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3. The Associations Between Psychological Distress and Academic Burnout: A Mediation and Moderation Analysis

Author

Chen,Hui Ling, Wang,Hui Yuan, Lai,Sheng Feng, Ye,Zeng Jie, Chen,Hui Ling, Wang,Hui Yuan, Lai,Sheng Feng, and Ye,Zeng Jie

Abstract

Hui Ling Chen,1 Hui Yuan Wang,1 Sheng Feng Lai,2 Zeng Jie Ye1 1School of Nursing, Guangzhou University of Chinese Medicine, Guangzhou, People’s Republic of China; 2School of Nursing, Guangzhou Medical University, Guangzhou, People’s Republic of ChinaCorrespondence: Zeng Jie Ye, School of Nursing, Guangzhou University of Chinese Medicine, Out Ring Road No. 262, Panyu District, Guangzhou, 510006, People’s Republic of China, Tel +86 15914411786, Email zengjieye@qq.comBackground: Psychological distress is reported to be associated with academic burnout in students while the mediation and moderation effect of resilience and personality are less explored.Purpose: The current study was designed to estimate the mediating effect of resilience and the moderation effect of personality between psychological distress and academic burnout.Participants and methods: A total of 613 students were enrolled from two medical universities between December 2020 and January 2021. They were administered with Academic Burnout Scale, 10-item Kessler Psychological Distress Scale (K10), Connor-Davidson Resilience Scale (CD-RISC-10) and NEO Five-Factor Inventory (NEO-FFI). Latent profile analysis and moderated mediation analysis were performed.Results: Three personalities were identified and named as resilient (13.4%), over-controlled (50.2%) and under-controlled (36.4%). Resilience significantly mediated the relationship between psychological distress and academic burnout while personality significantly moderated the relationship between psychological distress and resilience.Conclusion: Resilience and personality may be two important mediators between psychological distress and academic burnout. More attentions should be paid to students with under-controlled personality and resilience-enhancing interventions could be developed to prevent or alleviate academic burnout in future research.Keywords: psychological distress, academic burnout, resilience, personality, mediation, moderation

Published
2022

6. Gold nanoparticles as high-resolution X-ray imaging contrast agents for the analysis of tumor-related micro-vasculature

Author

Chien Chia-Chi, Chen Hsiang-Hsin, Lai Sheng-Feng, Wu Kang-Chao, Cai Xiaoqing, Hwu Yeukuang, Petibois Cyril, Chu Yong, and Margaritondo Giorgio

Subjects
Synchrotron, X-rays, Angiography, Angiogenesis, Contrast, Au Nanoparticles, Heparin, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5
Abstract

Abstract Background Angiogenesis is widely investigated in conjunction with cancer development, in particular because of the possibility of early stage detection and of new therapeutic strategies. However, such studies are negatively affected by the limitations of imaging techniques in the detection of microscopic blood vessels (diameter 3-5 μm) grown under angiogenic stress. We report that synchrotron-based X-ray imaging techniques with very high spatial resolution can overcome this obstacle, provided that suitable contrast agents are used. Results We tested different contrast agents based on gold nanoparticles (AuNPs) for the detection of cancer-related angiogenesis by synchrotron microradiology, microtomography and high resolution X-ray microscopy. Among them only bare-AuNPs in conjunction with heparin injection provided sufficient contrast to allow in vivo detection of small capillary species (the smallest measured lumen diameters were 3-5 μm). The detected vessel density was 3-7 times higher than with other nanoparticles. We also found that bare-AuNPs with heparin allows detecting symptoms of local extravascular nanoparticle diffusion in tumor areas where capillary leakage appeared. Conclusions Although high-Z AuNPs are natural candidates as radiology contrast agents, their success is not guaranteed, in particular when targeting very small blood vessels in tumor-related angiography. We found that AuNPs injected with heparin produced the contrast level needed to reveal--for the first time by X-ray imaging--tumor microvessels with 3-5 μm diameter as well as extravascular diffusion due to basal membrane defenestration. These results open the interesting possibility of functional imaging of the tumor microvasculature, of its development and organization, as well as of the effects of anti-angiogenic drugs.

Published
2012
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8. Quantitative analysis of nanoparticle internalization in mammalian cells by high resolution X-ray microscopy

Author

Hua Tzu-En, Lai Sheng-Feng, Chu Yong S, Wang Cheng-Liang, Petibois Cyril, Chien Chia-Chi, Chen Hsiang-Hsin, Chen Yi-Yun, Cai Xiaoqing, Kempson Ivan M, Hwu Yeukuang, and Margaritondo Giorgio

Subjects
Biotechnology, TP248.13-248.65, Medical technology, R855-855.5
Abstract

Abstract Background Quantitative analysis of nanoparticle uptake at the cellular level is critical to nanomedicine procedures. In particular, it is required for a realistic evaluation of their effects. Unfortunately, quantitative measurements of nanoparticle uptake still pose a formidable technical challenge. We present here a method to tackle this problem and analyze the number of metal nanoparticles present in different types of cells. The method relies on high-lateral-resolution (better than 30 nm) transmission x-ray microimages with both absorption contrast and phase contrast -- including two-dimensional (2D) projection images and three-dimensional (3D) tomographic reconstructions that directly show the nanoparticles. Results Practical tests were successfully conducted on bare and polyethylene glycol (PEG) coated gold nanoparticles obtained by x-ray irradiation. Using two different cell lines, EMT and HeLa, we obtained the number of nanoparticle clusters uptaken by each cell and the cluster size. Furthermore, the analysis revealed interesting differences between 2D and 3D cultured cells as well as between 2D and 3D data for the same 3D specimen. Conclusions We demonstrated the feasibility and effectiveness of our method, proving that it is accurate enough to measure the nanoparticle uptake differences between cells as well as the sizes of the formed nanoparticle clusters. The differences between 2D and 3D cultures and 2D and 3D images stress the importance of the 3D analysis which is made possible by our approach.

Published
2011
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9. Gold nanoparticles as multimodality imaging agents for brain gliomas

Author

Lai, Sheng-Feng, primary, Ko, Bai-Hung, additional, Chien, Chia-Chi, additional, Chang, Chia-Ju, additional, Yang, Shun-Ming, additional, Chen, Hsiang-Hsin, additional, Petibois, Cyril, additional, Hueng, Dueng-Yuan, additional, Ka, Shuk-Man, additional, Chen, Ann, additional, Margaritondo, G., additional, and Hwu, Y., additional

Published
2015
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11. Quantitative analysis of nanoparticle internalization in mammalian cells by high resolution X-ray microscopy

Author

Chen, Hsiang-Hsin, primary, Chien, Chia-Chi, additional, Petibois, Cyril, additional, Wang, Cheng-Liang, additional, Chu, Yong S, additional, Lai, Sheng-Feng, additional, Hua, Tzu-En, additional, Chen, Yi-Yun, additional, Cai, Xiaoqing, additional, Kempson, Ivan M, additional, Hwu, Yeukuang, additional, and Margaritondo, Giorgio, additional

Published
2011
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12. Imaging the cellular uptake of tiopronin-modified gold nanoparticles

Author

Xiaoqing Cai, S.-Y. Chen, Hsiang-Hsin Chen, Yeukuang Hwu, Ivan M. Kempson, Yi-Yun Chen, Giorgio Margaritondo, Sheng-Feng Lai, Cheng-Liang Wang, Chia-Chi Chien, Chung-Shi Yang, Cai, Xiaoqing, Chen, Hsiang-Hsin, Wang, Cheng-Liang, Chen, Shin-Tai, Lai, Sheng-Feng, Chien, Chia-Chi, Chen, Yi-Yun, Kempson, Ivan M, Hwu, Yeukuang, Yang, C S, and Margaritondo, G

Subjects
Resolution (mass spectrometry), Biocompatibility, Cell Survival, Reducing agent, Cells, Analytical chemistry, Metal Nanoparticles, Biochemistry, Mass Spectrometry, Analytical Chemistry, Microscopy, Electron, Transmission, Microscopy, medicine, Humans, Inductively coupled plasma mass spectrometry, Cells, Cultured, Chemistry, X-Rays, Tiopronin, Endocytosis, Radiography, Transmission electron microscopy, Colloidal gold, Gold, Synchrotrons, medicine.drug, Nuclear chemistry
Abstract

Well-dispersed gold nanoparticles (NP) coated with tiopronin were synthesized by X-ray irradiation without reducing agents. High-resolution transmission electron microscopy shows that the average core diameters of the NPs can be systematically controlled by adjusting the tiopronin to Au mole ratio in the reaction. Three methods were used to study the NP uptake by cells: quantitative measurements by inductively coupled plasma mass spectrometry, direct imaging with high lateral resolution transmission electron microscopy and transmission X-ray microscopy. The results confirmed that the NP internalization mostly occurred via endocytosis and concerned the cytoplasm. The particles, in spite of their small sizes, were not found to arrive inside the cell nuclei. The synthesis without reducing agents and solvents increased the biocompatibility as required for potential applications in analysis and biomedicine in general Refereed/Peer-reviewed

Published
2011

13. Gold nanoparticles as multimodality imaging agents for brain gliomas

Author

Giorgio Margaritondo, Chia-Chi Chien, Hsiang Hsin Chen, Ann Chen, Sheng Feng Lai, Shun‑Ming Yang, Cyril Petibois, Dueng-Yuan Hueng, Bai‑Hung Ko, Shuk-Man Ka, Chia Ju Chang, Yeukuang Hwu, Lai, Sheng-Feng, Ko, Bai-Hung, Chien, Chia-Chi, Chang, Chia-Ju, Yang, Shun-Ming, Chen, Hsiang-Hsin, Petibois, Cyril, Hueng, Dueng-Yuan, Ka, Shuk-Man, Chen, Ann, Margaritondo, G, and Hwu, Y

Subjects
fiber optic sensors, Fluorescence-lifetime imaging microscopy, Pharmaceutical Science, Medicine (miscellaneous), Nanoparticle, Contrast Media, Metal Nanoparticles, 02 engineering and technology, Applied Microbiology and Biotechnology, Mice, Microscopy, Medicine, metal nanoparticles, Internalization, media_common, 0303 health sciences, Brain Neoplasms, Optical Imaging, Brain, Glioma, 021001 nanoscience & nanotechnology, Endocytosis, 3. Good health, Colloidal gold, Molecular Medicine, Science & Technology - Other Topics, fluorescence, 0210 nano-technology, media_common.quotation_subject, Biomedical Engineering, Bioengineering, Nanotechnology, 03 medical and health sciences, In vivo, Animals, Nanoscience & Nanotechnology, 030304 developmental biology, business.industry, Research, gold, medicine.disease, imaging techniques, Targeted drug delivery, Biotechnology & Applied Microbiology, cytology, cells, nanoparticles, Gold, business, Tomography, X-Ray Computed, Neoplasm Transplantation, Biomedical engineering
Abstract

Background Nanoparticles can be used for targeted drug delivery, in particular for brain cancer therapy. However, this requires a detailed analysis of nanoparticles from the associated microvasculature to the tumor, not easy because of the required high spatial resolution. The objective of this study is to demonstrate an experimental solution of this problem, based in vivo and post-mortem whole organ imaging plus nanoscale 3-dimensional (3D) X-ray microscopy. Results The use of gold nanoparticles (AuNPs) as contrast agents paved the way to a detailed high-resolution three dimensional (3D) X-ray and fluorescence imaging analysis of the relation between xenografted glioma cells and the tumor-induced angiogenic microvasculature. The images of the angiogenic microvessels revealed nanoparticle leakage. Complementary tests showed that after endocytotic internalization fluorescent AuNPs allow the visible-light detection of cells. Conclusions AuNP-loading of cells could be extended from the case presented here to other imaging techniques. In our study, they enabled us to (1) identify primary glioma cells at inoculation sites in mice brains; (2) follow the subsequent development of gliomas. (3) Detect the full details of the tumor-related microvasculature; (4) Finding leakage of AuNPs from the tumor-related vasculature, in contrast to no leakage from normal vasculature. Electronic supplementary material The online version of this article (doi:10.1186/s12951-015-0140-2) contains supplementary material, which is available to authorized users.

Published
2015

14. Quantitative analysis of nanoparticle internalization in mammalian cells by high resolution X-ray microscopy

Author

Hsiang-Hsin Chen, Yong S. Chu, Xiaoqing Cai, Cyril Petibois, Sheng-Feng Lai, Ivan M. Kempson, Yeukuang Hwu, Tzu-En Hua, Cheng-Liang Wang, Chia-Chi Chien, Giorgio Margaritondo, Yi-Yun Chen, Chen, Hsiang-Hsin, Chien, Chia-Chi, Petibois, Cyril, Wang, Cheng-Liang, Chu, Yong S, Lai, Sheng-Feng, Hua, Tzu-En, Chen, Yi-Yun, Cai, Xiaoqing, Kempson, Ivan M, Hwu, Yeukuang, and Margaritondo, Giorgio

Subjects
nanoparticle internalization, Cytotoxicity, Nanoparticle, Metal Nanoparticles, Medicine (miscellaneous), Pharmaceutical Science, Apoptosis, Cancer-Cells, 02 engineering and technology, CIBM-PC, Applied Microbiology and Biotechnology, Polyethylene Glycols, chemistry.chemical_compound, Microscopy, Gold Nanoparticles, Microscopy, Phase-Contrast, X-ray microscopy, mammalian cells, 0303 health sciences, Enhancement, Magnetic Nanoparticles, 021001 nanoscience & nanotechnology, Endocytosis, lcsh:R855-855.5, Colloidal gold, Drug delivery, Nanomedicine, Molecular Medicine, 0210 nano-technology, Materials science, lcsh:Medical technology, Refractive-Index Radiology, lcsh:Biotechnology, Biomedical Engineering, Nanotechnology, Bioengineering, Polyethylene glycol, Cellular Uptake, 03 medical and health sciences, Imaging, Three-Dimensional, Microscopy, Electron, Transmission, lcsh:TP248.13-248.65, Cell Line, Tumor, Humans, 030304 developmental biology, Staining and Labeling, Research, Drug-Delivery, X-Ray Microtomography, chemistry, Magnetic nanoparticles, Irradiation, Gold, Synchrotron-Radiation, Quantitative analysis (chemistry)
Abstract

Background Quantitative analysis of nanoparticle uptake at the cellular level is critical to nanomedicine procedures. In particular, it is required for a realistic evaluation of their effects. Unfortunately, quantitative measurements of nanoparticle uptake still pose a formidable technical challenge. We present here a method to tackle this problem and analyze the number of metal nanoparticles present in different types of cells. The method relies on high-lateral-resolution (better than 30 nm) transmission x-ray microimages with both absorption contrast and phase contrast -- including two-dimensional (2D) projection images and three-dimensional (3D) tomographic reconstructions that directly show the nanoparticles. Results Practical tests were successfully conducted on bare and polyethylene glycol (PEG) coated gold nanoparticles obtained by x-ray irradiation. Using two different cell lines, EMT and HeLa, we obtained the number of nanoparticle clusters uptaken by each cell and the cluster size. Furthermore, the analysis revealed interesting differences between 2D and 3D cultured cells as well as between 2D and 3D data for the same 3D specimen. Conclusions We demonstrated the feasibility and effectiveness of our method, proving that it is accurate enough to measure the nanoparticle uptake differences between cells as well as the sizes of the formed nanoparticle clusters. The differences between 2D and 3D cultures and 2D and 3D images stress the importance of the 3D analysis which is made possible by our approach.

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