNP rs62021480 near RGMA. In the GWAS of gestational length we identified two new variants, rs2550487 and rs58548906 near WFDC1 and AC005052.1, respectively. Lastly, three new loci were significantly associated with gestational diabetes (top SNPs: rs72956265, rs10890563, rs79596863), located on or near ZBTB20, GUCY1A2, and RPL7P20, respectively. Fourteen loci previously correlated with preterm birth, gestational diabetes, and preeclampsia were found to be associated with these outcomes as well.

Published
2024

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