Your search keyword '"Xiaoyuan Deng"' showing total 22 results

1. Chronic low-dose deltamethrin exposure induces colon injury and aggravates DSS-induced colitis via promoting cellular senescence

Author

Rulan Ma, Xueni Wang, Kaijie Ren, Yuyi Ma, Tianhao Min, Yong Yang, Xin Xie, Kang Li, Kun Zhu, Dawei Yuan, Caijing Mo, Xiaoyuan Deng, Yong Zhang, Chengxue Dang, Hao Zhang, and Tuanhe Sun

Subjects

Deltamethrin, Colitis, Cellular senescence, Dextran sulfate sodium salt, Pyrethrin residues, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Objective: Deltamethrin (DLM) is a commonly used insecticide, which is harmful to many organs. Here, we explored the effects of chronic low-dose DLM residues on colon tissue and its potential mechanism. Methods: The mice were given long-term low-dose DLM by intragastric administration, and the body weights and disease activity index (DAI) scores of the mice were regularly recorded. The colon tissues were then collected for hematoxylin-eosin, immunofluorescence and immunohistochemistry staining. Besides, the RNA sequencing was performed to explore the potential mechanism. Results: Our results showed that long-term exposure to low-dose DLM could cause inflammation in mice colon tissue, manifested as weight loss, increased DAI score, increased apoptosis of colonic epithelial cells, and increased infiltration of inflammatory cells. However, we observed that after long-term exposure to DLM and withdrawal for a period of time, although apoptosis was restored, the recovery of colon inflammation was not ideal. Subsequently, we performed RNA sequencing and found that long-term DLM exposure could lead to the senescence of some cells in mice colon tissue. The results of staining of cellular senescence markers in colon tissue showed that the level of cellular senescence in the DLM group was significantly increased, and the p53 signalling related to senescence was also significantly activated, indicating that cellular senescence played a key role in DLM-induced colitis. We further treated mice with quercetin (QUE) after long-term DLM exposure, and found that QUE could indeed alleviate DLM-induced colitis. In addition, we observed that long-term accumulation of DLM could aggravate DSS-induced colitis in mice, and QUE treatment could reverse this scenario. Conclusion: Continuous intake of DLM caused chronic colitis in mice, and the inflammation persisted even after discontinuation of DLM intake. This was attributed to the induction of cellular senescence in colon tissue. Treatment with QUE alleviated DLM-induced colitis by reducing cellular senescence. Long-term DLM exposure also aggravated DSS-induced colitis, which could be mitigated by QUE treatment.

Published

2024

2. Transient neuroinflammation following surgery contributes to long-lasting cognitive decline in elderly rats via dysfunction of synaptic NMDA receptor

Author

Bo Chen, Guangcheng Qin, Jingyu Xiao, Xiaoyuan Deng, Aolei Lin, and Hongliang Liu

Subjects

Postoperative cognitive dysfunction, Neuroinflammation, NMDAR, structural plasticity, Rac1, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Perioperative neurocognitive disorders (PNDs) are considered the most common postoperative complication in geriatric patients. However, its pathogenesis is not fully understood. Surgery-triggered neuroinflammation is a major contributor to the development of PNDs. Neuroinflammation can influence N-methyl-D-aspartate receptor (NMDAR) expression or function which is closely associated with cognition. We, therefore, hypothesized that the persistent changes in NMDAR expression or function induced by transient neuroinflammation after surgery were involved in the development of PNDs. Methods Eighteen-month-old male Sprague–Dawley rats were subjected to abdominal surgery with sevoflurane anesthesia to establish the PNDs animal model. Then, we determined the transient neuroinflammation by detecting the protein levels of proinflammatory cytokines and microglia activation using ELISA, western blot, immunohistochemistry, and microglial morphological analysis from postoperative days 1–20. Persistent changes in NMDAR expression were determined by detecting the protein levels of NMDAR subunits from postoperative days 1–59. Subsequently, the dysfunction of synaptic NMDAR was evaluated by detecting the structural plasticity of dendritic spine using Golgi staining. Pull-down assay and western blot were used to detect the protein levels of Rac1-GTP, phosphor-cofilin, and Arp3, which contribute to the regulation of the structural plasticity of dendritic spine. Finally, glycyrrhizin, an anti-inflammatory agent, was administered to further explore the role of synaptic NMDAR dysfunction induced by transient neuroinflammation in the neuropathogenesis of PNDs. Results We showed that transient neuroinflammation induced by surgery caused sustained downregulation of synaptic NR2A and NR2B subunits in the dorsal hippocampus and led to a selective long-term spatial memory deficit. Meanwhile, the detrimental effect of neuroinflammation on the function of synaptic NMDARs was shown by the impaired structural plasticity of dendritic spines and decreased activity of the Rac1 signaling pathways during learning. Furthermore, anti-inflammatory treatment reversed the downregulation and hypofunction of synaptic NR2A and NR2B and subsequently rescued the long-term spatial memory deficit. Conclusions Our results identify sustained synaptic NR2A and NR2B downregulation and hypofunction induced by transient neuroinflammation following surgery as important contributors to the development of PNDs in elderly rats.

Published

2022

3. A barrier against reactive oxygen species: chitosan/acellular dermal matrix scaffold enhances stem cell retention and improves cutaneous wound healing

Author

Wei Lin, Xiaoyang Qi, Wenjing Guo, Danyang Liang, Heting Chen, Baoping Lin, and Xiaoyuan Deng

Subjects

Chitosan/Acellular dermal matrix scaffold, ROS barrier in inflammatory response, Stem cell retention, Wound healing, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Stem cell therapies have gained great attention for providing novel solutions for treatment of various injuries and diseases due to stem cells’ self-renewal, ability to differentiate into various cell types, and favorite paracrine function. Nevertheless, the low retention of transplanted stem cell still limits their clinical applications such as in wound healing in view of an induced harsh microenvironment rich in reactive oxygen species (ROS) during inflammatory reactions. Methods Herein, a novel chitosan/acellular dermal matrix (CHS/ADM) stem cell delivery system is developed, which is of great ROS scavenging activity and significantly attenuates inflammatory response. Result Under ROS microenvironment, this stem cell delivery system acts as a barrier, effectively scavenging an amount of ROS and protecting mesenchymal stem cells (MSCs) from the oxidative stress. It notably regulates intracellular ROS level in MSCs and reduces ROS-induced cellular death. Most importantly, such MSCs delivery system significantly enhances in vivo transplanted stem cell retention, promotes the vessel growth, and accelerates wound healing. Conclusions This novel delivery system, which overcomes the limitations of conventional plain collagen-based delivery system in lacking of ROS-environmental responsive mechanisms, demonstrates a great potential use in stem cell therapies in wound healing.

Published

2020

4. Curcumin-mediated bone marrow mesenchymal stem cell sheets create a favorable immune microenvironment for adult full-thickness cutaneous wound healing

Author

Zhi Yang, Chengmin He, Jinyang He, Jing Chu, Hanping Liu, and Xiaoyuan Deng

Subjects

Curcumin, Bone marrow mesenchymal stem cell, Cell sheet, Immune response, Cutaneous wound healing, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Adult full-thickness cutaneous wound repair suffers from an imbalanced immune response, leading to nonfunctional reconstructed tissue and fibrosis. Although various treatments have been reported, the immune-mediated tissue regeneration driven by biomaterial offers an attractive regenerative strategy for damaged tissue repair. Methods In this research, we investigated a specific bone marrow-derived mesenchymal stem cell (BMSC) sheet that was induced by the Traditional Chinese Medicine curcumin (CS-C) and its immunomodulatory effects on wound repair. Comparisons were made with the BMSC sheet induced without curcumin (CS-N) and control (saline). Results In vitro cultured BMSC sheets (CS-C) showed that curcumin promoted the proliferation of BMSCs and modified the features of produced extracellular matrix (ECM) secreted by BMSCs, especially the contents of ECM structural proteins such as fibronectin (FN) and collagen I and III, as well as the ratio of collagen III/I. Two-photon fluorescence (TPF) and second-harmonic generation (SHG) imaging of mouse implantation revealed superior engraftment of BMSCs, maintained for 35 days in the CS-C group. Most importantly, CS-C created a favorable immune microenvironment. The chemokine stromal cell-derived factor 1 (SDF1) was abundantly produced by CS-C, thus facilitating a mass migration of leukocytes from which significantly increased expression of signature TH1 cells (interferon gamma) and M1 macrophages (tumor necrosis factor alpha) genes were confirmed at 7 days post-operation. The number of TH1 cells and associated pro-inflammatory M1 macrophages subsequently decreased sharply after 14 days post-operation, suggesting a rapid type I immune regression. Furthermore, the CS-C group showed an increased trend towards M2 macrophage polarization in the early phase. CS-C led to an epidermal thickness and collagen deposition that was closer to that of normal skin. Conclusions Curcumin has a good regulatory effect on BMSCs and this promising CS-C biomaterial creates a pro-regenerative immune microenvironment for cutaneous wound healing.

Published

2018

5. Activities of MSCs Derived from Transgenic Mice Seeded on ADM Scaffolds in Wound Healing and Assessment by Advanced Optical Techniques

Author

Ning Wang, Hanping Liu, Xuefeng Li, Qilei Zhang, Maosheng Chen, Ying Jin, and Xiaoyuan Deng

Subjects

Cutaneous wound healing, MSCs, GFP-labeling, ADM scaffolds, SHG-TPEF imaging, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Bone marrow Mesenchymal stem cells (MSCs) are promising for promoting cutaneous wound healing through reinforcing cellular processes. We evaluated the effect of GFP-tagged MSCs transplantation on skin regeneration in excisional wounds in mice. Methods: MSCs from GFP-labeled transgenic mice were co-cultured with acellular dermal matrix (ADM) scaffolds, and MSC-ADM scaffolds were transplanted into surgical skin wounds of BALB/c mice. After implantation, the survival and behavior of MSCs were examined by second harmonic generation and two-photon excitation fluorescence imaging, western blotting and DNA amplification and sequencing. Results: GFP-tagged MSCs were retained inside the regenerating skin until day 14 post-transplantation. Alpha-smooth muscle actin (α-SMA) and vimentin (VIM) were detected at 3, 5, 7, and 14 days post-transplantation by immunofluorescence double labeling. Although the GFP+/α-SMA+- and GFP+/VIM+-cell numbers decreased gradually with healing time, α-SMA+- and VIM+-cell numbers significantly increased, most of them were endogenous functional cells which were related to angiogenesis and collagen fiber structural remodeling. Conclusion: Therefore, in the initial stage of wound healing, transplanted MSCs differentiated into functional cells and played paracrine roles to recruit more endogenous cells for tissue remodeling. With the disappearance of exogenous cells, endogenous cells were responsible for the latter stage of cutaneous wound healing.

Published

2017

6. Monitoring Skin Trauma Healing in Mice Using Second-Harmonic Generation Combined with Optical Coherence Tomography

Author

Ning Wang, Huajiang Wei, Ying Jin, Lianzhou Chen, Qilei Zhang, and Xiaoyuan Deng

Subjects

Attenuation coefficient, OCT imaging, SHG, wound healing, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

Convenient methods for rapidly evaluating wound healing could help clinicians to select effective treatment measures for patients within an appropriate time frame. In this study, we explored the use of second-harmonic generation (SHG) combined with optical coherence tomography (OCT) to monitor the healing state of wounds, including the macro-morphology and optical signal characteristics of regenerated tissue. Wounds were imaged and monitored using OCT and SHG on healing days 3, 5, 7, 14, 21, and 28. The accumulation and maturation of newly formed collagen during the healing process was detected using SHG in real time. Additionally, changes in the OCT signal and attenuation coefficient in wounds before and after trauma were measured using the single-scattering OCT model. The wound closure percentage, the SHG intensity of collagen, and the attenuation coefficient of the wounds were analyzed using correlation analysis, which produced correlation coefficients of R12 = 0.944, R22 = 0.9776, and R32 = 0.9354, respectively. In theory, it is feasible to replace the wound closure percentage with the SHG intensity of collagen and the attenuation coefficient to evaluate wound healing. The OCT and SHG combination could be used to diagnose wound healing in real time.

Published

2017

7. Metrological performance of diaphragm gas meters with different use age

Author

Xia Li, Xiaoyuan Deng, Song Zhang, Jiao Zhan, and Li Wu

Subjects

diaphragms, flowmeters, time 10.0 year, temperature 20.0 degc, weighted mean error calculation, china, diaphragm gas meters, domestic diaphragm gas meters, legal metrological regulation performance, indication errors, weighted mean errors, mandatory initial verification, Engineering (General). Civil engineering (General), TA1-2040

Abstract

According to the current legal metrological regulation of diaphragm gas meter, domestic gas meters in China are required to pass mandatory initial verification at 20°C, and then a 10 years' legal duration is allowed without any subsequent or in-service verifications. Here, experimental study has been implemented to investigate the metrological performance and temperature adaptability of old diaphragm gas meters with different use age. Through the introduction of weighting factors, weighted mean errors are calculated to analyse the correlation between the indication errors of gas meters and their use age, as well as the relationship between the indication errors and test temperatures. Experimental results indicate that the use age of gas meters has negligible influence on their metrological performance during the 10 years' legal duration. However, the indication errors worsen as temperature varies.

Published

2019

8. A longitudinal study of sexual activity and influencing factors in breast cancer patients during treatment in the Southwest of China: a trajectory analysis model

Author

Tian, Zhang, Xiaolu, Zhang, Jing, Yang, Min, Wen, Jiaqian, Liao, Shouli, Chen, Yingyin, Wang, Xiaoyuan, Deng, Xiaoyan, Liu, and Guorong, Wang

Published

2024

9. ADM Scaffolds Generate a Pro-regenerative Microenvironment During Full-Thickness Cutaneous Wound Healing Through M2 Macrophage Polarization via Lamtor1

Author

Chengmin He, Zhi Yang, Ying Jin, Xiaoyang Qi, Jin Chu, and Xiaoyuan Deng

Subjects

wound healing, ADM scaffolds, M2 macrophage, Lamtor1, skin regeneration, Physiology, QP1-981

Abstract

Adult mammalian skin has a defective regenerative capacity following full-thickness cutaneous injury; this defect overshadows the complete physiological functions of the skin. Immune-mediated skin reconstruction driven by biological scaffolds is a recently developed innovative repair strategy to support regenerative wound healing. However, to date, little is known about how biological scaffolds orchestrate the immune response to promote regeneration. Here, using acellular dermal matrix (ADM) scaffolds, we discovered that the default pro-inflammatory response was altered in response to a pro-regenerative response characterized by specific M2 polarization. M2 macrophages subsequently produced a series of wound healing factors, including matrix metalloproteinases (Mmps), and growth factors which promoted cell proliferation, stabilized angiogenesis, and remodeled the extracellular matrix. Our investigations further revealed that the M2 polarization of macrophages arose from an ADM scaffold-derived amino acid sufficiency signal by collagen degradation via macrophage phagocytosis, which activated the acid-sensing pathway (v-ATPase, Lamtor1, and mTORC1). Lamtor1, the acid-sensing pathway-associated lysosomal adaptor protein was critical for inducing M2 polarization, while with the presence of extracellular interleukin 4 (IL4). Our results suggest that ADM scaffolds generate a pro-regenerative microenvironment during full-thickness cutaneous wound healing through M2 macrophage polarization via Lamtor1.

Published

2018

10. A barrier against reactive oxygen species: chitosan/acellular dermal matrix scaffold enhances stem cell retention and improves cutaneous wound healing

Author

Wenjing Guo, Wei Lin, Baoping Lin, Heting Chen, Xiaoyang Qi, Xiaoyuan Deng, and Danyang Liang

Subjects

0301 basic medicine, Cell type, Chitosan/Acellular dermal matrix scaffold, Medicine (miscellaneous), Wound healing, 02 engineering and technology, medicine.disease_cause, Biochemistry, Genetics and Molecular Biology (miscellaneous), lcsh:Biochemistry, 03 medical and health sciences, Paracrine signalling, Stem cell retention, medicine, Acellular Dermis, lcsh:QD415-436, chemistry.chemical_classification, Chitosan, Reactive oxygen species, lcsh:R5-920, Stem Cells, Research, Mesenchymal stem cell, Cell Biology, 021001 nanoscience & nanotechnology, Cell biology, ROS barrier in inflammatory response, 030104 developmental biology, chemistry, Molecular Medicine, Stem cell, Reactive Oxygen Species, 0210 nano-technology, lcsh:Medicine (General), Intracellular, Oxidative stress

Abstract

Background Stem cell therapies have gained great attention for providing novel solutions for treatment of various injuries and diseases due to stem cells’ self-renewal, ability to differentiate into various cell types, and favorite paracrine function. Nevertheless, the low retention of transplanted stem cell still limits their clinical applications such as in wound healing in view of an induced harsh microenvironment rich in reactive oxygen species (ROS) during inflammatory reactions. Methods Herein, a novel chitosan/acellular dermal matrix (CHS/ADM) stem cell delivery system is developed, which is of great ROS scavenging activity and significantly attenuates inflammatory response. Result Under ROS microenvironment, this stem cell delivery system acts as a barrier, effectively scavenging an amount of ROS and protecting mesenchymal stem cells (MSCs) from the oxidative stress. It notably regulates intracellular ROS level in MSCs and reduces ROS-induced cellular death. Most importantly, such MSCs delivery system significantly enhances in vivo transplanted stem cell retention, promotes the vessel growth, and accelerates wound healing. Conclusions This novel delivery system, which overcomes the limitations of conventional plain collagen-based delivery system in lacking of ROS-environmental responsive mechanisms, demonstrates a great potential use in stem cell therapies in wound healing.

Published

2020

11. Metrological performance of diaphragm gas meters with different use age

Author

Song Zhang, Jiao Zhan, Xia Li, Li Wu, and Xiaoyuan Deng

Subjects

0207 environmental engineering, Energy Engineering and Power Technology, Diaphragm (mechanical device), 02 engineering and technology, flowmeters, 01 natural sciences, 010309 optics, weighted mean errors, 0103 physical sciences, temperature 20.0 degc, 020701 environmental engineering, diaphragm gas meters, domestic diaphragm gas meters, diaphragms, General Engineering, mandatory initial verification, Gas meter, Metrology, lcsh:TA1-2040, legal metrological regulation performance, Environmental science, china, lcsh:Engineering (General). Civil engineering (General), time 10.0 year, indication errors, Software, Marine engineering, weighted mean error calculation

Abstract

According to the current legal metrological regulation of diaphragm gas meter, domestic gas meters in China are required to pass mandatory initial verification at 20°C, and then a 10 years' legal duration is allowed without any subsequent or in-service verifications. Here, experimental study has been implemented to investigate the metrological performance and temperature adaptability of old diaphragm gas meters with different use age. Through the introduction of weighting factors, weighted mean errors are calculated to analyse the correlation between the indication errors of gas meters and their use age, as well as the relationship between the indication errors and test temperatures. Experimental results indicate that the use age of gas meters has negligible influence on their metrological performance during the 10 years' legal duration. However, the indication errors worsen as temperature varies.

Published

2019

12. Microscopic second-harmonic generation emission direction in fibrillous collagen type I by quasi-phase-matching theory.

Author

Long Tian, Junle Qu, Zhouyi Guo, Ying Jin, Yaoyong Meng, and Xiaoyuan Deng

Subjects

MATCHING theory, SECOND harmonic generation, COLLAGEN, ELECTRONIC excitation, CRYSTALLINE interfaces

Abstract

Quasiphase matching (QPM) is a widely used theory in crystal to analyze the character of second-harmonic generation (SHG) emitted from it. Based on the structural features of collagen type I, where the constituted fibrils in collagen function as a crystal which has the structure of two-dimensional (2D) quasicrystalline, in this paper, we use the QPM theory on collagen for SHG emission direction study under the excitation of laser light through a microscope. The effects of numerical aperture NA, as well as the structural parameters, such as QPM order (m,l) and collagen period a=d1+d2 associated with the fibrils diameter (d1), packing density and interfibrils structure (d2), etc., on SHG emission angle φ have been investigated. Our theoretical results show that collagen period a has threshold effect on φ to present forward or backward SHG emission and NA has minor influence on this threshold value a. Collagen period of a has more significant influence on SHG emission angle φ when a is smaller than the threshold value. In reality, we realize that diameter of collagen fibrils d1 plays a major role on forward or backward emission of SHG. Here, for example, (we assume d1=a/2), when d1≤95 nm [(m,l)=(1,0)], the backward SHG shows up at any magnitude of NA, while when d1≥150 nm [(m,l)=(1,0)], SHG presents forward emission feature under all circumstances. Between them, SHG emits from forward direction to backward direction as the increase in NA. The QPM order (m,l) has nonlinear impact on SHG emission angle φ and has different degrees of influence on different collagen period a. Our theoretical results are highly consistent with the experiments results demonstrated by other researchers and provide a proper explanation of the phenomenon of appreciable backward SHG signals appearing in collagen type I. Our established theoretical model of applying QPM theory in 2D quasicrystalline fibrils is therefore confirmed to be a suitable model for dealing with SHG in type I collagen. [ABSTRACT FROM AUTHOR]

Published

2010

13. Microscopic Imaging Through Turbid Media : Monte Carlo Modeling and Applications

Author

Min Gu, Xiaosong Gan, Xiaoyuan Deng, Min Gu, Xiaosong Gan, and Xiaoyuan Deng

Subjects

Photonics, Microscopy, Monte Carlo method

Abstract

This book provides a systematic introduction to the principles of microscopic imaging through tissue-like turbid media in terms of Monte-Carlo simulation. It describes various gating mechanisms based on the physical differences between the un scattered and scattered photons and method for microscopic image reconstruction, using the concept of the effective point spread function. Imaging an object embedded in a turbid medium is a challenging problem in physics as well as in bio photonics. A turbid medium surrounding an object under inspection causes multiple scattering, which degrades the contrast, resolution and signal-to-noise ratio. Biological tissues are typically turbid media. Microscopic imaging through a tissue-like turbid medium can provide higher resolution than transillumination imaging in which no objective is used. This book serves as a valuable reference for engineers and scientists working on microscopy of tissue turbid media.

Published

2015

14. Characterization of excitation beam on second-harmonic generation in fibrillous type I collagen

Author

Ying Chang and Xiaoyuan Deng

Subjects

Physics, Original Paper, Brewster's angle, business.industry, Linear polarization, Biophysics, Second-harmonic generation, Cell Biology, Polarizer, Atomic and Molecular Physics, and Optics, Collimated light, law.invention, symbols.namesake, Optics, law, Excited state, symbols, Atomic physics, business, Molecular Biology, Intensity (heat transfer), Excitation

Abstract

Following our established theoretical model to deal with the second-harmonic generation (SHG) excited by a linearly polarized focused beam in type I collagen, in this paper, we further quantitatively characterize the differences between SHG emissions in type I collagen excited by collimated and focused beams. The effects of the linear polarization angle (α) and the fibril polarity characterized by the hyperpolarizability ratio ρ on SHG emission has been compared under collimated and focused beam excitation, respectively. In particular, SHG emission components along the i axis \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$\left( {I_{2\omega {,}i} } \right)$\end{document} (i = x,y,z), the induced SHG emission deviation angle γij, and the detected SHG signals (I2ω,ij) in the ij plane by rotating the applied polarizer angle φij have been investigated (i = x, x, y; j = y, z, z). Results show that under our simulation model, SHG emission in the xy plane, such as I2ω,x ,I2ω,y ,γxy and I2ω,xy varying as polarization angle (α) under collimated and focused light, presents no significant difference. The reverse of the fibril polarity has induced great impact on I2ω,x ,γxy and I2ω,xy in both collimated and focused light. I2ω,x and γxy show similarity, but I2ω,xy at α = 30° demonstrates a slight difference in focused light to that in collimated light. Under focused light, the reverse of fibril polarity causes obvious changes of the collected SHG intensity I2ω,xz and I2ω,yz at a special polarization angle α = 60° and γxz, γyz along α.

Published

2010

15. Persistent neuronal apoptosis and synaptic loss induced by multiple but not single exposure of propofol contribute to long-term cognitive dysfunction in neonatal rats.

Author

Bo Chen, Xiaoyuan Deng, Bin Wang, and Hongliang Liu

Subjects

*APOPTOSIS, *PROPOFOL, *COGNITION disorders, *DRUG side effects, *NEUROTOXICOLOGY, *LABORATORY rats, *THERAPEUTICS

Abstract

Propofol can induce acute neuronal apoptosis or long-term cognitive dysfunction when exposed at early age in rodents, but it is unclear how the neurotoxicity including neuronal apoptosis and synaptic loss will change in a dynamic manner with brain development after multiple or single exposure of propofol, and the role of neuronal apoptosis and synaptic loss in propofol-induced long-term cognitive impairment needs to be elucidated. In this study, we investigated dynamic changes of neuronal apoptosis, neuronal density, synaptic density in hippocampal CA1 region and the prelimbic cortex (PrL), and longterm cognitive function after multiple or single exposure of propofol in neonatal rats. Results showed that single exposure of propofol only induced great neuronal apoptosis and deficit at postnatal day 9(P9); while multiple exposures of propofol could induce significant neuronal apoptosis, neuronal deficit and synaptic loss at P9, P14, P21, or P35 compared with intact, and spatial learning and memory impairment from P36 to P41. Results suggest that single exposure of propofol only induces transient neuronal apoptosis and deficit, while multiple exposures of propofol induce persistent neuronal apoptosis, neuronal deficit, synaptic loss, and long-term cognitive impairment. Furthermore, persistent neuronal deficit and disturbances in synapse formation but not transient neuronal apoptosis may contribute to long-term cognitive impairment. [ABSTRACT FROM AUTHOR]

Published

2016

16. Drop coating deposition Raman spectroscopy of blood plasma for the detection of colorectal cancer.

Author

Pengpeng Li, Changshui Chen, Xiaoyuan Deng, Hua Mao, and Shaoqin Jin

Subjects

RAMAN spectroscopy, COLON cancer diagnosis, IMAGING of cancer, CANCER tomography, BLOOD plasma, PRINCIPAL components analysis

Abstract

We have recently applied the technique of drop coating deposition Raman (DCDR) spectroscopy for colorectal cancer (CRC) detection using blood plasma. The aim of this study was to develop a more convenient and stable method based on blood plasma for noninvasive CRC detection. Significant differences are observed in DCDR spectra between healthy (n = 105) and cancer (n = 75) plasma from 15 CRC patients and 21 volunteers, particularly in the spectra that are related to proteins, nucleic acids, and β-carotene. The multivariate analysis principal components analysis and the linear discriminate analysis, together with leave-one-out, cross validation were used on DCDR spectra and yielded a sensitivity of 100% (75/75) and specificity of 98.1% (103/105) for detection of CRC. This study demonstrates that DCDR spectroscopy of blood plasma associated with multivariate statistical algorithms has the potential for the noninvasive detection of CRC. [ABSTRACT FROM AUTHOR]

Published

2015

17. Label-free nonenzymatic glycation monitoring of collagen scaffolds in type 2 diabetic mice by confocal Raman microspectroscopy.

Author

Panpan Shi, Hanping Liu, Xiaoyuan Deng, Ying Jin, Qiannan Wang, Hao Liu, Maosheng Chen, and Xue Han

Subjects

COLLAGEN, PATHOLOGICAL physiology, DIABETES, RAMAN microscopy, EPIDERMIS, STATISTICAL correlation

Abstract

Collagen is the key target of nonenzymatic glycation during physiopathological processes such as diabetes. The induced changes in the biochemical property of collagen by nonenzymatic glycation remain a major challenge to probe. This study investigated the use of confocal Raman microspectroscopy to labelfree monitor the nonenzymatic glycation of collagen scaffolds from type 2 diabetic (T2D) mice at different timepoints (0, 4, 8, and 12 weeks). The glycated collagen scaffolds were obtained through the decellularized dermal matrix method to remove the epidermis layer, subcutaneous tissue, and cells in the dermis and to retain the collagen fibrils. Raman spectra showed no changes in Raman peak positions, which indicated that nonenzymatic glycation could produce no significant changes in the triple-helix structure of collagen in T2D mice. However, the relative intensity of the Raman bands at 921, 1033, 1244, 1274, 1346, 1635, and 1672 cm-1 increased as diabetic time progressed. Correlation analysis suggested that the spectra of these bands had a high positive correlation with the expression of anti-advanced glycation end products obtained by immunofluorescence imaging of the same collagen scaffolds. Confocal Raman microspectroscopy proves a potential tool to label-free monitor the collagen changes caused by nonenzymatic glycation in T2D mice. [ABSTRACT FROM AUTHOR]

Published

2015

18. Simulation study of second-harmonic microscopic imaging signals through tissue-like turbid media.

Author

Xiaoyuan Deng, Xianju Wang, Hanping Liu, Zhengfei Zhuang, and Zhouyi Guo

Published

2006

19. Monte Carlo simulation of multiphoton fluorescence microscopic imaging through inhomogeneous tissuelike turbid media.

Author

Xiaoyuan Deng, Xiaosong Gan, and Min Gu

Published

2003

20. A gas meter test facility with multifunction.

Author

Xia Li, Song Zhang, Xiaoyuan Deng, Jie Xia, and Zehong Zhang

Published

2018

21. Dependence of second-harmonic signals generated in malignant human prostate tissue on excitation wavelength.

Author

Xiaoyuan Deng, Williams, E.D., Thompson, E.W., Gan, X., and Min Gu

Published

2001

22. Theoretical simulation study of linearly polarized light on microscopic second-harmonic generation in collagen type I.

Author

Ying Chang, Changshui Chen, Jianxin Chen, Ying Jin, and Xiaoyuan Deng

Subjects

COLLAGEN, SECOND harmonic generation, OPTICAL polarization, MICROSCOPY, SIMULATION methods & models, BEAM optics

Abstract

A theoretical model is established for dealing with second-harmonic generation (SHG) in type I collagen excited by linearly polarized light focused by a microscope. With this model, the effects of the polarization angle , numerical aperture (NA), as well as the ratio of hyperpolarizability =xxxxyyon SHG emission have been investigated. Simulation results reveal that SHG emission power changes periodically as . The use of lower NA leads to weaker SHG emission but is more concentrated in two closer lobes, whereas more distributed emission in two detached lobes appear at higher NA. As the introduction of polarization direction, which is not along with the fiber axis (≠0 deg), one more element xyyis valid in our case than xxxalone, while their ratio plays a very important role for collagen features characterization. SHG emission with shows complicated modality that SHG emission is different at different and not symmetric at ±except at =0 deg, suggesting the important impact of polarization working on for SHG emission. Our theoretical simulation results provide useful clues for experimental study of microscopic SHG emission in collagen excited by linearly polarized beam. [ABSTRACT FROM AUTHOR]

Published

2009