Risk of Bias Tool in Systematic Reviews/Meta-Analyses of Acupuncture in Chinese Journals

BACKGROUND: Use of a risk of bias (ROB) tool has been encouraged and advocated to reviewers writing systematic reviews (SRs) and meta-analyses (MAs). Selective outcome reporting and other sources of bias are included in the Cochrane ROB tool. It is important to know how this specific tool for assessing ROB has been applied since its release. Our objectives were to evaluate whether and to what extent the new Cochrane ROB tool has been used in Chinese journal papers of acupuncture. METHODS: We searched CBM, TCM database, CJFD, CSJD, and the Wanfang Database from inception to March 2011. Two reviewers independently selected SRs that primarily focused on acupuncture and moxibustion, from which the data was extracted and analyzed. RESULTS: A total of 836 SRs were identified from the search, of which, 105 were included and four are awaiting assessment. Thirty-six of the 105 SRs were published before release of the Cochrane ROB tool (up to 2009). Most used the Cochrane Handbook 4.2 or Jadad's scale for risk or quality assessment. From 2009 to March 2011 69 SRs were identified. While "risk of bias" was reported for approximately two-thirds of SRs, only two SRs mentioned use of a "risk of bias tool" in their assessment. Only 5.8% (4/69) of reviews reported information on all six domains which are involved in the ROB tool. A risk of bias graph/summary figure was provided in 2.9% (2/69) of reviews. Most SRs gave information about sequence generation, allocation concealment, blindness, and incomplete outcome data, however, few reviews (5.8%; 4/69) described selective reporting or other potential sources of bias. CONCLUSIONS: The Cochrane "risk of bias" tool has not been used in all SRs/MAs of acupuncture published in Chinese Journals after 2008. When the ROB tool was used, reporting of relevant information was often incomplete

A protocol of Chinese expert consensuses for the management of health risk in the general public

IntroductionNon-communicable diseases (NCDs) represent the leading cause of mortality and disability worldwide. Robust evidence has demonstrated that modifiable lifestyle factors such as unhealthy diet, smoking, alcohol consumption and physical inactivity are the primary causes of NCDs. Although a series of guidelines for the management of NCDs have been published in China, these guidelines mainly focus on clinical practice targeting clinicians rather than the general population, and the evidence for NCD prevention based on modifiable lifestyle factors has been disorganized. Therefore, comprehensive and evidence-based guidance for the risk management of major NCDs for the general Chinese population is urgently needed. To achieve this overarching aim, we plan to develop a series of expert consensuses covering 15 major NCDs on health risk management for the general Chinese population. The objectives of these consensuses are (1) to identify and recommend suitable risk assessment methods for the Chinese population; and (2) to make recommendations for the prevention of major NCDs by integrating the current best evidence and experts’ opinions.Methods and analysisFor each expert consensus, we will establish a consensus working group comprising 40–50 members. Consensus questions will be formulated by integrating literature reviews, expert opinions, and an online survey. Systematic reviews will be considered as the primary evidence sources. We will conduct new systematic reviews if there are no eligible systematic reviews, the methodological quality is low, or the existing systematic reviews have been published for more than 3 years. We will evaluate the quality of evidence and make recommendations according to the GRADE approach. The consensuses will be reported according to the Reporting Items for Practice Guidelines in Healthcare (RIGHT)

Application of surface–downhole combined microseismic monitoring technology in the Fuling shale gas field and its enlightenment

The Fuling shale gas field in the Sichuan Basin, as a national shale gas demonstration area, is the largest commercially developed shale gas field in the world except those in North America. The fracturing technology in the mode of “well factory” has been applied widely in the gas field, but it is necessary to perform further investigation on the way to evaluate effectively the fracturing effect of multi-well platform “well factory” and the distribution laws of its induced fracture networks. In this paper, the fractures induced by the “well factory” at the JY 48 platform were real-time monitored by a surface–downhole combined microseismic monitoring technology. The geometric size and extension direction of artificial fractures induced in the model of “well factory” fracturing in the Jiaoshiba block of Fuling Shale Gas Field were preliminarily understood. Moreover, the fracturing parameters under the mode of “well factory” were recognized by using the comprehensive interpretation results of surface–downhole combined microseismic monitoring technology, together with the SRV fracturing prediction chart. Eventually, the distribution laws of artificial fractures during the “well-factory-zipper” fracturing in the Fuling Shale Gas Field were clarified definitely. This paper provides guidance for the optimization of fracturing parameters at the later stage

Clinical Features of Herpes Simplex Encephalitis and Risk Factors for Post-Encephalitic Epilepsy in Children

Abstract Objective Herpes simplex encephalitis (HSE) is a common form of sporadic encephalitis and is prone to neurological sequelae such as epilepsy in young children, which can have a significant impact on young children at the time of neurological development. This study aimed to analyze the clinical features of HSE in children and to explore its risk factors for post-encephalitic epilepsy (PE). Methods The case data of children who met the HSE diagnostic criteria between January 2013 and June 2021 at the First Affiliated Hospital of Zhengzhou University were retrospectively analyzed. Results The incidence of PE in children with HSE was 42.2% (19/45cases). The initial symptoms were fever with headache or convulsions. In the acute phase, there were 13 cases (28.9%) with psychiatric behavior disorders, 16 cases (35.6%) with neurological deficit symptoms, and 24 cases (53.3%) with altered consciousness. Univariate analysis of fever duration, fever peak, psychiatric behavior disorders, neurological deficit symptoms, acute phase seizures and seizure frequency, ICU length of stay, admission GCS, and cranial imaging in children with HSE indicated statistically significant mixed involvement (all P < 0.05), and multivariate logistic regression analysis suggested that repetitive seizures (more than 5 seizures) (OR = 1.551;95% CI 1.229–1.958, P < 0.001) in the acute phase was an independent risk factor for the occurrence of PE. Conclusion The main symptoms in children with HSE in the acute phase include seizures, altered consciousness, neurological deficit symptoms, and psychiatric behavioral abnormalities. Children with HSE has a high incidence of PE, especially if they have repetitive seizures (more than 5 seizures) in the acute phase

Simulation and Experimental Research on a Beam Homogenization System of a Semiconductor Laser

Aiming at the application of laser active imaging detection technology, this paper studied the beam homogenization system of a semiconductor laser based on a homogenizing pipe. Firstly, the principle of the homogenizing pipe was introduced. Secondly, the homogenization effect, which was influenced by several geometric parameters (aperture size, length, and taper) of the homogenizing pipe using the optical design software, was simulated for the fiber-coupled semiconductor laser. Finally, according to the simulated results, a laser illumination system composed of a fiber-coupled semiconductor laser, a homogenizing pipe, and an aspheric lens was designed, which can obtain a rectangular uniform light spot in a long distance. The effectiveness of the illumination system was verified by simulation and experiment, respectively. Simulation results suggested that the uniformity of the spot at a distance of 20 m was 85.6%, while divergence angle was 10 mrad. The uniformity of the spot at a distance of 120 m was 91.5%, while divergence angle was 10 mrad. Experimental results showed that the uniformity of the spot at a distance of 20 m was 87.7%, while divergence angle was 13 mrad. The uniformity of the spot at a distance of 120 m was 93.3%, while divergence angle was 15 mrad. The laser illumination system designed in this paper was simple and easy to assemble, and has strong practicability. The results in this paper have certain reference value and guiding significance for the homogenization design of semiconductor lasers

Effect of the Cationic Block Structure on the Characteristics of Sludge Flocs Formed by Charge Neutralization and Patching

In this study, a template copolymer (TPAA) of (3-Acrylamidopropyl) trimethylammonium chloride (AATPAC) and acrylamide (AM) was successfully synthesized though ultrasonic-initiated template copolymerization (UTP), using sodium polyacrylate (PAAS) as a template. TPAA was characterized by an evident cationic microblock structure which was observed through the analyses of the reactivity ratio, Fourier transform infrared spectroscopy (FTIR), 1H (13C) nuclear magnetic resonance spectroscopy (1H (13C) NMR), and thermogravimetry/differential scanning calorimetry (TG/DSC). The introduction of the template could improve the monomer (AATPAC) reactivity ratio and increase the length and amount of AATPAC segments. This novel cationic microblock structure extremely enhanced the ability of charge neutralization, patching, and bridging, thus improving the activated sludge flocculation performance. The experiments of floc formation, breakage, and regrowth revealed that the cationic microblock structure in the copolymer resulted in large and compact flocs, and these flocs had a rapid regrowth when broken. Finally, the larger and more compact flocs contributed to the formation of more channels and voids, and therefore the specific resistance to filtration (SRF) reached a minimum

Soil Microbial Co-Occurrence Patterns under Controlled-Release Urea and Fulvic Acid Applications

The increasing amount of agricultural applications of controlled-release urea (CRU) and fulvic acids (FA) demands a better understanding of FA’s effects on microbially mediated nitrogen (N) nutrient cycling. Herein, a 0–60 day laboratory experiment and a consecutive pot experiment (2016–2018) were carried out to reveal the effects of using CRU on soil microbial N-cycling processes and soil fertility, with and without the application of FA. Compared to the CRU treatment, the CRU+FA treatment boosted wheat yield by 22.1%. To reveal the mechanism of CRU+FA affecting the soil fertility, soil nutrient supply and microbial community were assessed and contrasted in this research. From 0–60 days, compared with the CRU treatment, leaching NO3−-N content of CRU+FA was dramatically decreased by 12.7–84.2% in the 20 cm depth of soil column. Different fertilizers and the day of fertilization both have an impact on the soil microbiota. The most dominant bacterial phyla Actinobacteria and Proteobacteria were increased with CRU+FA treatment during 0–60 days. Network analysis revealed that microbial co-occurrence grew more intensive during the CRU+FA treatment, and the environmental change enhanced the microbial community. The CRU+FA treatment, in particular, significantly decreased the relative abundance of Sphingomonas, Lysobacter and Nitrospira associated with nitrification reactions, Nocardioides and Gaiella related to denitrification reactions. Meanwhile, the CRU+FA treatment grew the relative abundance of Ensifer, Blastococcus, and Pseudolabrys that function in N fixation, and then could reduce NH4+-N and NO3−-N leaching and improve the soil nutrient supply. In conclusion, the synergistic effects of slow nutrition release of CRU and growth promoting of FA could improve the soil microbial community of N cycle, reduce the loss of nutrients, and increase the wheat yield

Research of mobile recommendation system based on hybrid recommendation technology

Conference Name:2013 3rd International Conference on Consumer Electronics, Communications and Networks, CECNet 2013. Conference Address: Xianning, China. Time:November 20, 2013 - November 22, 2013.The invention and wide use of the network satisfy the information needs of a large number of users, but introduce the problem of information overload. Intelligent recommendation system is an effective way to solve the information overload and has developed for many years on the PC side. In the context of the vigorous development of mobile communication, this paper raises the prospective that integrating the mobile technology into recommendation system to build a mobile intelligent recommendation model, and takes the social activities for example to realize the model. ? 2013 IEEE

Ceram. Int.

We developed a one-step hydrothermal strategy to fabricate Co3O4@NiCo2O4 core-shell arrays on Ni foam. With this method, the ultralong NiCo2O4 nanowires were self-assembled on the Co3O4 nanowire arrays on Ni foam comfortably. Moreover, the eletrochemical properties of the hybird eletrodes were elucidated by cyclic voltammograms, galvanostatic charge/discharge tests and eletrochemical impedance spectroscopy in 2 M KOH electrolyte. The results exhibited a specific capacitance of 672 F g(-1) and excellent cycling stability (97.1% retention after 3000 cycles). The excellent electrochemical performance made the hybrid a promising electrode material for electrochemical capacitors. (C) 2014 Elsevier Ltd and Techna Group S.r.l. All rights reserved.We developed a one-step hydrothermal strategy to fabricate Co3O4@NiCo2O4 core-shell arrays on Ni foam. With this method, the ultralong NiCo2O4 nanowires were self-assembled on the Co3O4 nanowire arrays on Ni foam comfortably. Moreover, the eletrochemical properties of the hybird eletrodes were elucidated by cyclic voltammograms, galvanostatic charge/discharge tests and eletrochemical impedance spectroscopy in 2 M KOH electrolyte. The results exhibited a specific capacitance of 672 F g(-1) and excellent cycling stability (97.1% retention after 3000 cycles). The excellent electrochemical performance made the hybrid a promising electrode material for electrochemical capacitors. (C) 2014 Elsevier Ltd and Techna Group S.r.l. All rights reserved