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学者姓名:马雪梅
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Abstract :
Ischemic stroke, prevalent among the elderly, necessitates attention to reperfusion injury post treatment. Limited drug access to the brain, owing to the blood-brain barrier, restricts clinical applications. Identifying efficient drug carriers capable of penetrating this barrier is crucial. Blood-brain barrier transporters play a vital role in nutrient transport to the brain. Recently, nanoparticles emerged as drug carriers, enhancing drug permeability via surface-modified ligands. This article introduces the blood-brain barrier structure, elucidates reperfusion injury pathogenesis, compiles ischemic stroke treatment drugs, explores nanomaterials for drug encapsulation and emphasizes their advantages over conventional drugs. Utilizing nanoparticles as drug-delivery systems offers targeting and efficiency benefits absent in traditional drugs. The prospects for nanomedicine in stroke treatment are promising.
Keyword :
ischemic stroke ischemic stroke blood-brain barrier blood-brain barrier reperfusion injury reperfusion injury nanoparticles nanoparticles
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GB/T 7714 | Li, Jun , Xie, Fei , Ma, Xuemei . Advances in nanomedicines: a promising therapeutic strategy for ischemic cerebral stroke treatment [J]. | NANOMEDICINE , 2024 , 19 (9) : 811-835 . |
MLA | Li, Jun 等. "Advances in nanomedicines: a promising therapeutic strategy for ischemic cerebral stroke treatment" . | NANOMEDICINE 19 . 9 (2024) : 811-835 . |
APA | Li, Jun , Xie, Fei , Ma, Xuemei . Advances in nanomedicines: a promising therapeutic strategy for ischemic cerebral stroke treatment . | NANOMEDICINE , 2024 , 19 (9) , 811-835 . |
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Failures of wound healing have been a focus of research worldwide. With the continuous development of materials science, electrospun nanofiber scaffolds loaded with metal-based nanoparticles provide new ideas and methods for research into new tissue engineering materials due to their excellent antibacterial, anti-inflammatory, and wound healing abilities. In this review, the stages of extracellular matrix and wound healing, electrospun nanofiber scaffolds, metal-based nanoparticles, and metal-based nanoparticles supported by electrospun nanofiber scaffolds are reviewed, and their characteristics and applications are introduced. We discuss in detail the current research on wound healing of metal-based nanoparticles and electrospun nanofiber scaffolds loaded with metal-based nanoparticles, and we highlight the potential mechanisms and promising applications of these scaffolds for promoting wound healing.
Keyword :
extracellular matrix extracellular matrix electrospinning electrospinning metal-based nanoparticles metal-based nanoparticles nanostructure nanostructure wound healing wound healing nanofiber scaffolds nanofiber scaffolds
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GB/T 7714 | Dang, Zheng , Ma, Xuemei , Yang, Zihao et al. Electrospun Nanofiber Scaffolds Loaded with Metal-Based Nanoparticles for Wound Healing [J]. | POLYMERS , 2024 , 16 (1) . |
MLA | Dang, Zheng et al. "Electrospun Nanofiber Scaffolds Loaded with Metal-Based Nanoparticles for Wound Healing" . | POLYMERS 16 . 1 (2024) . |
APA | Dang, Zheng , Ma, Xuemei , Yang, Zihao , Wen, Xiaohu , Zhao, Pengxiang . Electrospun Nanofiber Scaffolds Loaded with Metal-Based Nanoparticles for Wound Healing . | POLYMERS , 2024 , 16 (1) . |
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Abstract :
The heterogeneous and highly plastic cell populations of macrophages are important mediators of cellular responses during all stages of wound healing, especially in the inflammatory stage. Molecular hydrogen (H-2), which has potent antioxidant and anti-inflammatory effects, has been shown to promote M2 polarization in injury and disease. However, more in vivo time series studies of the role of M1-to-M2 polarization in wound healing are needed. In the current study, we performed time series experiments on a dorsal full-thickness skin defect mouse model in the inflammatory stage to examine the effects of H-2 inhalation. Our results revealed that H-2 could promote very early M1-to-M2 polarization (on days 2-3 post wounding, 2-3 days earlier than in conventional wound healing), without disturbing the functions of the M1 phenotype. Time series analysis of the transcriptome, blood cell counts, and multiple cytokines further indicated that peripheral blood monocytes were a source of H-2-induced M2 macrophages and that the functions of H-2 in macrophage polarization were not only dependent on its antioxidant effects. Therefore, we believe that H-2 could reduce inflammation in wound care by shifting early macrophage polarization in clinical settings.
Keyword :
wound healing wound healing in vivo time series study in vivo time series study anti-ROS independent anti-ROS independent inflammation stage inflammation stage M2 macrophage polarization M2 macrophage polarization molecular hydrogen molecular hydrogen
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GB/T 7714 | Zhao, Pengxiang , Cai, Zisong , Zhang, Xujuan et al. Hydrogen Attenuates Inflammation by Inducing Early M2 Macrophage Polarization in Skin Wound Healing [J]. | PHARMACEUTICALS , 2023 , 16 (6) . |
MLA | Zhao, Pengxiang et al. "Hydrogen Attenuates Inflammation by Inducing Early M2 Macrophage Polarization in Skin Wound Healing" . | PHARMACEUTICALS 16 . 6 (2023) . |
APA | Zhao, Pengxiang , Cai, Zisong , Zhang, Xujuan , Liu, Mengyu , Xie, Fei , Liu, Ziyi et al. Hydrogen Attenuates Inflammation by Inducing Early M2 Macrophage Polarization in Skin Wound Healing . | PHARMACEUTICALS , 2023 , 16 (6) . |
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Abstract :
As a novel antioxidant, a growing body of studies has documented the diverse biological effects of molecular hydrogen (H-2) in a wide range of organisms, spanning animals, plants, and microorganisms. Although several possible mechanisms have been proposed, they cannot fully explain the extensive biological effects of H-2. Mitochondria, known for ATP production, also play crucial roles in diverse cellular functions, including Ca2+ signaling, regulation of reactive oxygen species (ROS) generation, apoptosis, proliferation, and lipid transport, while their dysfunction is implicated in a broad spectrum of diseases, including cardiovascular disorders, neurodegenerative conditions, metabolic disorders, and cancer. This review aims to 1) summarize the experimental evidence on the impact of H-2 on mitochondrial function; 2) provide an overview of the mitochondrial pathways underlying the biological effects of H-2, and 3) discuss H-2 metabolism in eukaryotic organisms and its relationship with mitochondria. Moreover, based on previous findings, this review proposes that H-2 may regulate mitochondrial quality control through diverse pathways in response to varying degrees of mitochondrial damage. By combining the existing research evidence with an evolutionary perspective, this review emphasizes the potential hydrogenase activity in mitochondria of higher plants and animals. Finally, this review also addresses potential issues in the current mechanistic study and offers insights into future research directions, aiming to provide a reference for future studies on the mechanisms underlying the action of H-2.
Keyword :
molecular hydrogen (H-2) molecular hydrogen (H-2) mitochondria mitochondria hydrogenase hydrogenase complex I complex I mitochondrial quality control mitochondrial quality control
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GB/T 7714 | Zhang, Xiaoyue , Xie, Fei , Ma, Shiwen et al. Mitochondria: one of the vital hubs for molecular hydrogen's biological functions [J]. | FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY , 2023 , 11 . |
MLA | Zhang, Xiaoyue et al. "Mitochondria: one of the vital hubs for molecular hydrogen's biological functions" . | FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY 11 (2023) . |
APA | Zhang, Xiaoyue , Xie, Fei , Ma, Shiwen , Ma, Chen , Jiang, Xue , Yi, Yang et al. Mitochondria: one of the vital hubs for molecular hydrogen's biological functions . | FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY , 2023 , 11 . |
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Abstract :
BackgroundDespite progress in developing wound care strategies, there is currently no treatment that promotes the self-tissue repair capabilities. H-2 has been shown to effectively protect cells and tissues from oxidative and inflammatory damage. While comprehensive effects and how H-2 functions in wound healing remains unknown, especially for the link between H-2 and extracellular matrix (ECM) deposition and epidermal stem cells (EpSCs) activation.MethodsHere, we established a cutaneous aseptic wound model and applied a high concentration of H-2 (66% H-2) in a treatment chamber. Molecular mechanisms and the effects of healing were evaluated by gene functional enrichment analysis, digital spatial profiler analysis, blood perfusion/oxygen detection assay, in vitro tube formation assay, enzyme-linked immunosorbent assay, immunofluorescent staining, non-targeted metabonomic analysis, flow cytometry, transmission electron microscope, and live-cell imaging.ResultsWe revealed that a high concentration of H-2 (66% H-2) greatly increased the healing rate (3 times higher than the control group) on day 11 post-wounding. The effect was not dependent on O-2 or anti-reactive oxygen species functions. Histological and cellular experiments proved the fast re-epithelialization in the H-2 group. ECM components early (3 days post-wounding) deposition were found in the H-2 group of the proximal wound, especially for the dermal col-I, epidermal col-III, and dermis-epidermis-junction col-XVII. H-2 accelerated early autologous EpSCs proliferation (1-2 days in advance) and then differentiation into myoepithelial cells. These epidermal myoepithelial cells could further contribute to ECM deposition. Other beneficial outcomes include sustained moist healing, greater vascularization, less T-helper-1 and T-helper-17 cell-related systemic inflammation, and better tissue remodelling.ConclusionWe have discovered a novel pattern of wound healing induced by molecular hydrogen treatment. This is the first time to reveal the direct link between H-2 and ECM deposition and EpSCs activation. These H-2-induced multiple advantages in healing may be related to the enhancement of cell viability in various cells and the maintenance of mitochondrial functions at a basic level in the biological processes of life.
Keyword :
Molecular hydrogen Molecular hydrogen Epidermal stem cell proliferation Epidermal stem cell proliferation Wound care Wound care Re-epithelialization Re-epithelialization Extracellular matrix deposition Extracellular matrix deposition
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GB/T 7714 | Zhao, Pengxiang , Dang, Zheng , Liu, Mengyu et al. Molecular hydrogen promotes wound healing by inducing early epidermal stem cell proliferation and extracellular matrix deposition [J]. | INFLAMMATION AND REGENERATION , 2023 , 43 (1) . |
MLA | Zhao, Pengxiang et al. "Molecular hydrogen promotes wound healing by inducing early epidermal stem cell proliferation and extracellular matrix deposition" . | INFLAMMATION AND REGENERATION 43 . 1 (2023) . |
APA | Zhao, Pengxiang , Dang, Zheng , Liu, Mengyu , Guo, Dazhi , Luo, Ruiliu , Zhang, Mingzi et al. Molecular hydrogen promotes wound healing by inducing early epidermal stem cell proliferation and extracellular matrix deposition . | INFLAMMATION AND REGENERATION , 2023 , 43 (1) . |
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Abstract :
Purpose: Lacrimal gland benign lymphoepithelial lesion (LGBLEL) is an IgG4related disease of unknown etiology with a risk for malignant transformation. Estrogen is considered to be related to LGBLEL onset. Methods: Seventy-eight LGBLEL and 13 control clinical samples were collected and studied to determine the relationship between estrogen and its receptors and LGBLEL development. Results: The serological analysis revealed no significant differences in the levels of three estrogens be-tween the LGBLEL and control groups. However, immunohistochemical analyses indicated that the expression levels of ERb and its downstream receptor RERG were relatively lower in LGBLEL samples than in control samples, with higher expression in the lacrimal gland and lower expression in the lymphocyte infiltration region. However, low expression of ER a was detected. The transcriptome sequence analysis revealed upregulated genes associated with LGBLEL enriched in lymphocyte proliferation and activation function; downregulated genes were enriched in epithelial and vascular proliferation functions. The key genes and gene networks were further analyzed. Interactions between B cells and epithelial cells were analyzed due to the identified involvement of leukocyte subsets and epithelial cells. B cell proliferation was found to potentially contribute to lacrimal gland apoptosis. Conclusion: Therefore, the tissue-heterogeneous expression pattern of ER b is potentially related to the clinical manifestations and progression of LGBLEL, although further investigations are required to confirm this finding.
Keyword :
ER beta ER beta B lymphocyte proliferation B lymphocyte proliferation tumor development tumor development lacrimal gland apoptosis lacrimal gland apoptosis LGBLEL LGBLEL clinical manifestations clinical manifestations
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GB/T 7714 | Zhang, Xujuan , Zhao, Pengxiang , Ma, Mingshen et al. Missing link between tissue specific expressing pattern of ER & beta; and the clinical manifestations in LGBLEL [J]. | FRONTIERS IN MEDICINE , 2023 , 10 . |
MLA | Zhang, Xujuan et al. "Missing link between tissue specific expressing pattern of ER & beta; and the clinical manifestations in LGBLEL" . | FRONTIERS IN MEDICINE 10 (2023) . |
APA | Zhang, Xujuan , Zhao, Pengxiang , Ma, Mingshen , Wu, Hao , Liu, Rui , Liu, Ziyi et al. Missing link between tissue specific expressing pattern of ER & beta; and the clinical manifestations in LGBLEL . | FRONTIERS IN MEDICINE , 2023 , 10 . |
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Abstract :
BACKGROUND Patients with keloids who receive radiotherapy (RT) after surgery can develop refractory wounds that cannot be healed by the patient's own repair system. Such chronic wounds are uneven and complex due to persistent abscess and ulceration. Without external intervention, they can easily result in local tissue necrosis or, in severe cases, large area tissue resection, amputation, and even death. CASE SUMMARY This article describes the use of hydrogen to treat a 42-year-old female patient with a chronic wound on her left shoulder. The patient had a skin graft that involved implanting a dilator under the skin of her left shoulder, and then transferring excess skin from her shoulder onto scar tissue on her chest. The skin grafting was followed by two rounds of RT, after which the shoulder wound had difficulty healing. For six months, the patient was treated with 2 h of hydrogen inhalation (HI) therapy per day, in addition to application of sterile gauze on the wound and periodic debridement. We also performed one deep, large, sharp debridement to enlarge the wound area. The wound healed completely within 6 mo of beginning the HI treatment. CONCLUSION After HI therapy, the patient showed superior progress in reepithelialization and wound repair, with eventual wound closure in 6 mo, in comparison with the previous failures of hyperbaric oxygen and recombinant bovine basic fibroblast growth factor therapies. Our work showed that HI therapy could be a new strategy for wound healing that is cleaner, more convenient, and less expensive than other therapies, as well as easily accessible for further application in clinical wound care. © The Author(s) 2022. Published by Baishideng Publishing Group Inc. All rights reserved.
Keyword :
Case report; Hydrogen; Inhalation therapy; Reepithelialization; Refractory wounds; Wound healing Case report; Hydrogen; Inhalation therapy; Reepithelialization; Refractory wounds; Wound healing
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GB/T 7714 | Zhao, P.-X. , Luo, R.-L. , Dang, Z. et al. Effect of hydrogen intervention on refractory wounds after radiotherapy: A case report [J]. | World Journal of Clinical Cases , 2022 , 10 (21) : 7545-7552 . |
MLA | Zhao, P.-X. et al. "Effect of hydrogen intervention on refractory wounds after radiotherapy: A case report" . | World Journal of Clinical Cases 10 . 21 (2022) : 7545-7552 . |
APA | Zhao, P.-X. , Luo, R.-L. , Dang, Z. , Wang, Y.-B. , Zhang, X.-J. , Liu, Z.-Y. et al. Effect of hydrogen intervention on refractory wounds after radiotherapy: A case report . | World Journal of Clinical Cases , 2022 , 10 (21) , 7545-7552 . |
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Abstract :
Molecular hydrogen (H-2) has emerged as a new therapeutic option in several diseases and is widely adopted by healthy people. However, molecular data to support therapeutic functions attributed to the biological activities of H-2 remain elusive. Here, using transcriptomic and metabolomic approaches coupled with biochemistry and micro-CT technics, we evaluated the effect of long-term (6 months) and daily use of H-2 on liver function. Rats exposed 2 h daily to H-2 either by drinking HRW (H-2 dissolved in H2O) or by breathing 4% H-2 gas showed reduced lipogenesis and enhanced lipolysis in the liver, which was associated with apparent loss of visceral fat and brown adipose tissue together with a reduced level of serum lipids. Both transcripts and metabolites enriched in H-2-treated rats revealed alteration of amino acid metabolism pathways and activation of purine nucleotides and carbohydrate biosynthesis pathways. Analysis of the interaction network of genes and metabolites and correlation tests revealed that NADP is the central regulator of H-2 induced metabolic alterations in the liver, which was further confirmed by an increase in the level of components of metabolic pathways that require NADP as substrate. Evidence of immune response regulation activity was also observed in response to exposure to H-2. This work is the first to provide metabolomic and transcriptomic data to uncover molecular targets for the effect of prolonged molecular hydrogen treatment on liver metabolism.
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GB/T 7714 | Adzavon, Yao Mawulikplimi , Xie, Fei , Yi, Yang et al. Long-term and daily use of molecular hydrogen induces reprogramming of liver metabolism in rats by modulating NADP/NADPH redox pathways [J]. | SCIENTIFIC REPORTS , 2022 , 12 (1) . |
MLA | Adzavon, Yao Mawulikplimi et al. "Long-term and daily use of molecular hydrogen induces reprogramming of liver metabolism in rats by modulating NADP/NADPH redox pathways" . | SCIENTIFIC REPORTS 12 . 1 (2022) . |
APA | Adzavon, Yao Mawulikplimi , Xie, Fei , Yi, Yang , Jiang, Xue , Zhang, Xiaokang , He, Jin et al. Long-term and daily use of molecular hydrogen induces reprogramming of liver metabolism in rats by modulating NADP/NADPH redox pathways . | SCIENTIFIC REPORTS , 2022 , 12 (1) . |
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Abstract :
Molecular hydrogen has been shown to exert beneficial effects on plant growth and abiotic stress tolerance, however, the exact mechanism has not yet been fully elucidated. H-2 is able to diffuse directly across the plasma membrane, which is the first barrier between H-2 and cells. It is possible that H-2 may exert its biological effects on plant cells by interacting with PM. Hydrogenases can catalyze the reversible reaction of dihydrogen into protons and electrons, which has been found in microbes and rarely reported in higher plants. We speculated that the hydrogenase activity may also exist in the PM of higher plants, and the potential PM hydrogenases may act as an electron/proton provider or acceptor for H-2 metabolism, which makes H-2 a modulator of redox homeostasis. The potential hydrogenase activity of the PM vesicles of two higher plants species were determined by real-time spectrophotometry, gas chromatography, and H-2 sensor detection. The results showed that both H-2-evolving and H-2-uptake activities existed in PM vesicles of both V. radiata hypocotyls and Capsicum annuum stems. This hydrogenase activity is coupled with the redox reactions of ferricyanide/ferrocyanide and NADH/NAD(+). The net H+, Na+, and K+ fluxes of V. radiata hypocotyls were measured using Non-invasive Micro-test Technology (NMT). The results showed that H-2 could prompted H+ effluxes, which may contribute to the significant elongation of V. radiata hypocotyls. Under salt stress, H-2 significantly promoted H+ effluxes and reduced Na+ influx, indicating that the transport of salt ions across the membrane could be affected by H-2 in PM vesicles. These results demonstrate that the hydrogenase activity may be widely existed in higher plants' PM vesicles, and H-2 could affect the proton gradient and regulate redox processes in plant PM, which may be responsible for its effects on iron transport and other physiological and pathophysiological processes.
Keyword :
Hydrogenase activity Hydrogenase activity Vigna radiate Vigna radiate Plasma membrane Plasma membrane Ion transport Ion transport Capsicum annuum Capsicum annuum
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GB/T 7714 | Zhang, Xin , Xie, Fei , Zhang, Zhao et al. Hydrogen Evolution and Absorption Phenomena in the Plasma Membrane of Vigna radiata and Capsicum annuum [J]. | JOURNAL OF PLANT GROWTH REGULATION , 2022 , 42 (1) : 249-259 . |
MLA | Zhang, Xin et al. "Hydrogen Evolution and Absorption Phenomena in the Plasma Membrane of Vigna radiata and Capsicum annuum" . | JOURNAL OF PLANT GROWTH REGULATION 42 . 1 (2022) : 249-259 . |
APA | Zhang, Xin , Xie, Fei , Zhang, Zhao , Adzavon, Yao Mawulikplimi , Su, Zehua , Zhao, Qinghui et al. Hydrogen Evolution and Absorption Phenomena in the Plasma Membrane of Vigna radiata and Capsicum annuum . | JOURNAL OF PLANT GROWTH REGULATION , 2022 , 42 (1) , 249-259 . |
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The potential for preventive and therapeutic applications of H-2 have now been confirmed in various disease. However, the effects of H-2 on health status have not been fully elucidated. Our previous study reported changes in the body weight and 13 serum biochemical parameters during the six-month hydrogen intervention. To obtain a more comprehensive understanding of the effects of long-term hydrogen consumption, the plasma metabolome and gut microbiota were investigated in this study. Compared with the control group, 14 and 10 differential metabolites (DMs) were identified in hydrogen-rich water (HRW) and hydrogen inhalation (HI) group, respectively. Pathway enrichment analysis showed that HRW intake mainly affected starch and sucrose metabolism, and DMs in HI group were mainly enriched in arginine biosynthesis. 16S rRNA gene sequencing showed that HRW intake induced significant changes in the structure of gut microbiota, while no marked bacterial community differences was observed in HI group. HRW intake mainly induced significant increase in the abundance of Lactobacillus, Ruminococcus, Clostridium XI, and decrease in Bacteroides. HI mainly induced decreased abundances of Blautia and Paraprevotella. The metabolic function was determined by metabolic cage analysis and showed that HI decreased the voluntary intake and excretions of rats, while HRW intake did not. The results of this study provide basic data for further research on hydrogen medicine. Determination of the effects of hydrogen intervention on microbiota profiles could also shed light on identification of mechanism underlying the biological effects of molecular hydrogen.
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GB/T 7714 | Xie, Fei , Jiang, Xue , Yi, Yang et al. Different effects of hydrogen-rich water intake and hydrogen gas inhalation on gut microbiome and plasma metabolites of rats in health status [J]. | SCIENTIFIC REPORTS , 2022 , 12 (1) . |
MLA | Xie, Fei et al. "Different effects of hydrogen-rich water intake and hydrogen gas inhalation on gut microbiome and plasma metabolites of rats in health status" . | SCIENTIFIC REPORTS 12 . 1 (2022) . |
APA | Xie, Fei , Jiang, Xue , Yi, Yang , Liu, Zi-Jia , Ma, Chen , He, Jin et al. Different effects of hydrogen-rich water intake and hydrogen gas inhalation on gut microbiome and plasma metabolites of rats in health status . | SCIENTIFIC REPORTS , 2022 , 12 (1) . |
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