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AbstractEngaging with reflections on improper urban vocabularies, this article proposes a translational turn to foreground dialogues—rather than equivalences—between languages. Drawing on the philosophies of language and hermeneutics, I adopt 'the fusion of horizons' as an alternative perspective to redefine translation where different languages encounter each other. To better capture global urban experiences, we should recognise the role of translation that exposes us to strangeness and alterity. This point is elaborated with heterogeneous names of the urban frontier, which inform us how and how far appropriating gaps/distances can initiate creative and unexpected dialogues for more global urban studies.

Introduction to Geophysical Exploration Technologies for Lithological and Stratigraphic Reservoirs -- Sequence Stratigraphic Research Technology -- Seismic Coherence Technique -- Visualization and Spectral Decomposition -- Seismic Attribute Analysis -- Seismic Inversion Techniques -- Prestack Seismic Inversion and Seismic Attribute Analysis -- Hydrocarbon Detection Technology -- Hydrocarbon Reservoir Logging Evaluation Methods and Technologies -- Applicable Scope, Advantages, and Disadvantages of Major Software Packages. - Authored by one of the world's hydrocarbon exploration experts, Geophysical Exploration Technology: Applications in Lithological and Stratigraphic Reservoirs presents the latest technological advancements and cutting edge techniques in reservoir theory, research and exploration. Stratigraphic and lithological reservoirs play a critical role in increasing the production from oil reserves and new hydrocarbon sources. Recent resource evaluations indicate that onshore stratigraphic and subtle reservoirs account for as much as 40% of the total remaining hydrocarbon sources globall

A new trend has been emerging in China's urban and regional politics, as it is becoming prevalent to extend one municipal authority to another, transcending boundaries, often through the establishment of joint development zones. These newly produced subnational territories are worth further attention to clarify the underlying political dynamics of China's changing state space. This paper examines the Shenzhen–Shanwei Special Cooperation Zone in Guangdong and analyses the political–spatial processes through which a certain area of Shanwei has been transformed into the 'Eastern frontier of Shenzhen'. Looking into the relational power nexus that has also been inflected by trans-scalar and cross-boundary dynamics, as well as its manifestations in urban landscapes, we propose extended local territory as a key analytical concept to explore how and how far the rise of extensive territoriality has been articulated with intensive localities. Empirically, we elaborate on the ways in which the territorial ambition and authority of Shenzhen have been managing to traverse boundaries, while also recognising that Shenzhen's aspiration of materialising its extensive territoriality is challenged by both scalar constraints and the grassroots politics rooted in local history and geography. Addressing the dialectics between the extensive territoriality and intensive locality, we attend to the inter-topological effects and trace the patterns of correlation that are involved in this process, which also turns out to be a critical approach to better understanding changing state spaces in and beyond China.

AbstractAs part of China's endeavour to modernize and internationalize its cities, it has repeatedly eliminated street markets and street vendors. But in the (post‐)pandemic context, regulating street businesses inclusively turned out to be an efficient way to generate jobs that has been widely promoted. This turn reveals a new pattern in China's urban governance that might contribute to rethinking the state–informality nexus. In this article we draw on observations and interviews in Chengdu and on critical discourse analyses of related government documents and news reports to suggest that there is an underlying logic of control that governs the state's new tactics for regulating street businesses. We examine three tactics—performative tactics of regulation, spatial tactics of control and temporal tactics of contingency—to uncover the state's centrality and the tactics it uses to consolidate such centrality in the name of informality. Regarding informality and state centrality as conditions for each other allows us to interrogate both the internal logic of control and its manifestations in everyday statehood. Within the informal constitution of state centrality, everyday negotiations and contestations of spatial claims eventually render the 'ordinary state' a hegemonic locus that shapes urban experiences and politics.

Xi Chen,1 Shizhu Bai,1 Bei Li,2 Huan Liu,1 Guofeng Wu,1 Sha Liu,3 Yimin Zhao1 1State Key Laboratory of Military Stomatology and National Clinical Research Center for Oral Diseases, Shaanxi Key Laboratory of Oral Diseases, Department of Prosthodontics, 2State Key Laboratory of Military Stomatology and National Clinical Research Center for Oral Diseases, Shaanxi Key Laboratory of Oral Diseases, Center for Tissue Engineering, School of Stomatology, 3Department of Plastic and Reconstructive Surgery, Xijing Hospital, The Fourth Military Medical University, Shaanxi, People's Republic of China Introduction: Periodontitis is a chronic infectious disease and is the major cause of tooth loss and other oral health issues around the world. Periodontal tissue regeneration has therefore always been the ultimate goal of dentists and researchers. Existing fabrication methods mainly focused on a top–down tissue engineering strategy in which several drawbacks remain, including low throughput and limited diffusion properties resulting from a large sample size. Gelatin methacrylate (GelMA) is a kind of photocrosslinkable and biocompatible hydrogel, with the capacities of enabling cell encapsulation and regeneration of functional tissues. Here, we developed a novel method to fabricate GelMA/nanohydroxylapatite (nHA) microgel arrays using a photocrosslinkable strategy. The viability, proliferation, and osteogenic differentiation and in vivo osteogenesis of human periodontal ligament stem cells (hPDLSCs) encapsulated in microgels were evaluated. The results suggested that such microgels provide great potential for periodontal tissue repair and regeneration. Methods: Microgel arrays were fabricated by blending different weight ratios of GelMA and nHA. hPDLSCs were encapsulated in GelMA/nHA microgels of various ratios for a systematic evaluation of cell viability, proliferation, and osteogenic differentiation. In vivo osteogenesis in nude mice was also studied. Results: The GelMA/nHA microgels exhibited appropriate microarchitecture, mechanical strength, and surface roughness, thus enabling cell adhesion and proliferation. Additionally, the GelMA/nHA microgels (10%/2% w/v) enhanced the osteogenic differentiation of hPDLSCs by elevating the expression levels of osteogenic biomarker genes, such as ALP, BSP, OCN, and RUNX2. In vivo ectopic transplantation results showed that GelMA/nHA microgels (10%/2% w/v) increased mineralized tissue formation with abundant vascularization, compared with the 1%, 3%, and the pure GelMA group. Conclusion: The GelMA/nHA microgels (10%/2% w/v) facilitated hPDLSCs viability, proliferation, and osteogenic differentiation in vitro and further promoted new bone formation in vivo, suggesting that the GelMA/nHA microgels (10%/2% w/v) provide great potential for periodontal tissue regeneration. Keywords: periodontal ligament stem cells, gelatin methacrylate, nanohydroxyapatite, microgel array, differentiation, periodontal tissue regeneration

Zhongshan Wang,1,* Guangsheng Wu,2,3,* Zhihong Feng,1 Shizhu Bai,1 Yan Dong,1 Guofeng Wu,1 Yimin Zhao1 1State Key Laboratory of Military Stomatology, Department of Prosthetic Dentistry, 2State Key Laboratory of Military Stomatology, Department of Periodontology, School of Stomatology, The Fourth Military Medical University, Xi'an, People's Republic of China; 3Qingdao First Sanatorium, Jinan Military Region, Qingdao, Shandong Province, People's Republic of China *These authors contributed equally to this work Abstract: Dental implants have been widely used for the replacement of missing teeth in the clinic, but further improvements are needed to meet the clinical demands for faster and tighter osseointegration. In this study, we fabricated safe and biocompatible chitosan (CS)/hyaluronic acid (HA) nanoparticles to deliver microRNA-21 (miR-21) and thereby accelerate osteogenesis in human bone marrow mesenchymal stem cells (hBMMSCs). The CS/HA/miR-21 nanoparticles were cross-linked with 0.2% gel solution onto microarc oxidation (MAO)-treated titanium (Ti) surfaces to fabricate the miR-21-functionalized MAO Ti surface, resulting in the development of a novel coating for reverse transfection. To characterize the CS/HA/miR-21 nanoparticles, their particle size, zeta potential, surface morphology, and gel retardation ability were sequentially investigated. Their biological effects, such as cell viability, cytotoxicity, and expression of osteogenic genes by hBMMSCs on the miR-21-functionalized MAO Ti surfaces, were evaluated. Finally, we explored appropriate CS/HA/miR-21 nanoparticles with a CS/HA ratio of 4:1 and N/P ratio 20:1 for transfection, which presented good spherical morphology, an average diameter of 160.4±10.75 nm, and a positive zeta potential. The miR-21-functionalized MAO Ti surfaces demonstrated cell viability, cytotoxicity, and cell spreading comparable to those exhibited by naked MAO Ti surfaces and led to significantly higher expression of osteogenic genes. This novel miR-21-functionalized Ti implant may be used in the clinic to allow more effective and robust osseointegration. Keywords: titanium implants, microarc oxidation, human bone marrow MSCs, microRNA, nanoparticles, osteogenic differentiation

Hongbo Wei*, Shuyi Wu*, Zhihong Feng, Wei Zhou, Yan Dong, Guofeng Wu, Shizhu Bai, Yimin Zhao Department of Prosthodontics, School of Stomatology, Fourth Military Medical University, Xi'an, People's Republic of China *These authors contributed equally to this workAbstract: Infection and epithelial downgrowth are major problems associated with maxillofacial percutaneous implants. These complications are mainly due to the improper closure of the implant–skin interface. Therefore, designing a percutaneous implant that better promotes the formation of a stable soft tissue biologic seal around percutaneous sites is highly desirable. Additionally, the fibroblast has been proven to play an important role in the formation of biologic seals. In this study, titania nanotubes were filled with 11.2 kDa C-terminal CCN2 (connective tissue growth factor) fragment, which could exert full CCN2 activity to increase the biological functionality of fibroblasts. This drug delivery system was fabricated on a titanium implant surface. CCN2 was loaded into anodized titania nanotubes using a simplified lyophilization method and the loading efficiency was approximately 80%. Then, the release kinetics of CCN2 from these nanotubes was investigated. Furthermore, the influence of CCN2-loaded titania nanotubes on fibroblast functionality was examined. The results revealed increased fibroblast adhesion at 0.25, 0.5, 1, 2, 4, and 24 hours, increased fibroblast viability over the course of 5 days, as well as enhanced actin cytoskeleton organization on CCN2-loaded titania nanotubes surfaces compared to uncoated, unmodified counterparts. Therefore, the results from this in vitro study demonstrate that CCN2-loaded titania nanotubes have the ability to increase fibroblast functionality and should be further studied as a method of promoting the formation of a stable soft tissue biologic seal around percutaneous sites.Keywords: anodization, titania nanotubes, adhesion, connective tissue growth factor, fibroblast

Zhongshan Wang,1 Guangsheng Wu,2,3 Mengying Wei,4 Qian Liu,1 Jian Zhou,1 Tian Qin,1 Xiaoke Feng,1 Huan Liu,1 Zhihong Feng,1 Yimin Zhao1 1State Key Laboratory of Military Stomatology & National Clinical Research Center for Oral Diseases & Shaanxi Key Laboratory of Oral Diseases, Department of Prosthodontics, 2State Key Laboratory of Military Stomatology & National Clinical Research Center for Oral Diseases & Shaanxi Engineering Research Center for Dental Materials and Advanced Manufacture, Department of Periodontology, School of Stomatology, The Fourth Military Medical University, Xi'an, 3Qingdao First Sanatorium, Jinan Military Region, Qingdao, Shandong Province, 4Department of Biochemistry and Molecular Biology, The Fourth Military Medical University, Xi'an, People's Republic of China Abstract: Cell sheet engineering has emerged as a novel approach to effectively deliver seeding cells for tissue regeneration, and developing human bone marrow mesenchymal stem cell (hBMMSC) sheets with high osteogenic ability is a constant requirement from clinics for faster and higher-quality bone formation. In this work, we fabricated biocompatible and safe chitosan (CS)/hyaluronic acid (HA) nanoparticles (NPs) to deliver microRNA-21 (miR-21), which has been proved to accelerate osteogenesis in hBMMSCs; then, the CS/HA/miR-21 NPs were cross-linked onto the surfaces of culture plates with 0.2% gel solution to fabricate miR-21-functionalized culture plates for reverse transfection. hBMMSC sheets were induced continuously for 14 days using a vitamin C-rich method on the miR-21-functionalized culture plates. For the characterization of CS/HA/miR-21 NPs, the particle size, zeta potential, surface morphology, and gel retardation were sequentially investigated. Then, the biological effects of hBMMSC sheets on the miR-21-functionalized culture plates were evaluated. The assay results demonstrated that the hBMMSC sheets could be successfully induced via the novel reverse transfection approach, and miR-21 delivery significantly enhanced the in vitro osteogenic differentiation of hBMMSC sheets in terms of upregulating calcification-related gene expression and enhancing alkaline phosphatase production, collagen secretion, and mineralized nodule formation. The enhanced osteogenic activity of hBMMSC sheets might promisingly lead to more rapid and more robust bone regeneration for clinical use. Keywords: human bone marrow MSCs, cell sheets, microRNA, chitosan, nanoparticles, osteogenic differentiation