
Xingyu Zhou
Articles
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Aug 30, 2024 |
biorxiv.org | Roberto Guzmán |Carly A. Lockard |Xingyu Zhou |Bruce M Damon
AbstractThe internal arrangement of a muscle's fibers with respect to its mechanical line of action (muscle architecture) is a major determinant of muscle function. Muscle architecture can be quantified using diffusion tensor magnetic resonance imaging-based tractography, which propagates streamlines from a set of seed points by integrating vectors that represent the direction of greatest water diffusion (and by inference, the local fiber orientation).
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Jun 19, 2024 |
frontiersin.org | Xingyu Zhou
The final, formatted version of the article will be published soon. Receive an email when it is updatedYou just subscribed to receive the final version of the articleMesoscale eddies are phenomena that widely exist in the ocean and have a significant impact on the ocean's temperature and salt structure, as well as on acoustic propagation effects.
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Mar 4, 2024 |
nature.com | Xingyu Zhou |Yifan Li |Yu Huang |Peng Xie
AbstractMajor depressive disorder (MDD) is a serious mental illness, characterized by disturbances of gut microbiome, it is required to further explore how the carbohydrate-active enzymes (CAZymes) were changed in MDD. Here, using the metagenomic data from patients with MDD (n = 118) and heath controls (HC, n = 118), we found that the whole CAZymes signatures of MDD were significantly discriminated from that in HC. α-diversity indexes of the two groups were also significantly different.
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Jun 26, 2023 |
pubmed.ncbi.nlm.nih.gov | Xingyu Zhou |Xiang Zhang |Jun Yu
Save citation to file Format: Add to My Bibliography Your saved search Name of saved search: Search terms: Frequency: Which day? Which day? Report format: Send at most: Send even when there aren't any new results Optional text in email: Create a file for external citation management software
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Jan 29, 2023 |
mdpi.com | Kun Huang |Xingyu Zhou |Cheng Huang |Lin Wang
4.1. Calculation Results of Propane VaporizerIn the propane vaporizer, the tube-side fluid of the heat exchanger was seawater, and the shell-side fluid was propane. The seawater temperature was controlled at 288 K, and the surface heat transfer coefficient of E1 was studied when the mass flow rate of seawater was 5500 t/h~7500 t/h. The variation in the surface heat transfer coefficient of E1 with the mass flow rate of seawater is shown in Figure 4.
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