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1. Abnormal intrinsic functional activity in patients with cervical spondylotic myelopathy a resting state fMRI study

Author

Kuang C and Zha Y

Subjects
ALFF, ReHo, Seed-based functional connectivity, Cervical spondylotic myelopathy, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Cuili Kuang, Yunfei ZhaRadiological Department, Renmin Hospital of Wuhan University, Hubei, People’s Republic of ChinaCorrespondence: Yunfei ZhaRadiological Department, Renmin Hospital of Wuhan University, No.99 ZhangZhiDong Road, Wuchang District, Wuhan, Hubei 430060, People’s Republic of ChinaTel +86 135 5406 1833Email fskyanteam@126.comPurpose: We employed resting-state fMRI analyses to reveal central functional reorganization in the brains of patients with cervical spondylotic myelopathy (CSM) and to provide complementary evidence of cortex reorganization in these patients.Patients and methods: We obtained Fisher’s z transformation amplitude of low-frequency fluctuations (zALFF) and Fisher’s z transformation regional homogeneity (zReHo) measurements from 33 patients with CSM and 33 healthy controls (HC) and used the brain regions with significant alterations in the zALFF or zReHo values as seed regions. Then, we calculated Pearson’s correlation coefficients between the resting-state time courses of each seed and the time series of the rest of the brain. Lastly, we computed correlations between the altered zALFF, zReHo, and functional connectivity with Japanese Orthopaedic Association scores, Neck Disability Index score, and the duration of symptoms in patients with CSM.Results: zALFF and zReHo values were increased in the left medial superior frontal gyrus (lSFGmed) and left supramarginal gyrus (lSMG) in patients with CSM compared with those in the HC group. Selecting lSFGmed as the seed, we observed increased functional connectivity between it and the left postcentral gyrus (lPoCG) and left rolandic operculum and decreased functional connectivity with the right medial superior frontal gyrus in patients with CSM. In addition, there was a significant increase in the functional connectivity between the lSMG (seed) and the left calcarine and lPoCG in patients with CSM. However, we did not find any significant correlation between the resting-state findings and the clinical performance of patients with CSM.Conclusion: These observed intrinsic functional changes in the patients with CSM may be related to functional reorganization and reflect the innate cortical plasticity in patients with CSM. Notably, the increased connectivity between the lPoCG and the two seed ROIs indicates the adaptive changes in patients with CSM. These findings provide complementary evidence of cortex reorganization in CSM.Keywords: ALFF, ReHo, seed-based functional connectivity, cervical spondylotic myelopathy

Published
2019

5. Predicting prostate cancer grade reclassification on active surveillance using a deep learning–based grading algorithm.

Author

Ding, Chien-Kuang C, Su, Zhuo Tony, Erak, Erik, Oliveira, Lia De Paula, Salles, Daniela C, Jing, Yuezhou, Samanta, Pranab, Bonthu, Saikiran, Joshi, Uttara, Kondragunta, Chaith, Singhal, Nitin, Marzo, Angelo M De, Trock, Bruce J, Pavlovich, Christian P, Calle, Claire M de la, and Lotan, Tamara L

Subjects
*MAGNETIC resonance imaging, *PROSTATE biopsy, *WATCHFUL waiting, *DEEP learning, *ODDS ratio, *PROSTATE cancer
Abstract

Deep learning (DL)–based algorithms to determine prostate cancer (PCa) Grade Group (GG) on biopsy slides have not been validated by comparison to clinical outcomes. We used a DL-based algorithm, AIRAProstate, to regrade initial prostate biopsies in 2 independent PCa active surveillance (AS) cohorts. In a cohort initially diagnosed with GG1 PCa using only systematic biopsies (n = 138), upgrading of the initial biopsy to ≥GG2 by AIRAProstate was associated with rapid or extreme grade reclassification on AS (odds ratio = 3.3, P  =  .04), whereas upgrading of the initial biopsy by contemporary uropathologist reviews was not associated with this outcome. In a contemporary validation cohort that underwent prostate magnetic resonance imaging before initial biopsy (n = 169), upgrading of the initial biopsy (all contemporary GG1 by uropathologist grading) by AIRAProstate was associated with grade reclassification on AS (hazard ratio = 1.7, P  =  .03). These results demonstrate the utility of a DL-based grading algorithm in PCa risk stratification for AS. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Application of a hybrid lattice-Boltzmann Lagrangian method to predict fibrous particle penetration through mesh screens.

Author

Lin, Kuang C., Duong, Thanh-Phat, Li, Yen-Hsi, and Chou, Sheng-Yao

Subjects
*GAS distribution, *GRANULAR flow, *GAS flow, *PARTICLE dynamics, *PARTICLE physics
Abstract

Inhalation of airborne fibers such as asbestos has been a concern for toxicological response that can affect lung tissues. This study aims at developing a computational model that predicts experimental measurements for fibrous particle filtration in nylon mesh screens and elucidates the physics underlying particle dynamics. The filtration process is operated at the constant airflow of 7 cm/s for particles with aerodynamic diameters between 0.8 and 10 μm corresponding to the particle length between 11.4 and 54.3 μm and particle diameter between 0.6 and 8.5 μm. The aerodynamic diameter characterizes particle sizes having different shapes and densities with a single dimension. This two-dimensional (2D) computational model with a single fiber represents the infinite array of screen fibers parallel to each other and screen collection efficiency is estimated by a previously proposed formula taking into account particle laden flow crossing two crossed fibers. The orientations of fibrous particles in a three-dimensional form are projected to the 2D plane and analyzed in the cross-sectional view of a screen. The simulations generally well predict experimental profiles of the screen collection efficiency as a function the aerodynamic diameter and screen pore size. The analyses carried out contain the distribution of particle fraction deposited along fiber surface, particle pathlines, particle distribution in the gas flow, and breakdown of forces acting on a single particle. [ABSTRACT FROM AUTHOR]

Published
2024
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10. The Green Ocean Amazon Experiment (GoAmazon2014/5) Observes Pollution Affecting Gases, Aerosols, Clouds, and Rainfall over the Rain Forest

Author

Martin, ST, Artaxo, P, Machado, L, Manzi, AO, Souza, RAF, Schumacher, C, Wang, J, Biscaro, T, Brito, J, Calheiros, A, Jardine, K, Medeiros, A, Portela, B, de Sá, SS, Adachi, K, Aiken, AC, Albrecht, R, Alexander, L, Andreae, MO, Barbosa, HMJ, Buseck, P, Chand, D, Comstock, JM, Day, DA, Dubey, M, Fan, J, Fast, J, Fisch, G, Fortner, E, Giangrande, S, Gilles, M, Goldstein, AH, Guenther, A, Hubbe, J, Jensen, M, Jimenez, JL, Keutsch, FN, Kim, S, Kuang, C, Laskin, A, McKinney, K, Mei, F, Miller, M, Nascimento, R, Pauliquevis, T, Pekour, M, Peres, J, Petäjä, T, Pöhlker, C, Pöschl, U, Rizzo, L, Schmid, B, Shilling, JE, Dias, MA Silva, Smith, JN, Tomlinson, JM, Tóta, J, and Wendisch, M

Subjects
Earth Sciences, Atmospheric Sciences, Climate Action, Astronomical and Space Sciences, Physical Geography and Environmental Geoscience, Meteorology & Atmospheric Sciences, Atmospheric sciences, Climate change science
Abstract

The susceptibility of air quality, weather, terrestrial ecosystems, and climate to human activities was investigated in a tropical environment.

Published
2017

13. Inherent Symmetry and Microstructure Ambiguity in Micromechanics

Author

Liu, Kuang C. and Ghoshal, Anindya

Subjects
Condensed Matter - Materials Science
Abstract

The computational cost of micromechanics for heterogeneous materials can be reduced in certain cases where symmetric boundary conditions are applicable. We derived an eighth symmetric formulation of the Generalized Method of Cells for triply periodic microstructures. During this endeavor, an inherent symmetry was discovered. This implied that all repeating unit cells may be quarter symmetric representations of other microstructures. Additionally, it was discovered that a repeating unit cell can have columns of subcells swapped with no changes to the local or global fields. We concluded that first-order micromechanics are not well suited for capturing detailed or complex microstructures; however, higher-order theories, such as High Fidelity Generalized Method of Cells, can adequately model these microstructures., Comment: 18 pages, 7 figures

Published
2013

18. SUPPLEMENT : THE GREEN OCEAN AMAZON EXPERIMENT (GOAMAZON2014/5) OBSERVES POLLUTION AFFECTING GASES, AEROSOLS, CLOUDS, AND RAINFALL OVER THE RAIN FOREST

Author

Martin, S. T., Artaxo, P., Machado, L., Manzi, A. O., Souza, R. A. F., Schumacher, C., Wang, J., Biscaro, T., Brito, J., Calheiros, A., Jardine, K., Medeiros, A., Portela, B., de Sá, S. S., Adachi, K., Aiken, A. C., Albrecht, R., Alexander, L., Andreae, M. O., Barbosa, H. M. J., Buseck, P., Chand, D., Comstock, J. M., Day, D. A., Dubey, M., Fan, J., Fast, J., Fisch, G., Fortner, E., Giangrande, S., Gilles, M., Goldstein, A. H., Guenther, A., Hubbe, J., Jensen, M., Jimenez, J. L., Keutsch, F. N., Kim, S., Kuang, C., Laskin, A., McKinney, K., Mei, F., Miller, M., Nascimento, R., Pauliquevis, T., Pekour, M., Peres, J., Petäjä, T., Pöhlker, C., Pöschl, U., Rizzo, L., Schmid, B., Shilling, J. E., Dias, M. A. Silva, Smith, J. N., Tomlinson, J. M., Tóta, J., and Wendisch, M.

Published
2017

25. Prostate Cancer in Male-to-Female Transgender Individuals

Author

Ezra, Baraban, Chien-Kuang C, Ding, Marissa, White, Poonam, Vohra, Jeffry, Simko, Karen, Boyle, Charles, Guo, Miao, Zhang, Adrian, Dobs, Suvethavarshini, Ketheeswaran, Fan, Liang, and Jonathan I, Epstein

Subjects
Male, Prostatectomy, Hyperplasia, Prostatic Neoplasms, Gender Identity, Androgen Antagonists, Adenocarcinoma, Transgender Persons, Hormones, Pathology and Forensic Medicine, Humans, Surgery, Atrophy, Anatomy
Abstract

Male-to-female (MtF) transgender individuals are at risk for prostate cancer, although guidelines for screening and management in this population are not well established. We describe a series of 9 MtF transgender patients who underwent prostate tissue sampling and highlight histopathologic features and challenges related to pathologic interpretation of prostate tissue in this patient population. Seven of 9 total patients were diagnosed with prostate cancer and all had elevated prostate-specific antigen at the time of diagnosis. Three of the 7 patients diagnosed with prostate cancer had received different types of hormone therapy for gender affirmation before the diagnosis of prostate cancer, and in all 3 of these patients, there was histologic evidence of hormone therapy effect in both benign prostate tissue and/or the adenocarcinoma. The 2 patients with benign prostate tissue underwent transurethral resection for lower urinary tract symptoms and were previously on hormone therapy for gender affirmation. Both of these specimens showed diffuse glandular atrophy and basal cell hyperplasia, indicative of hormone therapy effect on benign prostatic tissue. In the patients diagnosed with prostate cancer, a spectrum of grades was observed, ranging from Grade Group 1 to Grade Group 5. Four patients underwent radical prostatectomy, with 2 cases showing extraprostatic extension and Grade Group 5 prostatic adenocarcinoma, and 2 showing Grade Group 2 prostatic adenocarcinoma. Three of the 4 patients who underwent radical prostatectomy had received gender-affirming hormone therapy before surgery, and all 3 of these specimens showed hormone therapy effect in non-neoplastic prostate tissue and focal hormone therapy effect in prostatic adenocarcinoma. The presence of areas of viable carcinoma without hormone therapy effect enabled the assignment of a Gleason score and Grade Group in these 3 cases. Hormone therapy administered for gender identity affirmation induces histopathologic changes to both benign prostate tissue (nonkeratinizing squamous metaplasia, diffuse atrophy, basal cell hyperplasia, and stromal dominance with decreased numbers of glands) and prostatic adenocarcinoma (nuclear pyknosis, atrophy, cytoplasmic vacuolization, and architectural patterns that would qualify for Gleason 4 and 5 in the absence of hormone therapy effect) that have been traditionally seen in cis-male prostate cancer patients receiving hormone therapy. In the absence of hormone therapy, the morphology of prostatic adenocarcinoma in transgender patients shows classic morphologic features similar to those seen in cis-male patients not on hormone therapy. Prostate cancer with hormone therapy effect may not only be histologically quite subtle and may be overlooked if not suspected, but also should not be assigned a Gleason score because the Gleason score would substantially overstate its biologic potential. Therefore, similar to cis-male patients who have received androgen deprivation therapy for prostate cancer, transgender patients on hormone therapy for gender affirmation may be at risk for both underrecognition and over-grading of prostate cancer, particularly if the pathologist is not aware of the clinical history.

Published
2022

31. Data from A TAZ–ANGPTL4–NOX2 Axis Regulates Ferroptotic Cell Death and Chemoresistance in Epithelial Ovarian Cancer

Author

Jen-Tsan Chi, Susan K. Murphy, Chien-Kuang C. Ding, Jianli Wu, Zhiqing Huang, and Wen-Hsuan Yang

Abstract

Ovarian cancer is the deadliest gynecologic cancer. Despite recent advances, clinical outcomes remain poor, necessitating novel therapeutic approaches. To investigate metabolic susceptibility, we performed nutrigenetic screens on a panel of clear cell and serous ovarian cancer cells and identified cystine addiction and vulnerability to ferroptosis, a novel form of regulated cell death. Our results may have therapeutic potential, but little is known about the determinants of ferroptosis susceptibility in ovarian cancer. We found that vulnerability to ferroptosis in ovarian cancer cells is enhanced by lower cell confluency. Because the Hippo pathway effectors Yes-associated protein (YAP)/transcriptional coactivator with PDZ-binding motif (TAZ) are recognized as sensors of cell density, and TAZ is the predominant effector in the tested ovarian cancer cell lines, we investigated the role of TAZ in ferroptosis of ovarian cancer. TAZ removal confers ferroptosis resistance, while TAZS89A overexpression sensitizes cells to ferroptosis. In addition, we found that lower TAZ level in chemo-resistant recurrent ovarian cancer is responsible for reduced ferroptosis susceptibility. The integrative genomic analysis identified ANGPTL4 as a direct TAZ-regulated target gene that sensitizes ferroptosis by activating NOX2. Collectively, cell density–regulated ferroptosis in ovarian cancer is mediated by TAZ through the regulation of the ANGPTL4–NOX2 axis, suggesting therapeutic potentials for ovarian cancers and other TAZ-activated tumors.Implications:This study reveals that TAZ promotes ferroptosis in ovarian cancers by regulating ANGPTL4 and NOX, offering a novel therapeutic potential for ovarian tumors with TAZ activation.

Published
2023

32. Research progress, application and development of high performance 6000 series aluminum alloys for new energy vehicles

Author

Yi-Cheng Gao, Bai-Xin Dong, Hong-Yu Yang, Xiao-Yan Yao, Shi-Li Shu, Jie Kang, Jia Meng, Chang-Jie Luo, Cheng-Gang Wang, Kuang Cao, Jian Qiao, Ming Zhu, Feng Qiu, and Qi-Chuan Jiang

Subjects
Al-Mg-Si alloy, Alloying, Microstructure, Particle enhancement, Mining engineering. Metallurgy, TN1-997
Abstract

For the development of new energy automobile industry and the trend of automobile lightweight have put forward a huge demand for high-strength lightweight materials, so developing high strength aluminum alloys is particularly momentous. As the most widely used aluminum alloy, 6000 series aluminum alloys (Al–Mg–Si alloys) have the advantages such as better mechanical properties, outstanding welding properties, excellent formability and fine processing capability, and therefore have obtained great attention as the structural materials. In addition, the Al–Mg–Si alloys with low density and corrosion resistance not only reduce the total weight of the car, but also extend the service life when subjected to chemical corrosion, which effectively achieve energy saving and emission reduction. This paper summarizes the research progress of 6000 series aluminum alloys, in particular, and reviews the methods of microalloying and particle strengthening, and their effects on the microstructure and properties of the alloy, thus providing a reference for the subsequent development of high-performance aluminum alloys in automobile and aerospace industries.

Published
2024
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33. Sub-rapid solidification microstructure characteristics and control mechanisms of twin-roll cast aluminum alloys: A review

Author

Xian Wu, Zhi-Ping Guan, Hong-Yu Yang, Bai-Xin Dong, Lai-Chang Zhang, Jia Meng, Chang-Jie Luo, Cheng-Gang Wang, Kuang Cao, Jian Qiao, Shi-Li Shu, Jie Kang, Ming Zhu, Feng Qiu, and Qi-Chuan Jiang

Subjects
Twin-roll casting, Aluminum alloys, Solidification, Segregation, Defects, Properties, Mining engineering. Metallurgy, TN1-997
Abstract

Rapid growth in industrial sectors such as automotive and shipbuilding has highlighted the significance of strip casting technology to produce lightweight alloys, particularly aluminum alloys widely used in both industrial production and daily life. Twin-roll casting (TRC), as an economically and environmentally friendly method for slab/strip production and processing, has attracted significant interest from researchers. However, the development of TRC aluminum alloys faces many challenges due to limited understanding of microstructural characteristics and control mechanisms. To further enhance comprehension of TRC aluminum alloys, this article reviews the influencing parameters, control methods, and existing issues related to TRC sub-rapid solidification (SRS) microstructure. It firstly summarizes TRC equipment types and their solidification characteristics, followed by a detailed analysis on key parameters affecting the evolution of TRC microstructure including rolling speed, roll separation force (RSF), and heat transfer coefficient (HTC). Finally, solutions to TRC defects are summarized and evaluated alongside their underlying mechanisms. This article provides a comprehensive review of the characteristics and control mechanisms of TRC microstructure while offering valuable insights for the future production of high-quality TRC aluminum strips.

Published
2024
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35. Tracking Aerosol Convective Interactions Experiment (TRACER) Science Plan

Author

Jensen, M, Bruning, E, Collins, D, Fridlind, A, Kollias, P, Kuang, C, Rosenfeld, D, Ryzhkov, A, and Varble, A

Subjects
Meteorology And Climatology
Abstract

Convective clouds play an important role in the Earth's climate system as a driver of large-scale circulations and a primary mechanism for the transport of heat, moisture, aerosols, and momentum throughout the troposphere. Despite their climatic importance, multi-scale models continue to have persistent biases produced by insufficient representation of convective clouds. This is the result of an incomplete understanding of key processes such as convective initiation, updraft and downdraft dynamics, cloud and precipitation microphysics, and aerosol-convection interactions.The Aerosol-Cloud-Precipitation-Climate Initiative, an international research group dedicated to advancing understanding of aerosol impacts on clouds relevant to climate, has identified the Houston, Texas region as an optimal location for targeted studies of aerosol-convection interactions within frequently developing isolated deep convection. Houston lies within a humid subtropical climate regime, where onshore flow and sea-breeze convection interact with a range of aerosol conditions associated with Houston's urban and industrial emissions. Pilot studies have suggested that convective clouds in this region are potentially significantly impacted by the varying aerosol conditions.

Published
2019

46. A novel flameless oxidation and in-chamber melting system coupled with advanced scrubbers for a laboratory waste plant

Author

Chun Wei Tu, Zhefeng Guo, Jhong Lin Wu, Han Wu, Sheng Lun Lin, and Kuang C. Lin

Subjects
Air Pollutants, Waste management, 020209 energy, Condensation, Scrubber, Incineration, 02 engineering and technology, 010501 environmental sciences, Particulates, 01 natural sciences, Baghouse, Water-gas shift reaction, Diesel fuel, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Particulate Matter, Polycyclic Aromatic Hydrocarbons, Laboratories, Waste Management and Disposal, NOx, Vehicle Emissions, 0105 earth and related environmental sciences
Abstract

This is the first study integrate the flameless oxidation (FO) and in-chamber melting (ICM) processes in a primary chamber of a laboratory waste incinerator to improve energy and emission performances. Two liquid burners created a twin-cyclonic fluid field that achieved the FO and ICM in the same chamber. The first cyclone provided a well-mixed and lower temperature FO to reduce auxiliary diesel consumption, NOx and PM emissions by 25.8%, 30.9%, and 79.2%, respectively, from the original system. The hot gases produced by FO enhance the ICM process and transformed the bottom ashes to stabler slags, in turn meeting the regulations for nonhazardous wastes. The other cyclone enhanced the drying and water–gas shift reaction in the drying zone by recirculating the CO and enthalpy from FO and ICM. Eventually, the residual CO, hydrocarbons, and H2 were sent to the secondary chamber for further oxidation. A computational fluid dynamic simulation supported the fluid field assumption posed in this study. Moreover, advanced scrubbers were employed after thermal treatments to reduce HCl and SO2 by 81.8% and 38.8% and further retarded the corrosion rate in the baghouse supporting cage by 87.7%. The precursors of condensable particulate matter were reduced by condensation and finally removed in the baghouse. Nevertheless, the emissions of the high- and mid-molecular-weight polycyclic aromatic hydrocarbons were greatly reduced by 60.8–93.1% and 80.2–99.9%, respectively. Consequently, the new system reduced annual emissions by 40.7–87.6% and operating costs by 41.5%, allowing recovery of the remodification investment in 20.5 months.

Published
2021

47. Prostate Cancer in Male-to-Female Transgender Individuals

Author

Baraban, Ezra, primary, Ding, Chien-Kuang C., additional, White, Marissa, additional, Vohra, Poonam, additional, Simko, Jeffry, additional, Boyle, Karen, additional, Guo, Charles, additional, Zhang, Miao, additional, Dobs, Adrian, additional, Ketheeswaran, Suvethavarshini, additional, Liang, Fan, additional, and Epstein, Jonathan I., additional

Published
2022
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50. Recent progress of Al–Mg alloys: Forming and preparation process, microstructure manipulation and application

Author

Chang-Rong Song, Bai-Xin Dong, Si-Yu Zhang, Hong-Yu Yang, Lin Liu, Jie Kang, Jia Meng, Chang-Jie Luo, Cheng-Gang Wang, Kuang Cao, Jian Qiao, Shi-Li Shu, Ming Zhu, Feng Qiu, and Qi-Chuan Jiang

Subjects
Lightweighting, 5XXX-Series aluminum alloys, High-performance, Microstructure, Reinforcement mechanism, Application, Mining engineering. Metallurgy, TN1-997
Abstract

In the global pursuit of energy conservation, reduction in consumption and emissions, as well as lightweighting, 5xxx-series aluminum alloys have emerged as a promising lightweight and high-strength material with a wide range of applications in aerospace, transportation, building structures, medical devices, and more. However, it is worth noting that 5XXX-series aluminum alloys belong to a category of non-heat-treatable reinforced aluminum alloys with limited means of enhancing their properties through heat treatment. Consequently, the development of high-performance 5XXX-series aluminum alloys poses a significant challenge. This paper provides an overview of the research progress on 5xxx-series aluminum alloys while discussing the current state of research regarding the influence of microalloying elements on their microstructure and properties. Furthermore, it elucidates the emerging trends in synergistic regulation between deformation processes and heat treatment processes for enhancing organizational refinement and improving alloy properties. Additionally, this study analyzes the reinforcement mechanism responsible for the exceptional properties exhibited by 5xxx-series aluminum alloys. Lastly, it discusses the exceptional properties exhibited by 5xxx-series alloys along with their primary areas of application. The findings presented herein can serve as a valuable reference for future advancements in advanced high-performance 5xxx-series aluminum alloys.

Published
2024
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