Your search keyword '"Shaolin Chen"' showing total 293 results

1. Ketogenic diet in treating sepsis-related acquired weakness: is it friend or foe?

Author

Yanmei Miao, Leiyu Xie, Shaolin Chen, Xiaoming Zhang, Wenjie Liu, and Peng Xie

Subjects

gut microbiota, ICU-acquired weakness, ketone bodies, ketogenic diet, sepsis-related acquired weakness, Nutrition. Foods and food supply, TX341-641

Abstract

BackgroundSepsis is the body’s extreme response to an infection leading to organ dysfunction. Sepsis-related acquired weakness (SAW), a critical illness closely related to metabolic disorders, is characterized by generalized sepsis-induced skeletal muscle weakness, mainly manifesting as symmetrical atrophy of respiratory and limb muscles. Muscle accounts for 40% of the body’s total mass and is one of the major sites of glucose and energy absorption. Diet affects skeletal muscle metabolism, which further impacts physiology and signaling pathways. The ketogenic diet (KD) is a high-fat, low-carbohydrate diet that has shown benefits in patients with a variety of neuromuscular disorders. Patients with SAW are in a hypermetabolic state and can consume approximately 1% of total body muscle mass in a day. Due to the decreased total body energy expenditure secondary to starvation, skeletal muscles enter a low metabolic state, with reduced gluconeogenesis and protein consumption and elevated levels of ketone bodies. The latest research suggests that KD may be a new strategy for SAW prevention and treatment, but its mechanism is still unclear.ObjectiveOur article aims to explore the effect and mechanism of KD on SAW. And we hope that our review will inspire further research on the KD and foster the exploration of novel strategies for combating SAW.MethodsSearch medical databases and related academic websites, using keywords such as “Sepsis-related acquired weakness,” “ketogenic diet,” and “skeletal muscle,” and select representative literature. Using the method of induction and summary, analyze the effect and mechanism of KD on SAW.ResultsCompared with early nutrition, KD has a more protective effect on SAW, but its mechanism is complex. Firstly, KD can alter energy metabolism substrates to affect SAW’s energy metabolism; Secondly, KD can directly act as a signaling molecule to improve mitochondrial function in skeletal muscle and stimulate skeletal muscle regeneration signaling molecules; Thirdly, KD can affect the gut microbiota to exert anti-inflammatory effects, enhance immunity, and thus protect SAW.ConclusionKD has a protective effect on SAW, which includes improving energy metabolism, stimulating muscle regeneration signals, optimizing gut microbiota composition, and reducing inflammation and oxidative stress.

Published

2024

2. Effectiveness and Feasibility of Digital Pulmonary Rehabilitation in Patients Undergoing Lung Cancer Surgery: Systematic Review and Meta-Analysis

Author

Taiping Lu, Ting Deng, Yangyang Long, Jin Li, Anmei Hu, Yufan Hu, Li Ouyang, Huiping Wang, Junliang Ma, Shaolin Chen, and Jiale Hu

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270

Abstract

BackgroundPulmonary rehabilitation (PR) has been shown to effectively support postsurgical recovery in patients with lung cancer (LC) at various stages. While digital PR programs offer a potential solution to traditional challenges, such as time and space constraints, their efficacy and feasibility for patients undergoing LC surgery remain unclear. ObjectiveThis systematic review aims to assess the feasibility and effectiveness of digital PR programs for individuals undergoing LC surgery. MethodsA systematic review was conducted, retrieving data from 6 English and 4 Chinese databases from their inception to January 1, 2024. References in related studies were also manually reviewed. The primary outcomes assessed were physical capacity, lung function, and the incidence of postoperative pulmonary complications (PPCs). The secondary outcomes were compliance, hospital stay, chest tube duration, anxiety, depression, and quality of life. Where applicable, recruitment and withdrawal rates were also evaluated. Meta-analysis and descriptive analysis were used to assess the outcomes. ResultsA total of 5 randomized controlled trials and 6 quasi-experimental studies (n=1063) were included, with 4 studies being included in the meta-analyses. Our meta-analyses revealed that digital PR reduced the decline in 6-minute walk distance (6-MWD) by an average of 15 m compared with routine PR programs from admission to discharge, demonstrating a clinically significant improvement in physical capacity (mean difference –15.00, 95% CI –25.65 to –4.34, P=.006). Additionally, digital PR was associated with a reduction (26/58, 45%) in the likelihood of PPCs (risk ratio 0.45, 95% CI 0.30-0.66, P

Published

2024

3. A scoping review of preclinical intensive care unit-acquired weakness models

Author

Qingmei Yu, Jiamei Song, Luying Yang, Yanmei Miao, Leiyu Xie, Xinglong Ma, Peng Xie, and Shaolin Chen

Subjects

intensive care unit-acquired weakness, animal model, muscle weakness, muscle atrophy, scoping review, Physiology, QP1-981

Abstract

BackgroundAnimal models focusing on neuromuscular outcomes are crucial for understanding the mechanisms of intensive care unit-acquired weakness (ICU-AW) and exploring potential innovative prevention and treatment strategies.AimTo analyse and evaluate preclinical ICU-AW models.MethodsWe manually searched five English and four Chinese databases from 1 January 2002, to 1 February 2024, and reviewed related study references. Full-text publications describing animal models of muscle weakness and atrophy in critical illness were included. Detailed information about model types, animal species, sex, age, induction methods, outcome measures, drawbacks and strengths was extracted from each included study.ResultsA total of 3,451 citations were initially retrieved, with 84 studies included in the final analysis. The most frequently studied animal model included rodents (86.9%), 64.3% of which were male animals. ICU-AW animal models were mostly induced by comprehensive intensive care unit (ICU) interventions (38.1%) and sepsis (51.2%). Most studies focused on limb muscles (66.7%), diaphragm muscles (21.4%) or both (9.5%). Reported outcomes primarily included muscular pathological changes (83.3%), electrophysiological examinations of muscles (57.1%) and animal grip strength (16.6%). However, details such as animal age, mortality data, experimental design, randomisation, blinding, sample size and interventions for the experimental group and/or control group were inadequately reported.ConclusionMany preclinical models are used to study ICU-AW, but the reporting of methodological details is often incomplete. Although current ICU animal models can mimic the characteristics of human ICU-AW, there is no standard model. Future preclinical studies should develop a standard ICU-AW animal model to enhance reproducibility and improve scientific rigor in exploring the mechanisms and potential treatment of ICU-AW.

Published

2024

4. The effect of incentive spirometry in perioperative patients with lung cancer—a systematic review and meta-analysis

Author

Yan Liang, Shaolin Chen, Jiamei Song, Ting Deng, Jinfen Yang, Yangyang Long, Lorna Kwai Ping Suen, and Xu Luo

Subjects

Incentive spirometry, Pulmonary rehabilitation, Lung cancer, Perioperative, Meta-analysis, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Incentive spirometry (IS) as a routine respiratory therapy during the perioperative period has been widely used in clinical practice. However, the impact of IS on patients with perioperative lung cancer remains controversial. This review aimed to evaluate the efficacy of IS in perioperative pulmonary rehabilitation for patients with lung cancer. Methods Cochrane Library, PubMed, Web of Science, Ovid, CINAHL, Chinese National Knowledge Infrastructure, Weipu, and Wanfang Databases were searched from inception to 30 November 2023. Only randomized controlled trials were included in this systematic review. The PRISMA checklist served as the guidance for conducting this review. The quality assessment of the included studies was assessed by the Cochrane risk-of-bias tool. The meta-analysis was carried out utilizing Review Manager 5.4. Furthermore, sensitivity analysis and subgroup analysis were also performed. Results Nine studies recruited 1209 patients met our inclusion criteria. IS combined with other respiratory therapy techniques was observed to reduce the incidence of postoperative pulmonary complications, enhance pulmonary function, curtail the length of hospital stay, and lower the Borg score. Nevertheless, no improvements were found in the six-minute walk distance or quality of life score. Conclusions Although IS demonstrates benefits as a component of comprehensive intervention measures for perioperative patients with lung cancer, it proves challenging to determine the precise impact of IS as a standalone component within the comprehensive intervention measures. Therefore, further researches are required to better understand the effectiveness of IS isolation and its interactions when integrated with additional respiratory therapies for these patients. Clinical trial registration PROSPERO, https://www.crd.york.ac.uk/prospero/ , registry number: CRD42022321044.

Published

2024

5. Lignin bioconversion based on genome mining for ligninolytic genes in Erwinia billingiae QL-Z3

Author

Shuting Zhao, Dongtao Deng, Tianzheng Wan, Jie Feng, Lei Deng, Qianyi Tian, Jiayu Wang, Umm E. Aiman, Balym Mukhaddi, Xiaofeng Hu, Shaolin Chen, Ling Qiu, Lili Huang, and Yahong Wei

Subjects

Biomass utilization, Ligninolytic gene, Genetic modification, Lignin degradation product, Degradation mechanism, Biotechnology, TP248.13-248.65, Fuel, TP315-360

Abstract

Abstract Background Bioconversion of plant biomass into biofuels and bio-products produces large amounts of lignin. The aromatic biopolymers need to be degraded before being converted into value-added bio-products. Microbes can be environment-friendly and efficiently degrade lignin. Compared to fungi, bacteria have some advantages in lignin degradation, including broad tolerance to pH, temperature, and oxygen and the toolkit for genetic manipulation. Results Our previous study isolated a novel ligninolytic bacterial strain Erwinia billingiae QL-Z3. Under optimized conditions, its rate of lignin degradation was 25.24% at 1.5 g/L lignin as the sole carbon source. Whole genome sequencing revealed 4556 genes in the genome of QL-Z3. Among 4428 protein-coding genes are 139 CAZyme genes, including 54 glycoside hydrolase (GH) and 16 auxiliary activity (AA) genes. In addition, 74 genes encoding extracellular enzymes are potentially involved in lignin degradation. Real-time PCR quantification demonstrated that the expression of potential ligninolytic genes were significantly induced by lignin. 8 knock-out mutants and complementary strains were constructed. Disruption of the gene for ELAC_205 (laccase) as well as EDYP_48 (Dyp-type peroxidase), ESOD_1236 (superoxide dismutase), EDIO_858 (dioxygenase), EMON_3330 (monooxygenase), or EMCAT_3587 (manganese catalase) significantly reduced the lignin-degrading activity of QL-Z3 by 47–69%. Heterologously expressed and purified enzymes further confirmed their role in lignin degradation. Fourier transform infrared spectroscopy (FTIR) results indicated that the lignin structure was damaged, the benzene ring structure and groups of macromolecules were opened, and the chemical bond was broken under the action of six enzymes encoded by genes. The abundant enzymatic metabolic products by EDYP_48, ELAC_205 and ESOD_1236 were systematically analyzed via liquid chromatography–mass spectrometry (LC–MS) analysis, and then provide a speculative pathway for lignin biodegradation. Finally, The activities of ligninolytic enzymes from fermentation supernatant, namely, LiP, MnP and Lac were 367.50 U/L, 839.50 U/L, and 219.00 U/L by orthogonal optimization. Conclusions Our findings provide that QL-Z3 and its enzymes have the potential for industrial application and hold great promise for the bioconversion of lignin into bioproducts in lignin valorization.

Published

2024

6. Incidence and risk factors of pulmonary complications after lung cancer surgery: A systematic review and meta-analysis

Author

Ting Deng, Jiamei Song, Jinmei Tuo, Yu Wang, Jin Li, Lorna Kwai Ping Suen, Yan Liang, Junliang Ma, and Shaolin Chen

Subjects

Lung cancer, Thoracic surgery, Postoperative pulmonary complications, Risk factors, Meta-analysis, Systematic review, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Postoperative pulmonary complications (PPCs) are associated with high mortality rates after lung cancer surgery. Although some studies have discussed the different risk factors for PPCs, the relationship between these factors and their impact on PPCs remains unclear. Hence, this study aimed to systematically summarize the incidence and determine the risk factors for PPCs.We conducted a systematic search of five English and four Chinese databases from their inception to April 1, 2023. A total of 34 articles (8 cohort studies and 26 case-control studies) (n = 31696, 5833 with PPCs) were included in the analysis. The primary outcome was the incidence of PPC. The secondary outcome was the odds ratio (OR) of PPCs based on the identified risk factors calculated by RevMan 5.4. A narrative descriptive summary of the study results was presented when pooling the results or conducting a meta-analysis was not possible.The pooled incidence of PPCs was 18.4 %. This meta-analysis demonstrated that TNM staging (OR 4.29, 95 % CI 2.59–7.13), chronic obstructive pulmonary disease (COPD) (OR 2.47, 95 % CI 1.80–3.40), smoking history (OR 2.37, 95 % CI 1.33–4.21), poor compliance with respiratory rehabilitation (OR 1.64, 95 % CI 1.17–2.30), male sex (OR 1.62, 95 % CI 1.28–2.04), diabetes (OR 1.56, 95 % CI 1.07–2.27), intraoperative bleeding volume (OR 1.44, 95 % CI 1.02–2.04), Eastern Cooperative Oncology Group score (ECOG) > 1 (OR 1.37, 95 % CI 1.04–1.80), history of chemotherapy and/or radiotherapy (OR 1.32, 95 % CI 1.03–1.70), older age (OR 1.18, 95 % CI 1.11–1.24), and duration of surgery (OR 1.07, 95 % CI 1.04–1.10) were significantly associated with a higher risk of PPCs. In contrast, the peak expiratory flow rate (PEF) (OR 0.99, 95 % CI 0.98–0.99) was a protective factor. Clinicians should implement targeted and effective interventions to prevent the occurrence of PPCs.

Published

2024

7. Service Life Evaluation of Curved Intercity Rail Bridges Based on Fatigue Failure

Author

Hongwei Zhang, Shaolin Chen, Wei Zhang, and Xiang Liu

Subjects

train–bridge coupled system, curved bridge, cumulative damage, resonance, fatigue life, Technology

Abstract

There are curved bridge structures in the intercity rail line. During the operation of bridges, they are subjected to train loads, resulting in stress amplitudes of the construction materials; during operation, when the train interval is short, the fatigue performance of the bridge should be emphasized. Unlike straight bridges, when a train travels on a curved bridge, it tends to move in the original direction, which undoubtedly causes the train to deviate from the track. Therefore, it is necessary to set the track deflection to limit this movement trend, which will also impart radial forces on the track structure, and the reaction force of this force is called centripetal force. Under the action of centripetal force, the train generates a virtual force called centrifugal force. The material stress amplitude caused by centrifugal force and the vertical force both need to be considered. Therefore, a curved train–bridge coupled system was established to simulate the dynamic stress of the train passing through a curved bridge, and the stress amplitude and cycle number of the dynamic stress time–history curve were analyzed based on the rain-flow method. The cumulative damage of the bridge under different curve radii, different train speeds, different lengths of span, and different operation interval times was analyzed, and the fatigue life was calculated. The results show that the influence of centrifugal force at a small curve radius cannot be ignored. In addition, the cumulative damage and service life are greatly affected by the train speed and bridge span; especially when the train speed is close to the resonance speed, the service life is significantly reduced. Finally, the recommended values for the train passing speed for curved bridges with different spans are given. It was suggested that the design speed of a curved bridge with a span of 25 m, 30 m, and 35 m should be set in the range of 70 to 106 km/h, 78 to 86 km/h, and about 75 km/h, respectively.

Published

2024

8. The possible mechanisms of ferroptosis in sepsis-associated acquired weakness

Author

Jun Yang, Caihong Yan, Shaolin Chen, Min Li, Yanmei Miao, Xinglong Ma, Junfa Zeng, and Peng Xie

Subjects

sepsis-associated acquired weakness, ferroptosis, iron, lipid metabolic disorders, Sxc−, p53, Physiology, QP1-981

Abstract

Sepsis is a life-threatening organ dysfunction caused by a dysregulated host response to infection, and its morbidity and mortality rates are increasing annually. It is an independent risk factor for intensive care unit-acquired weakness (ICU-AW), which is a common complication of patients in ICU. This situation is also known as sepsis-associated acquired weakness (SAW), and it can be a complication in more than 60% of patients with sepsis. The outcomes of SAW are often prolonged mechanical ventilation, extended hospital stays, and increased morbidity and mortality of patients in ICUs. The pathogenesis of SAW is unclear, and an effective clinical treatment is not available. Ferroptosis is an iron-dependent type of cell death with unique morphological, biochemical, and genetic features. Unlike other forms of cell death such as autophagy, apoptosis, and necrosis, ferroptosis is primarily driven by lipid peroxidation. Cells undergo ferroptosis during sepsis, which further enhances the inflammatory response. This process leads to increased cell death, as well as multi-organ dysfunction and failure. Recently, there have been sporadic reports suggesting that SAW is associated with ferroptosis, but the exact pathophysiological mechanisms remain unclear. Therefore, we reviewed the possible pathogenesis of ferroptosis that leads to SAW and offer new strategies to prevent and treat SAW.

Published

2024

9. Unraveling the causes of sarcopenia: Roles of neuromuscular junction impairment and mitochondrial dysfunction

Author

Yanmei Miao, Leiyu Xie, Jiamei Song, Xing Cai, Jinghe Yang, Xinglong Ma, Shaolin Chen, and Peng Xie

Subjects

mitochondrion, neuromuscular junction, Sarcopenia, Physiology, QP1-981

Abstract

Abstract Sarcopenia is a systemic skeletal muscle disease characterized by a decline in skeletal muscle mass and function. Originally defined as an age‐associated condition, sarcopenia presently also encompasses muscular atrophy due to various pathological factors, such as intensive care unit‐acquired weakness, inactivity, and malnutrition. The exact pathogenesis of sarcopenia is still unknown; herein, we review the pathological roles of the neuromuscular junction and mitochondria in this condition. Sarcopenia is caused by complex and interdependent pathophysiological mechanisms, including aging, neuromuscular junction impairment, mitochondrial dysfunction, insulin resistance, lipotoxicity, endocrine factors, oxidative stress, and inflammation. Among these, neuromuscular junction instability and mitochondrial dysfunction are particularly significant. Dysfunction in neuromuscular junction can lead to muscle weakness or paralysis. Mitochondria, which are plentiful in neurons and muscle fibers, play an important role in neuromuscular junction transmission. Therefore, impairments in both mitochondria and neuromuscular junction may be one of the key pathophysiological mechanisms leading to sarcopenia. Moreover, this article explores the structural and functional alterations in the neuromuscular junction and mitochondria in sarcopenia, suggesting that a deeper understanding of these changes could provide valuable insights for the prevention or treatment of sarcopenia.

Published

2024

10. The development of a new crop growth model SwitchFor for yield mapping of switchgrass

Author

Yanmei Liu, Astley Hastings, Shaolin Chen, and Andre Faaij

Subjects

bio‐energy, biomass production, genotype‐by‐environment interaction, genotype‐specific plant growth model, marginal land, SwitchFor model, Renewable energy sources, TJ807-830, Energy industries. Energy policy. Fuel trade, HD9502-9502.5

Abstract

Abstract Switchgrass is a promising energy crop has the potential to mitigate global warming and energy security, improve local ecology and generate profit. Its quantitative traits, such as biomass productivity and environmental adaptability, are determined by genotype‐by‐environment interaction (GEI) or response of genotypes grown across different target environments. To simulate the yield of switchgrass outside its original habitat, a genotype‐specific growth model, SwitchFor that captures GEI was developed by parameterising the MiscanFor model. Input parameters were used to describe genotype‐specific characteristics under different soil and climate conditions, which enables the model to predict the yield in a wide range of environmental and climate conditions. The model was validated using global field trail data and applied to estimate the switchgrass yield potentials on the marginal land of the Loess Plateau in China. The results suggest that upland and lowland switchgrass have significant differences in the spatial distribution of the adaptation zone and site‐specific biomass yield. The area of the adaption zone of upland switchgrass was 4.5 times of the lowland ecotype's. The yield difference between upland and lowland ecotypes ranges from 0 to 34 Mg ha−1. The weighted average yield of the lowland ecotype (20 Mg ha−1) is significantly higher than the upland type (5 Mg ha−1). The optimal yield map, generated by comparing the yield of upland and lowland ecotypes based on 1 km2 grid locations, illustrates that the total yield potential of the optimal switchgrass is 61.6–106.4 Tg on the marginal land of the Loess Plateau, which is approximately twice that of the individual ecotypes. Compared with the existing models, the accuracy of the yield prediction of switchgrass is significantly improved by using the SwitchFor model. This spatially explicit and cultivar‐specific model provides valuable information on land management and crop breeding and a robust and extendable framework for yield mapping of other cultivars.

Published

2022

11. Biomass, bioenergy, and biomass‐based economy in semi‐arid regions

Author

Shaolin Chen

Subjects

biofuels, biomass, biomass‐based economy, bio‐products, crop improvement, filamentous fungi, Renewable energy sources, TJ807-830, Energy industries. Energy policy. Fuel trade, HD9502-9502.5

Published

2023

12. Engine performance improvements through turbocharger matching and turbine design

Author

Shaolin Chen, Chaochen Ma, Hong Zhang, Cheng Xu, Fen Lei, Tao Feng, Gang Cao, Hanqin Yang, and Chongfan Wei

Subjects

engine performance, engine simulation, turbine design, turbocharger wheel diameter ratio, Technology, Science

Abstract

Abstract It is interesting to improve engine system performance with turbocharger technologies. In this study, a systematic simulation for engine and turbocharger matching to provide full utilization of the turbocharger potential and improve the engine performance without sacrificing the emission is developed. A velocity ratio concept was proposed to count the turbocharger performance impacts due to the diameter ratio of compressor and turbine wheels. A design of experiments was used to optimize the turbocharger and engine performance for different turbocharger factors. A better‐matched turbocharger was obtained. A multidisciplinary optimization method was used to design a mixed flow turbine wheel to reduce the turbine velocity ratio at peak efficiency and increase the overall turbocharger efficiency. Results showed that about 0.4% torque improvements and 1.2% reductions in the engine brake‐specific fuel consumption were obtained without making any other changes to the engine. This study demonstrated that systematic simulations for engine systems and considering turbocharger wheel diameter ratio effects could further improve the turbocharged engine system matching and the engine performance.

Published

2022

13. Detection of Fatigue Cracks for Concrete Structures by Using Carbon Ink-Based Conductive Skin and Electrical Resistance Tomography

Author

Chenning Cai, Shaolin Chen, and Lina Liu

Subjects

crack detection, concrete structure, electrical resistance tomography, conductive sensing skin, carbon ink, Chemical technology, TP1-1185

Abstract

Concrete is among the most widely used structural materials in buildings and bridges all over the world. During their service life, concrete structures may inevitably display cracks due to long-term fatigue loads, leading to the degradation of structural integrity. Thus, it is very important to detect cracks and their growth in concrete structures using an automated structural health monitoring system. In this paper, experimental research on crack detection and imaging of concrete structures by using sensing skin and electrical resistance tomography (ERT) is presented. Carbon ink is screen-printed on the surface of concrete as a conductive material to form sensing skins. With these sensing skins, when cracks occur on or near the surface, it breaks the continuity of the sensing skins and significantly reduces conductivity in cracking areas. Then, after exciting small currents in sensing skins and measuring related voltage data, an inverse analysis based on total variation (TV) regularization is adopted to reconstruct tomographic images showing conductivity changes in sensing skins, to detect the occurrence and growth of cracks. The effectiveness of conductive sensing skins and our related crack detection method is validated in experimental studies on a concrete beam subjected to fatigue tests.

Published

2023

14. A Spatially Explicit Evaluation of the Economic Performance of a Perennial Energy Crop on the Marginal Land of the Loess Plateau and China

Author

Yanmei Liu, Astley Hastings, Shaolin Chen, and André Faaij

Subjects

economic performance, farm-gate feedstock production cost, energy supply, switchgrass, marginal land, biomass, Technology

Abstract

The Loess Plateau, with a large area of marginal land, holds the potential to produce 62–106 Tg per year of switchgrass biomass; however, the economic feasibility of producing bioenergy in the region is unclear. The farm-gate feedstock production (FGFP) cost of switchgrass was calculated in a spatially explicit way by taking the geographic variation in crop yield, soil properties, land quality, and input costs into consideration in order to evaluate the economic performance of bioenergy production. Cost–supply curves were constructed to explore the energy supply potential of switchgrass feedstock. The calculations were conducted using ArcGIS in a 1 km grid and all the evaluations were conducted under different agricultural management practice (AMP) scenarios in parallel. The FGFP costs showed significant spatial variation ranging from 95 to 7373 CNY (Chinese Yuan) per tonne−1 and that the most economically desirable areas are scattered in the south and southeast region. The weighted average FGFP costs are 710, 1125, and 1596 CNY per tonne−1 for small bale (SB), large bale (LB), and chipping (CP) harvest methods, respectively. The projected energy supply potential is 1927 PJ (Petajoules) per year−1, of which 30–93% can be supplied below the market prices of different fossil fuels according to feedstock formats. Compared to current biomass residual pricing, 50–66 Tg (Teragrams) switchgrass feedstock is competitive. The results demonstrated that the Loess Plateau holds the potential to produce bioenergy that is economically feasible. This study provides a methodological framework for spatially explicit evaluation of the economic performance of perennial energy crops. Detailed information obtained from this study can be used to select the optimal locations and AMPs to produce feedstock production at minimum cost.

Published

2023

15. Evaluating the suitability of marginal land for a perennial energy crop on the Loess Plateau of China

Author

Yanmei Liu, Shaolin Chen, Moritz vonCossel, Bingcheng Xu, Huanlin Gao, Rui Jiang, and Andre Faaij

Subjects

biomass production, fuzzy‐theory‐based models, land suitability, Loess Plateau, marginal land, perennial crops, Renewable energy sources, TJ807-830, Energy industries. Energy policy. Fuel trade, HD9502-9502.5

Abstract

Abstract With a large marginal land area, the Loess Plateau in China holds great potential for biomass production and environmental improvement. Identifying suitable locations for biomass production on marginal land is important for decision‐makers from the viewpoint of land‐use planning. However, there is limited information on the suitability of marginal land within the Loess Plateau for biomass production. Therefore, this study aims to evaluate the suitability of the promising perennial energy crop switchgrass (Panicum virgatum L.) on marginal land across the Loess Plateau. A fuzzy logical model was developed and validated based on field trials on the Loess Plateau and applied to the marginal land of this region, owing to its ability of dealing with the continuous nature of soil, landscape variations, and uncertainties of the input data. This study identified that approximately 12.8–20.8 Mha of the Loess Plateau as available marginal land, of which 2.8–4.7 Mha is theoretically suitable for switchgrass cultivation. These parts of the total marginal land are mainly distributed in northeast and southwest of the Loess Plateau. The potential yield of switchgrass ranges between 44 and 77 Tg. This study showed that switchgrass can grow on a large proportion of the marginal land of the Loess Plateau and therefore offers great potential for biomass provision. The spatial suitability maps produced in this study provide information to farmers and policymakers to enable a more sustainable development of biomass production on the Loess Plateau. In addition, the fuzzy‐theory‐based model developed in this study provided a good framework for evaluating the suitability of marginal land.

Published

2021

16. Parallel proteomic and phosphoproteomic analyses reveal cellobiose‐dependent regulation of lignocellulase secretion in the filamentous fungus Neurospora crassa

Author

Bentao Xiong, Linfang Wei, Yifan Wang, Jinyu Li, Xin Liu, Yunheng Zhou, Panpan Du, Hao Fang, Johannes Liesche, Yahong Wei, Jisheng Li, and Shaolin Chen

Subjects

cellobiose, cellulose, filamentous fungi, lignocellulase, Neurospora crassa, phosphoproteomics, Renewable energy sources, TJ807-830, Energy industries. Energy policy. Fuel trade, HD9502-9502.5

Abstract

Abstract High cost of lignocellulases restricts the commercialization of biofuel and bio‐product production from lignocellulosic biomass. Constitutively expressed lignocellulases are considered to degrade cellulose to release small amount of soluble cellodextrins such as cellobiose for further large‐scale production of lignocellulases; however, the underlying mechanism remains to be elucidated. Here, a triple β‐glucosidase mutant of the model fungus Neurospora crassa, which prevents rapid turnover of cellobiose and thus allows the disaccharide to induce lignocellulases, was applied to perform parallel analyses of proteome and phosphoproteome changes in response to cellobiose and Avicel cellulose. The results revealed shared proteome and phosphoproteome responses to cellobiose and Avicel, corroborating the idea that cellobiose mediates the regulation of lignocellulase expression and secretion. The results further suggest that this regulation is achieved at multiple levels, including epigenetic, transcription, post‐transcription, translation, and post‐translation. Proteome profiling revealed that the proteins upregulated by cellobiose and Avicel were over‐represented in cellulose degradation and degradation product transport pathways. Phosphoproteome profiling revealed that the proteins differentially phosphorylated by cellobiose and Avicel were over‐represented by the pathways such as transcriptional control, protein processing and export, cell wall biogenesis, and cellular signaling. Deletion mutation analysis further suggests that the ER chaperon protein Hsp70‐6, the translocation complex subunit Sec66/Sec71, and the signal peptidase subunit Spc2 are involved in lignocellulase secretion, particularly translocation across the endoplasmic reticulum. Altogether, the results offer a new insight into how cellobiose mediates the regulation of lignocellulase expression and secretion, providing a potential strategy for the strain engineering to improve lignocellulase production.

Published

2021

17. When east meets west: a qualitative study of barriers and facilitators to evidence-based practice in Hunan China

Author

Wendy Gifford, Qing Zhang, Shaolin Chen, Barbara Davies, Rihua Xie, Shi-Wu Wen, and Gillian Harvey

Subjects

Qualitative study, Evidence-based practice, Barriers, Facilitators, China, Nursing, RT1-120

Abstract

Abstract Background Research into evidence-based practice has been extensively explored in nursing and there is strong recognition that the organizational context influences implementation. A range of barriers has been identified; however, the research has predominantly taken place in Western cultures, and there is little information about factors that influence evidence-based practice in China. The purpose of this study was to explore barriers and facilitators to evidence-based practice in Hunan province, a less developed region in China. Methods A descriptive qualitative methodology was employed. Semi-structured interviews were conducted with staff nurses, head nurses and directors (n = 13). Interviews were translated into English and verified for accuracy by two bilingual researchers. Both Chinese and English data were simultaneously analyzed for themes related to factors related to the evidence to be implemented (Innovation), nurses’ attitudes and beliefs (Potential Adopters), and the organizational setting (Practice Environment). Results Barriers included lack of available evidence in Chinese, nurses’ lack of understanding of what evidence-based practice means, and fear that patients will be angry about receiving care that is perceived as non-traditional. Nurses believed evidence-based practice was to be used when clinical problems arose, and not as a routine way to practice. Facilitators included leadership support and the pervasiveness of web based social network services such as Baidu (百度) for easy access to information. Conclusion While several parallels to previous research were found, our study adds to the knowledge base about factors related to evidence-based practice in different contextual settings. Findings are important for international comparisons to develop strategies for nurses to provide evidence-based care.

Published

2018

18. Comparative Analysis of Herbaceous and Woody Cell Wall Digestibility by Pathogenic Fungi

Author

Yanhua Dou, Yan Yang, Nitesh Kumar Mund, Yanping Wei, Yisong Liu, Linfang Wei, Yifan Wang, Panpan Du, Yunheng Zhou, Johannes Liesche, Lili Huang, Hao Fang, Chen Zhao, Jisheng Li, Yahong Wei, and Shaolin Chen

Subjects

cellulose, hemicelluloses, lignin, apple tree branch, wheat straw, rapeseed straw, Organic chemistry, QD241-441

Abstract

Fungal pathogens have evolved combinations of plant cell-wall-degrading enzymes (PCWDEs) to deconstruct host plant cell walls (PCWs). An understanding of this process is hoped to create a basis for improving plant biomass conversion efficiency into sustainable biofuels and bioproducts. Here, an approach integrating enzyme activity assay, biomass pretreatment, field emission scanning electron microscopy (FESEM), and genomic analysis of PCWDEs were applied to examine digestibility or degradability of selected woody and herbaceous biomass by pathogenic fungi. Preferred hydrolysis of apple tree branch, rapeseed straw, or wheat straw were observed by the apple-tree-specific pathogen Valsa mali, the rapeseed pathogen Sclerotinia sclerotiorum, and the wheat pathogen Rhizoctonia cerealis, respectively. Delignification by peracetic acid (PAA) pretreatment increased PCW digestibility, and the increase was generally more profound with non-host than host PCW substrates. Hemicellulase pretreatment slightly reduced or had no effect on hemicellulose content in the PCW substrates tested; however, the pretreatment significantly changed hydrolytic preferences of the selected pathogens, indicating a role of hemicellulose branching in PCW digestibility. Cellulose organization appears to also impact digestibility of host PCWs, as reflected by differences in cellulose microfibril organization in woody and herbaceous PCWs and variation in cellulose-binding domain organization in cellulases of pathogenic fungi, which is known to influence enzyme access to cellulose. Taken together, this study highlighted the importance of chemical structure of both hemicelluloses and cellulose in host PCW digestibility by fungal pathogens.

Published

2021

19. Screening and Characterization of Two Extracellular Polysaccharide-Producing Bacteria from the Biocrust of the Mu Us Desert

Author

Zhanfang Xue, Shuting Zhao, Nomin Bold, Jianguo Zhang, Zhimin Hu, Xiaofeng Hu, Ying Gao, Shaolin Chen, and Yahong Wei

Subjects

extracellular polysaccharide, Mu Us Desert, biocrust, bacterial polyphase classification, Organic chemistry, QD241-441

Abstract

The extracellular polysaccharide (EPS) matrix embedding microbial cells and soil particles plays an important role in the development of biological soil crusts (BSCs), which is widely recognized as beneficial to soil fertility in dryland worldwide. This study examined the EPS-producing bacterial strains YL24-1 and YL24-3 isolated from sandy soil in the Mu Us Desert in Yulin, Shaanxi province, China. The strains YL24-1 and YL24-3 were able to efficiently produce EPS; the levels of EPS were determined to be 257.22 μg/mL and 83.41 μg/mL in cultures grown for 72 h and were identified as Sinorhizobium meliloti and Pedobacter sp., respectively. When the strain YL24-3 was compared to Pedobacter yulinensis YL28-9T using 16S rRNA gene sequencing, the resemblance was 98.6% and the strain was classified as Pedobacter sp. using physiological and biochemical analysis. Furthermore, strain YL24-3 was also identified as a subspecies of Pedobacter yulinensis YL28-9T on the basis of DNA–DNA hybridization and polar lipid analysis compared with YL28-9T. On the basis of the EPS-related genes of relevant strains in the GenBank, several EPS-related genes were cloned and sequenced in the strain YL24-1, including those potentially involved in EPS synthesis, assembly, transport, and secretion. Given the differences of the strains in EPS production, it is possible that the differences in gene sequences result in variations in the enzyme/protein activities for EPS biosynthesis, assembly, transport, and secretion. The results provide preliminary evidence of various contributions of bacterial strains to the formation of EPS matrix in the Mu Us Desert.

Published

2021

20. Enhanced photorefractive properties of indium co-doped LiNbO3:Mo crystals

Author

Ling Zhu, Dahuai Zheng, Hongde Liu, Shahzad Saeed, Shuolin Wang, Shiguo Liu, Shaolin Chen, Yongfa Kong, and Jingjun Xu

Subjects

Physics, QC1-999

Abstract

We grew a set of indium and molybdenum co-doped lithium niobate crystals with various indium doping concentrations and investigated their photorefractive properties at different wavelengths (442, 488 and 532 nm). It was found that the diffraction efficiency of 1.0 mol% indium and 0.5 mol% molybdenum co-doped lithium niobate crystal could reach 61.57% at 488 nm. Moreover for 3.0 mol% indium and 0.5 mol% molybdenum co-doped lithium niobate crystal, the response time was greatly shortened to 0.61, 0.76, and 0.74 s at 442, 488, and 532 nm, respectively, while the photorefractive sensitivity reached as high as 7.35 cm/J at 442 nm. These results indicate that co-doping of indium is an efficient way to further enhance the photorefractive properties of molybdenum-doped lithium niobate crystal.

Published

2018

21. Knowledge of 'Guidelines for the prevention of intravascular catheter-related infections (2011)': A survey of intensive care unit nursing staffs in China

Author

Shaolin Chen, Jun Yao, Jianhua Chen, Lijuan Liu, Aifeng Miu, Yulan Jiang, Jie Zhu, Siyuan Tang, and Yuxiang Chen

Subjects

Guidelines, Evidence-based guidelines, Intravascular catheter-related infections, Nurses' knowledge, Intensive care unit, Prevention, Nursing, RT1-120

Abstract

Aims and objectives: To evaluate intensive care unit (ICU) nurses' knowledge of the updated guidelines for the prevention of intravascular catheter-related infections; to identify the factors that affect the nurses' knowledge and to explore the barriers to adherence to evidence-based guidelines in clinical practice in China. Methods: Cross-sectional surveys were carried out in Chinese ICUs from January 2013 to March 2014. The nurses' demographic information, knowledge of the guidelines, and barriers to adherence were assessed by a validated questionnaire and then analyzed statistically. Results: The questionnaires were completed by 455 ICU nurses from 4 provinces of China. The mean score was 8.17 of 20, and higher scores were significantly associated with province, years of experience, and years of ICU experience. Forty-nine (10.7%) nurses had not heard of the guidelines, whereas 231 (50.7%) nurses heard of the guidelines but did not receive training for them. Trained nurses' scores were higher than untrained nurses' scores. The three main barriers to compliance with the guidelines were an unfamiliarity with them, an excessive workload due to a shortage of nurses, and a lack of training. Conclusions: ICU nurses' knowledge of the updated guidelines is quite low, which could be a potential risk factor for patient safety. Multidisciplinary interventions and continuous educational programs are needed to improve the knowledge of and adherence to the guidelines.

Published

2015

22. The Photorefractive Response of Zn and Mo Codoped LiNbO3 in the Visible Region

Author

Liyun Xue, Hongde Liu, Dahuai Zheng, Shahzad Saeed, Xuying Wang, Tian Tian, Ling Zhu, Yongfa Kong, Shiguo Liu, Shaolin Chen, Ling Zhang, and Jingjun Xu

Subjects

lithium niobate, optical storage materials, photorefractive materials, Crystallography, QD901-999

Abstract

We mainly investigated the effect of the valence state of photorefractive resistant elements on the photorefractive properties of codoped crystals, taking the Zn and Mo codoped LiNbO3 (LN:Mo,Zn) crystal as an example. Especially, the response time and photorefractive sensitivity of 7.2 mol% Zn and 0.5 mol% Mo codoped with LiNbO3 (LN:Mo,Zn7.2) crystal are 0.65 s and 4.35 cm/J at 442 nm, respectively. The photorefractive properties of the LN:Mo,Zn crystal are similar to the Mg and Mo codoped LiNbO3 crystal, which are better than the Zr and Mo codoped LiNbO3 crystal. The results show that the valence state of photorefractive resistant ions is an important factor for the photorefractive properties of codoped crystals and that the LN:Mo,Zn7.2 crystal is another potential material with fast response to holographic storage.

Published

2019

23. Photorefractive Properties of Molybdenum and Hafnium Co-Doped LiNbO3 Crystals

Author

Ling Zhu, Dahuai Zheng, Shahzad Saeed, Shuolin Wang, Hongde Liu, Yongfa Kong, Shiguo Liu, Shaolin Chen, Ling Zhang, and Jingjun Xu

Subjects

LiNbO3 crystal, molybdenum and hafnium co-doping, photorefractive properties, Crystallography, QD901-999

Abstract

A series of LiNbO3: Mo, Hf crystals with 0.5 mol % fixed MoO3 and various HfO2 concentrations (0.0, 2.0, and 3.5 mol %) were grown by the Czochralski technique. The photorefractive properties of the LiNbO3: Mo, Hf crystals were investigated by two-wave coupling measurements and the beam distortion method was employed to obtain the optical damage resistance ability. The UV-visible and OH− absorption spectra were also studied. The experimental results imply that the photorefractive properties of LiNbO3: Mo crystals at laser wavelengths of 532, 488, and 442 nm can be greatly enhanced by doping HfO2 over the threshold concentration. At 442 nm especially, the response time of LN: Mo, Hf3.5 can be shortened to 0.9 s with a diffraction efficiency of 46.07% and a photorefractive sensitivity reaching 6.28 cm/J. Besides this, the optical damage resistance at 532 nm is 3 orders of magnitude higher than that of the mono-doped LiNbO3: Mo crystal, which is beneficial for applying it in the field of high-intensity lasers.

Published

2018

24. The photorefractive characteristics of bismuth-oxide doped lithium niobate crystals

Author

Dahuai Zheng, Yongfa Kong, Shiguo Liu, Jiaying Yao, Ling Zhang, Shaolin Chen, and Jingjun Xu

Subjects

Physics, QC1-999

Abstract

Bismuth-doped lithium niobate (LN:Bi) crystals were grown by Czochralski method and their optical damage resistance, photorefraction, absorption spectra, and defect energy levels were investigated. The experimental results indicate that the photorefractive properties of LN:Bi were enhanced as compared with congruent one, the photorefractive response time was greatly shortened, the photorefractive sensitivity was increased, and the diffraction efficiency of near-stoichiometric LN:Bi (SLN:Bi) reached 31.72% and 49.08% at 532 nm and 488 nm laser, respectively (light intensity of 400 mW/cm2). An absorption peak at about 350 nm was observed in the absorption spectrum of LN:Bi. And the defect energy levels simulation indicates new defect levels appear in the forbidden gap of LN:Bi crystals. Therefore bismuth can act as photorefractive centers in LN crystals.

Published

2015

25. Improvement in the Photorefractive Response Speed and Mechanism of Pure Congruent Lithium Niobate Crystals by Increasing the Polarization Current

Author

Tian Tian, Xiaodong Yan, Yongfa Kong, Hongde Liu, Dahuai Zheng, Shiguo Liu, Shaolin Chen, Jingjun Xu, and Jiayue Xu

Subjects

lithium niobate, photorefractive response speed, polarization, real-time 3D dynamic holographic display, Crystallography, QD901-999

Abstract

A series of pure congruent lithium niobate (LiNbO3, CLN) crystals were grown and directly polarized under different electric currents in the growth furnace. Their holographic properties were investigated from the ultraviolet to the visible range. The response time shortened, whereas the diffraction efficiency increased incrementally with the electric current. In particular, the response time of CLN polarized under 100 mA can be reduced by a factor of 10 with a still high saturation diffraction efficiency of about 40.8% at 351 nm. Moreover, its response speed improved by 60 times and 10 times for 473 and 532 nm laser, respectively. The light erasing behavior implies that at least two kinds of photorefractive centers exist in the crystals. Increasing the polarization current induces two pronounced UV absorption peaks and a wide visible absorption peak in CLN crystals. The diffusion effect dominates the photorefractive process and electrons are the dominant carriers. The possible mechanism for the fast photorefractive response is discussed. Increasing the polarization electric current is an effective method to improve the photorefractive response of LN crystal.

Published

2017

26. Growth, structure, thermal properties and spectroscopic characteristics of Nd3+-doped KGdP4O12 crystal.

Author

Tongqing Sun, Yu Zhang, Pai Shan, Zichang Zhang, Shaolin Chen, Yongfa Kong, and Jingjun Xu

Subjects

Medicine, Science

Abstract

A single crystal of Nd3+-doped KGdP4O12 was successfully grown with the top-seeded solution growth and slow cooling (TSSG-SC) technique. It crystallizes in space group C2/c with cell parameters a = 7.812(2) Å, b = 12.307(3) Å, c = 10.474(2) Å, β = 110.84(3)° and Z = 4. The IR and Raman spectra also indicated that the phosphoric polyhedra of Nd:KGdP4O12 has a cyclic symmetry. The chemical composition of the crystal was analyzed and the distribution coefficient of Nd3+ was calculated. The crystal morphology of KGdP4O12 was identified using X-ray diffraction. The compound has good thermal stability to 920°C. Its specific heat and thermal conductivity were determined for potential applications. The spectral properties of Nd:KGdP4O12 indicates that it exhibits broad absorption and emission bands, which are attributed to low symmetry of the crystal. The broad absorption band around 798 nm has a full-width at half-maximum (FWHM) of 14.8 nm and is suitable for AlGaAs laser diode pumping. Moreover, 5 at% Nd3+-doped KGdP4O12 crystal has a long luminescence lifetime of 300 μs and a high quantum efficiency of 96%.

Published

2014

27. Weighted lipschitz continuity, Schwarz–Pick's lemma and Landau–Bloch's theorem for hyperbolic-harmonic mappings in ℂn

Author

Shaolin Chen, Saminathan Ponnusamy, and Xiantao Wang

Subjects

hyperbolic-harmonic function, Bloch space, Landau–Bloch's theorem, Schwarz–Pick's lemma, Mathematics, QA1-939

Abstract

In this paper, we discuss some properties on hyperbolic-harmonic functions in the unit ball of ℂ n . First, we investigate the relationship between the weighted Lipschitz functions and the hyperbolic-harmonic Bloch spaces. Then we establish the Schwarz–Pick type theorem for hyperbolic-harmonic functions and apply it to prove the existence of Landau-Bloch constant for functions in α-Bloch spaces.

Published

2013

28. Investigation on p-type lithium niobate crystals

Author

Zidong Pei, Qian Hu, Yongfa Kong, Shiguo Liu, Shaolin Chen, and Jingjun Xu

Subjects

Physics, QC1-999

Abstract

Till now it is difficult to obtain a p-type lithium niobate crystal. Here the carrier types in various doped and oxidized LiNbO3 crystals have been investigated by holographic technique. The experimental results show tetravalent ions (Zr4+ and Hf4+) with doping concentrations just above optical damage resistant thresholds is helpful to increase the concentration of holes. And 3.0 mol% ZrO2 doped LiNbO3 can be used as a p-type crystal. The dominant carrier of iron doped LiNbO3 crystal can be changed to holes when treated by thermo-electric oxidization. Then the possible mechanism on how to obtain a p-type LiNbO3 was discussed.

Published

2011

29. CNN oriented fast HEVC intra CU mode decision.

Author

Zhenyu Liu 0001, Xianyu Yu, Shaolin Chen, and Dongsheng Wang 0002

Published

2016

30. A Spatially Explicit Evaluation of the Economic Performance of a Perennial Energy Crop on the Marginal Land of the Loess Plateau and China

Author

Faaij, Yanmei Liu, Astley Hastings, Shaolin Chen, and André

Subjects

economic performance, farm-gate feedstock production cost, energy supply, switchgrass, marginal land, biomass

Abstract

The Loess Plateau, with a large area of marginal land, holds the potential to produce 62–106 Tg per year of switchgrass biomass; however, the economic feasibility of producing bioenergy in the region is unclear. The farm-gate feedstock production (FGFP) cost of switchgrass was calculated in a spatially explicit way by taking the geographic variation in crop yield, soil properties, land quality, and input costs into consideration in order to evaluate the economic performance of bioenergy production. Cost–supply curves were constructed to explore the energy supply potential of switchgrass feedstock. The calculations were conducted using ArcGIS in a 1 km grid and all the evaluations were conducted under different agricultural management practice (AMP) scenarios in parallel. The FGFP costs showed significant spatial variation ranging from 95 to 7373 CNY (Chinese Yuan) per tonne−1 and that the most economically desirable areas are scattered in the south and southeast region. The weighted average FGFP costs are 710, 1125, and 1596 CNY per tonne−1 for small bale (SB), large bale (LB), and chipping (CP) harvest methods, respectively. The projected energy supply potential is 1927 PJ (Petajoules) per year−1, of which 30–93% can be supplied below the market prices of different fossil fuels according to feedstock formats. Compared to current biomass residual pricing, 50–66 Tg (Teragrams) switchgrass feedstock is competitive. The results demonstrated that the Loess Plateau holds the potential to produce bioenergy that is economically feasible. This study provides a methodological framework for spatially explicit evaluation of the economic performance of perennial energy crops. Detailed information obtained from this study can be used to select the optimal locations and AMPs to produce feedstock production at minimum cost.

Published

2023

31. Torsion in symmetric buildings due to soil‐structure interaction: A discussion on code values of accidental eccentricity factor in seismic design

Author

Jia Fu and Shaolin Chen

Subjects

Earth and Planetary Sciences (miscellaneous), Geotechnical Engineering and Engineering Geology, Civil and Structural Engineering

Published

2022

32. Application Value of Emergency Bedside Echocardiography in Early Warning of Acute and Severe Shock and Clinical Classification

Author

Juan Ye, Yan Lin, and Shaolin Chen

Subjects

Article Subject, General Immunology and Microbiology, Echocardiography, Case-Control Studies, Respiration, Applied Mathematics, Modeling and Simulation, Humans, Vena Cava, Inferior, Prospective Studies, General Medicine, General Biochemistry, Genetics and Molecular Biology, Ultrasonography

Abstract

Objective. A case-control study was conducted to explore the application value of emergency bedside echocardiography in early warning of acute and severe shock and clinical classification. Methods. A total of 135 critically ill patients admitted to ICU from August 2019 to November 2020 were divided into shock group ( n = 53 ) and nonshock group ( n = 82 ) according to the occurrence of shock. The internal diameter index of inferior vena cava was measured and recorded by bedside ultrasound in patients with shock before and after treatment and in patients without shock. Shock index and inferior vena cava diameter deformation index (SCI) were calculated according to the results. The diagnostic time and curative effect of different ultrasonic examination methods for the types of shock were compared and analyzed. Results. At admission, the maximum and minimum ventilation of inferior vena cava in patients without shock were higher than those in the shock group, and the internal diameter deformation index of inferior vena cava in the shock group was higher than that in the shock group ( P < 0.05 ). In the shock group, IVCmax and IVCmin before and after treatment were higher than those before resuscitation, while SCI was lower than that before resuscitation. The results of ROC curve analysis showed that SCI and IVCmin were significantly better than IVCmax and IVCmin in predicting shock area and slightly better than IVCmin. There was significant difference in diagnosis time between the two groups ( P < 0.05 ). The specificity, positive predictive value, and negative predictive value of emergency ultrasound diagnosis were lower than those of clinical diagnosis ( P < 0.05 ). The sensitivity, specificity, positive predictive value, and negative predictive value of emergency ultrasound diagnosis were lower than those of clinical diagnosis ( P < 0.05 ). The sensitivity and positive predictive value of the emergency ultrasound group were higher than those of the routine ultrasound group ( P < 0.05 ). The diagnosis rate of shock type AUC in the emergency ultrasound group was 0.854, and the diagnostic value was high. Conclusion. IVCmax, IVCmin, and SCI obtained by bedside ultrasound have certain clinical significance for the diagnosis and treatment of shock. Emergency bedside ultrasound examination and measurement of shock patients are helpful to quickly evaluate and identify the types of early shock.

Published

2022

33. Seismic response characteristics of nuclear island structure at generic soil and rock sites

Author

Hao Lv and Shaolin Chen

Subjects

Mechanical Engineering, Building and Construction, Geotechnical Engineering and Engineering Geology, Civil and Structural Engineering

Published

2023

34. Harmonic Lipschitz Type Spaces and Composition Operators Meet Majorants

Author

Shaolin Chen and Hidetaka Hamada

Subjects

Geometry and Topology

Published

2023

35. CU Partition Mode Decision for HEVC Hardwired Intra Encoder Using Convolution Neural Network.

Author

Zhenyu Liu 0001, Xianyu Yu, Yuan Gao, Shaolin Chen, Xiangyang Ji, and Dongsheng Wang 0002

Published

2016

36. Biomass, bioenergy, and biomass‐based economy in semi‐arid regions

Author

Shaolin Chen

Subjects

Renewable Energy, Sustainability and the Environment, Forestry, Waste Management and Disposal, Agronomy and Crop Science

Published

2022

37. Partitioned analysis of soil‐structure interaction for Nuclear Island Buildings

Author

Shaolin Chen, Hao Lv, and Guoliang Zhou

Subjects

Earth and Planetary Sciences (miscellaneous), Geotechnical Engineering and Engineering Geology, Civil and Structural Engineering

Published

2022

38. Parallel partitioned method of seismic response analysis for seawater-seabed-bridge system

Author

Jie Sun, Baokui Chen, Bo Wang, Dongsheng Wang, and Shaolin Chen

Subjects

Computer Networks and Communications, Control and Systems Engineering

Published

2022

39. Unified framework based parallel FEM code for simulating marine seismoacoustic scattering

Author

Jirong, Shen, primary, Shaolin, Chen, additional, Jiao, Zhang, additional, and Puxin, Cai, additional

Published

2023

40. Denoising of hyperspectral imagery using a spatial-spectral domain mixing prior.

Author

Shaolin Chen, Xiyuan Hu, and Silong Peng

Published

2012

41. Numerical investigation on the compressor for gas-entraining diffuser EGR

Author

Fei Zhu, Chaochen Ma, Zhihui Wang, Pengxiao Wang, and Shaolin Chen

Subjects

Mechanical Engineering, Aerospace Engineering

Abstract

Exhaust Gas Recirculation (EGR) is an effective way to reduce nitrogen oxide (NO x) emissions, and the EGR application increases the engine backpressure to some extent. In this paper, a new EGR method named gas-entraining diffuser EGR was proposed to reduce pumping loss. It introduces the exhaust gas into the compressor diffuser inlet where the static pressure is the lowest without blades fouled by exhaust gas. As a result, lower pressure at the turbine upstream can achieve EGR. Then, a newly designed induced structure not only introduces exhaust gas into the compressor diffuser but also reduces the energy loss caused by EGR application. Furthermore, the performance of compressor with different induced angles of the induced structure was investigated using simulation method. Results showed that the compressor’s adiabatic efficiency was the best when the induced angle was 20°. Regarding the induced angle of 20°, the adiabatic efficiency drop of compressor was in the range of 0.8%–12%. Approximately 10% of the adiabatic efficiency drop was caused by the induced structure, the other was mainly from the flow loss and mixing loss in diffuser system. The induced structure mainly affected the static pressure difference between induced structure inlet and impeller outlet ([Formula: see text]). When the impeller mass flow was 0.23 kg/s, [Formula: see text] was 11.21, 13.95, 15.59, 17.18 kPa respectively with corresponding induced angles of 20°, 30°, 40°, 50°. The primary energy loss leading to the adiabatic efficiency drop of compressor with induced structure occurred in diffuser system. It was caused by the mixing process of induced gas and impeller exit gas, and the enhanced effect from the shroud side’s impeller jet-wake and volute tongue.

Published

2021

42. Rapid Prediction of Strong Ground Motions from Major Earthquakes: An Example in the Wudu Basin, Sichuan, China

Author

Xiaolong Zhang, Xiaojun Li, Zhan Dou, Xiaobo Peng, Chong Xu, Xiangli He, and Shaolin Chen

Subjects

Geophysics, Geochemistry and Petrology, Structural basin, China, Seismology, Geology, Wudu

Abstract

Rapid prediction of ground motions of major earthquakes can assist emergency response and postseismic damage assessment. Numerical simulations can perform such prediction. However, they need a large number of calculations based on real data and depend on large-scale computation resources, limiting practice of real-time prediction. To solve this problem, this article proposes a new prediction method based on a 3D transfer function, which is obtained by solving the site seismic response to three impulse function excitations that can be calculated by different pre-event 3D physics-based numerical simulations. This approach only needs one seismic record in the study area and can quickly (near-real time) predict ground motions in the whole study area. We verify the proposed approach with an Mw 5.7 aftershock of the 2008 Mw 7.9 Wenchuan earthquake in the Wudu basin, Sichuan Province, China. The results show that this method is feasible and has sufficient accuracy in nearly real-time prediction of seismic ground motions.

Published

2021

43. Preoperative bowel preparation promotes intestinal functional recovery after esophagectomy.

Author

Junliang Ma, Shaolin Chen, Xiaoying Ren, Hao Han, Ming Gong, Yongxiang Song, and Lijuan Liu

Published

2023

44. Remarks on ‘Norm Estimates of the Partial Derivatives for Harmonic Mappings and Harmonic Quasiregular Mappings’

Author

Saminathan Ponnusamy, Shaolin Chen, and Xiantao Wang

Subjects

010102 general mathematics, Poisson kernel, Harmonic (mathematics), Absolute continuity, Hardy space, 01 natural sciences, Unit disk, Combinatorics, symbols.namesake, Unit circle, Differential geometry, Norm (mathematics), 0103 physical sciences, symbols, 010307 mathematical physics, Geometry and Topology, 0101 mathematics, Mathematics

Abstract

Let $$f = P[F]$$ denote the Poisson integral of F in the unit disk $${\mathbb {D}}$$ with F being absolutely continuous in the unit circle $${\mathbb {T}}$$ and $${\dot{F}}\in L^{p}({\mathbb {T}})$$ , where $${\dot{F}}(e^{it})=\frac{d}{dt} F(e^{it})$$ and $$p\ge 1$$ . Recently, the author in Zhu (J Geom Anal, 2020) proved that (1) if f is a harmonic mapping and $$1\le p< 2$$ , then $$f_{z}$$ and $$\overline{f_{{\overline{z}}}}\in \mathcal {B}^{p}({\mathbb {D}}),$$ the classical Bergman spaces of $${\mathbb {D}}$$ [12, Theorem 1.2]; (2) if f is a harmonic quasiregular mapping and $$1\le p\le \infty $$ , then $$f_{z},$$ $$\overline{f_{{\overline{z}}}}\in \mathcal {H}^{p}({\mathbb {D}}),$$ the classical Hardy spaces of $${\mathbb {D}}$$ [12, Theorem 1.3]. These are the main results in Zhu (J Geom Anal, 2020). The purpose of this paper is to generalize these two results. First, we prove that, under the same assumptions, [12, Theorem 1.2] is true when $$1\le p< \infty $$ . Also, we show that [12, Theorem 1.2] is not true when $$p=\infty $$ . Second, we demonstrate that [12, Theorem 1.3] still holds true when the assumption f being a harmonic quasiregular mapping is replaced by the weaker one f being a harmonic elliptic mapping.

Published

2021

45. High FN1 expression is associated with poor survival in esophageal squamous cell carcinoma

Author

Junliang Ma, Shaolin Chen, Min Su, and Wenxiang Wang

Subjects

General Medicine

Published

2023

46. Calculation of Emission Factors of the Northwest Regional Grid Based on Linear Support Vector Machines

Author

Yu Peng, Ting Chong, Xiaoye Zhang, Shaolin Chen, and Gang Xie

Subjects

History, Computer Science Applications, Education

Abstract

Machine learning can perform correlation analysis on a large amount of data and explore their relationship. Thus, the status quo can be analyzed, and the values of specific power industry indicators can be predicted in the future. This paper deduced the industry indicators that affect the grid emission factor by analyzing the grid emission factor algorithm. The study used the support vector machine regression algorithm to model and analyze collected power grid data and discussed the regression effect from five main aspects, including RMSE, MSE, MAE, coefficient and running time. Finally the most fitted regression model parameters were obtained. And the optimal model predicted the emission factors of the Northwest power grid.

Published

2023

47. Lighting Estimation of a Convex Lambertian Object Using Redundant Spherical Harmonic Frames.

Author

Wen-Yong Zhao, Shaolin Chen, Yuan Zheng 0002, and Silong Peng

Published

2013

48. Genome-Wide Analysis of C2H2 Zinc Finger Gene Family and Its Response to Cold and Drought Stress in Sorghum [Sorghum bicolor (L.) Moench]

Author

Huiying Cui, Jiaqi Chen, Mengjiao Liu, Hongzhi Zhang, Shuangxi Zhang, Dan Liu, and Shaolin Chen

Subjects

Inorganic Chemistry, Organic Chemistry, fungi, food and beverages, General Medicine, Physical and Theoretical Chemistry, C2H2, sorghum, gene family, phylogenetic analysis, stress responses, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

C2H2 zinc finger protein (C2H2-ZFP) is one of the most important transcription factor families in higher plants. In this study, a total of 145 C2H2-ZFPs was identified in Sorghum bicolor and randomly distributed on 10 chromosomes. Based on the phylogenetic tree, these zinc finger gene family members were divided into 11 clades, and the gene structure and motif composition of SbC2H2-ZFPs in the same clade were similar. SbC2H2-ZFP members located in the same clade contained similar intron/exon and motif patterns. Thirty-three tandem duplicated SbC2H2-ZFPs and 24 pairs of segmental duplicated genes were identified. Moreover, synteny analysis showed that sorghum had more collinear regions with monocotyledonous plants such as maize and rice than did dicotyledons such as soybean and Arabidopsis. Furthermore, we used quantitative RT-PCR (qRT-PCR) to analyze the expression of C2H2-ZFPs in different organs and demonstrated that the genes responded to cold and drought. For example, Sobic.008G088842 might be activated by cold but is inhibited in drought in the stems and leaves. This work not only revealed an important expanded C2H2-ZFP gene family in Sorghum bicolor but also provides a research basis for determining the role of C2H2-ZFPs in sorghum development and abiotic stress resistance.

Published

2022

49. An Optimized Approach for Pansharpening Very High Resolution Multispectral Images.

Author

Zhiqiang Zhou, Silong Peng, Bo Wang 0013, Zhihui Hao, and Shaolin Chen

Published

2012

50. Hyperspectral Imagery Denoising Using a Spatial-Spectral Domain Mixing Prior.

Author

Shaolin Chen, Xiyuan Hu, and Silong Peng

Published

2012