基于肌肉激活的斜方肌平衡训练对偏瘫肩痛患者上肢运功功能及神经电生理的影响

目的:本研究探讨斜方肌平衡训练对卒中偏瘫后肩痛患者上肢运动功能及神经电生理的影响。方法:选取2021年10月~202 3年11月在广东省第二中医院康复科住院且符合纳入标准的卒中偏瘫后肩痛患者144例,随机分为对照组和观察组各72例。两组患者均采用常规用药及神经发育学治疗,对照组在此基础上采用肩胛带的稳定性训练,观察组在对照组的基础上采用斜方肌平衡训练(侧卧位肩外旋、侧卧位外旋、俯卧位水平外展、俯卧位水平后伸),两组患者训练均30min/次,1次/d,5次/周,连续训练6周;分别在治疗前和治疗6周后,对两组患者分别进行Fugl-Meycr上肢运动功能评分和VAS视觉模拟评分,以及上肢静息运动阈值(rMT)、中枢运动传导时间(CMCT)检测。结果:观察组9例及对照组7例患者因提前出院中途退出被剔除,最终观察组63例,对照组65例。治疗后,两组患者的VAS评分均较治疗前降低(P<0.05),FMA-UE评分均较治疗前升高(P<0.05),且观察组治疗后的VAS评分低于对照组(P<0.05),FMA-UE评分高于对照组(P<0.05)。治疗后,两组患者的rMT和CMCT均较治疗前降低(P<0.05),且观察组治疗后的rMT和CMCT均低于对照组(P<0.05)。结论:在肩胛带的稳定性训练基础上,斜方肌平衡训练能更好的改善偏瘫后肩痛患者的疼痛、运动功能及神经电生理。

Exploring the novel role of oligodendrocyte precursor cells in phagocytosis:beyond myelinogenesis

Roles of oligodendrocyte precursor cells in the central nervous system:Oligodendrocyte precursor cells(OPCs)have long been recognized for their critical role as precursors to oligodendrocytes,the primary myelin-producing cells.As precursors,OPCs mature and differentiate into oligodendrocytes,which contribute significantly to the formation of myelin sheaths around axons.This myelination,which is critical for the conduction of salutatory nerve impulses in the cerebral white matter,underscores the classical role of oligodendrocytes in central nervous system(CNS)functionality.Importantly,because oligodendrocytes are differentiated cells that cannot proliferate.

Like a G6-nal:transcriptional control of G-protein coupled receptors during oligodendroglial development

Multilayered control of myelination:Quick,saltatory conduction of action potentials along nerve fibers requires the electrical insulation of axons by myelinating glia.In the central nervous system,this role is taken up by oligodendrocytes.Oligodendrocytes are marked by the expression of the lineage determinants Sox10 and Olig2 and arise from oligodendrocyte precursor cells(OPCs)during embryonal stages.While the majority of OPCs differentiate into mature oligodendrocytes when nearby axonal segments require myelination,a small subpopulation of OPCs persist as a progenitor pool.Therefore,the timing of myelination and maintenance of the OPC pool both need to be precisely regulated.Different transcription factors either positively or negatively affect oligodendrocyte differentiation and maintenance of the OPC pool as components of a complex gene regulatory network(reviewed in Sock and Wegner,2021).Network activity is additionally influenced by extracellular signaling molecules that bind to receptors on the oligodendroglial cell surface and activate intracellular signaling pathways.How the receptors are linked to the network is poorly understood so far,but pivotal to understanding the overall regulation of central nervous system(CNS)myelination in response to environmental cues.Relevant insights were recently gained for Gpr37(Schmidt et al.,2024),a G-protein coupled receptor(GPCR)with known relevance in differentiating oligodendrocytes(Yang et al,2016).

Advanced Functional Electromagnetic Shielding Materials:A Review Based on Micro‑Nano Structure Interface Control of Biomass Cell Walls

Research efforts on electromagnetic interference(EMI)shielding materials have begun to converge on green and sustainable biomass materials.These materials offer numerous advantages such as being lightweight,porous,and hierarchical.Due to their porous nature,interfacial compatibility,and electrical conductivity,biomass materials hold significant potential as EMI shielding materials.Despite concerted efforts on the EMI shielding of biomass materials have been reported,this research area is still relatively new compared to traditional EMI shielding materials.In particular,a more comprehensive study and summary of the factors influencing biomass EMI shielding materials including the pore structure adjustment,preparation process,and micro-control would be valuable.The preparation methods and characteristics of wood,bamboo,cellulose and lignin in EMI shielding field are critically discussed in this paper,and similar biomass EMI materials are summarized and analyzed.The composite methods and fillers of various biomass materials were reviewed.this paper also highlights the mechanism of EMI shielding as well as existing prospects and challenges for development trends in this field.

Advancements and Challenges in Organic–Inorganic Composite Solid Electrolytes for All‑Solid‑State Lithium Batteries

To address the limitations of contemporary lithium-ion batteries,particularly their low energy density and safety concerns,all-solid-state lithium batteries equipped with solid-state electrolytes have been identified as an up-and-coming alternative.Among the various SEs,organic–inorganic composite solid electrolytes(OICSEs)that combine the advantages of both polymer and inorganic materials demonstrate promising potential for large-scale applications.However,OICSEs still face many challenges in practical applications,such as low ionic conductivity and poor interfacial stability,which severely limit their applications.This review provides a comprehensive overview of recent research advancements in OICSEs.Specifically,the influence of inorganic fillers on the main functional parameters of OICSEs,including ionic conductivity,Li+transfer number,mechanical strength,electrochemical stability,electronic conductivity,and thermal stability are systematically discussed.The lithium-ion conduction mechanism of OICSE is thoroughly analyzed and concluded from the microscopic perspective.Besides,the classic inorganic filler types,including both inert and active fillers,are categorized with special emphasis on the relationship between inorganic filler structure design and the electrochemical performance of OICSEs.Finally,the advanced characterization techniques relevant to OICSEs are summarized,and the challenges and perspectives on the future development of OICSEs are also highlighted for constructing superior ASSLBs.

扭曲双层石墨烯的层间电导特性研究

扭曲双层石墨烯(TBG)由于具有莫特绝缘和非常规超导等新奇的电学特性,在纳米技术领域存在巨大的应用潜力.本文基于光学衍射物理方法,构建了一个适用于TBG的理论模型,并利用该理论模型研究了TBG的层间电导特性.研究结果较好地解释了TBG层间电导随扭转角变化的实验结果,并阐明了其物理机制.此外,本文还计算了电极参数、隧穿层厚度以及界面势强度等物理因素对层间电导特性的影响.计算结果表明:随着电极化学势的增大,层间电导关于扭转角的变化曲线近似整体向上平移;层间电导随着上层隧穿层厚度的增加而衰减并趋于稳定,而随着下层隧穿层厚度振荡;TBG两层扭转石墨烯的界面势强度越强,则层间电导随扭转角下降得越快.

Is it possible to foot reflexology for infants with sensorineural hearing loss?

Foot reflexology is a non-invasive and safe complementary therapy that works by massaging the reflex zones of the feet and exerts systemic or whole-body regulation through meridian nerve conduction.This therapy is commonly used in the treatment of various conditions such as autism and Parkinson's disease.However,there is limited reporting on the use of foot reflexology therapy for infants with sensorineural hearing loss(SNHL).Currently,there is no definitive conclusion on how foot reflexology therapy can influence hearing.This editorial holds some guiding significance regarding this clinical issue.The aim is to present physiological evidence of how foot reflexology therapy can impact infants with SNHL,thereby enhancing clinician’s awareness of foot reflexology in treating infants with SNHL.

Hf_(2)CF_(2)单层热传输及热电性质的第一原理研究

二维MXene材料是一种新型的功能性材料,其在热电领域具有潜在应用价值.本文采用第一性原理计算方法,通过求解声子和电子的玻尔兹曼输运方程,计算研究了MXene Hf_(2)CF_(2)单层的热传输特征和热电性质.声子谱揭示了Hf_(2)CF_(2)单层具有热力学稳定性.在室温条件下,Hf_(2)CF_(2)单层的晶格热导率为14.25 Wm^(-1)K^(-1),且随着温度的升高而降低;电子热导率却随着温度和掺杂浓度的增加而升高.电输运性质中,电导率和Seebeck系数随载流子浓度的变化相反,确保能够获得优异的热电性能.在600 K条件下,n型MXene Hf_(2)CF_(2)单层的最大功率因子可以达到61.24 mW/(mK^(2)).载流子迁移率具有较高的各向异性,且电子的迁移率远远高于空穴的迁移率.基于热导及电导计算结果,n型MXene Hf_(2)CF_(2)单层沿x轴方向的热电优值可达到1.75,高于其他已报道的类似结构的热电优值,表明了MXene Hf_(2)CF_(2)单层是一种潜在的高性能n型热电材料.

Alternative Strategy for Development of Dielectric Calcium Copper Titanate‑Based Electrolytes for Low‑Temperature Solid Oxide Fuel Cells

The development of low-temperature solid oxide fuel cells(LT-SOFCs)is of significant importance for realizing the widespread application of SOFCs.This has stimulated a substantial materials research effort in developing high oxide-ion conductivity in the electrolyte layer of SOFCs.In this context,for the first time,a dielectric material,CaCu_(3)Ti_(4)O_(12)(CCTO)is designed for LT-SOFCs electrolyte application in this study.Both individual CCTO and its heterostructure materials with a p-type Ni_(0.8)Co_(0.15)Al_(0.05)LiO_(2−δ)(NCAL)semiconductor are evaluated as alternative electrolytes in LT-SOFC at 450–550℃.The single cell with the individual CCTO electrolyte exhibits a power output of approximately 263 mW cm^(-2) and an open-circuit voltage(OCV)of 0.95 V at 550℃,while the cell with the CCTO–NCAL heterostructure electrolyte capably delivers an improved power output of approximately 605 mW cm^(-2) along with a higher OCV over 1.0 V,which indicates the introduction of high hole-conducting NCAL into the CCTO could enhance the cell performance rather than inducing any potential short-circuiting risk.It is found that these promising outcomes are due to the interplay of the dielectric material,its structure,and overall properties that led to improve electrochemical mechanism in CCTO–NCAL.Furthermore,density functional theory calculations provide the detailed information about the electronic and structural properties of the CCTO and NCAL and their heterostructure CCTO–NCAL.Our study thus provides a new approach for developing new advanced electrolytes for LT-SOFCs.

理论探索二维X_(2)UO_(4)(X=K,Rb,Cs)的力学特征、电子结构和声子输运特征

本文用基于密度泛函理论的第一性原理计算方法,研究了三种建议的二维材料X_(2)UO_(4)(X=K,Rb,Cs)的稳定性、弹性、电子结构和声子振动特性.计算结果显示,三种材料同时具备较好的热力学、动力学和机械稳定性.电子结构表明,三种材料属于宽禁带间接半导体,其计算能隙分别是3.90、3.79和3.42 eV,并且在300 K时有着71.31-174.23 cm^(2)/Vs的电子迁移率.声子输运特性表明,三种材料的声子色散均没有虚频出现,声学模和低频光学模呈现强烈耦合,且有着低频率low-lying声子,这使得材料具备很强的声子非谐效应、低声子群速度和强声子散射率,从而表现出很低晶格热导率,在300 K温度下时仅为0.16-0.19 W/mK.这些特性表明,二维X_(2)UO_(4)(X=K,Rb,Cs)在纳米电子和热电器件领域具备应用潜力.

Land Use Change and Its Effect on Environment Based on Farmers’Behaviors: A Case Study in Agricultural Areas of Tibet, China

In the case study in Agricultural Area of Tibet, the process and characteristics of farmers' land use were surveyed by semi-structural interview questionnaire. By comparing the change of land covers and farmers' land decision in two periods, the spatial connection of them was obtained. And the relations among farmers' land decision, land use change and environment were examined by calculating emergy and value flow. The results show that: hunting the maximal profits is the primary aim of farmers' land decision; farmers' land decision is incompatible with sustainable land use presently; farmers' land decision and land cover can be embodied spatially by each other; the change of farmers' land decision can be monitored by observing the change of land cover, and the sustainability of farmers' land decision can be appraised by calculating emergy and value flow.

Factors Influencing Willingness and Ability of Farmers to Adopt New Technologies:A Case Study of Guanzhong Area

Based on data of 248 rural households in Pucheng County and Huxian County,we established the Two-Level Logit Model to analyze the willingness of farmers to adopt new technologies,its influence factors,and probability of successful adoption of new technologies.Results show that the willingness has positive correlation with whether the farmer is head of household,the educational level,occupation,agricultural loan,the number of family labor,and information dissemination channel,while it has negative correlation with non-agricultural employment proportion and whether the farmer is village cadre.In the model of the probability of farmers'successfully adopting new technologies,occupation,agricultural loan,planting area,gender and educational level are positively correlated,while age and non-agricultural employment proportion are negatively correlated.Largescale flow of rural labor plays a negative role in popularization of technologies in rural areas through influencing factors,including number of family labor,non-agricultural employment proportion,educational level,gender,and whether the farmer is village cadre.Finally,on the basis of results of empirical study,we put forward countermeasures and suggestions for strengthening ability of farmers to adopt new technologies.

LM-3C Conducts 200th Launch for CALT, Completing BeiDou 2 Satellite Navigation System

China launched the 45th satellite in the BeiDou Navigation Satellite System (BDS) as well as the BeiDou 2 GEO-8 satellite into orbit on a LM-3C carrier rocket from the Xichang Satellite Launch Center at 23:48 Beijing time on May 17,2019. The LM-3C carrier rocket was developed by the China Academy of Launch Vehicle Technology (CALT),This was the 101st mission of the LM-3 series launch vehicle,the 200th mission of the LM launch vehicle family that was developed by CALT and the 304th mission of the LM family.

用于土壤中氮钾含量快速测定的非接触电导微流控芯片

[目的/意义]土壤中氮、钾元素在作物生长和农业生产过程中具有关键作用。快速定量检测土壤中氮、钾含量对指导精确施肥具有重要意义。因此,建立一种快速可靠的土壤氮、钾含量检测方法十分必要。[方法]本研究建立一种基于聚二甲基硅氧烷(Polydimethylsiloxane,PDMS)微流控芯片电泳和电容耦合非接触电导检测(Capacitively Coupled Contactless Conductivity Detection,C4D)方法,快速定量检测土壤中氮、钾养分离子。通过微流控电泳芯片实现对土壤中多种离子快速分离,利用C4D进行电导率变化的精准测量。基于检测器工作频率输出响应特性,激励电压响应特性和电泳电压,确定最佳分离和检测性能。[结果和讨论]该方法对钾离子(K+)、铵根离子(NH4+)和硝酸根离子(NO_(3)^(-))标准溶液的检测限(S/N=3)分别为0.5、0.1和0.4 mg/L。K^(+)、NH_(4)^(+)和NO_(3)^(-)在0.5~40.0 mg/L范围内具有良好的线性关系,线性相关系数(R2)分别为0.994、0.997和0.990,表明该方法可以对土壤中氮、钾养分离子进行定量分析。同时,采用峰高、峰面积和出峰时间作为评价指标进行可重复性实验,其相对标准偏差(Relative Standard Deviation,RSD)均小于4.4%,说明该方法具有良好的重复性。此外,对土壤样品进行测试,K^(+)和NH_(4)^(+)可实现完全分离以及同步检测,其检测效率明显提高。通过标准加入法进行回收率实验,回收率保持在81.74%~127.76%。[结论]本研究为土壤氮钾养分离子的快速检测提供了一种简便、高效的方法。

用于运动状态监测的纸基柔性摩擦电传感器

为解决柔性摩擦电传感器制备流程复杂、成本高、不够环保等问题,设计了一种基于纸基导电银浆的低成本柔性摩擦电传感器。当外部压力由5 N增大至50 N时,其输出电压和输出电流逐渐增大,在频率为1 Hz、幅值为50 N的外部压力作用下,输出电压的峰值约为7.52 V。当外部压强在17~173 kPa的范围内变化时,输出电压峰值与压强呈分段线性关系。当外部压力的频率变化时,输出电压保持不变。结果表明,该传感器压力传感性能良好。当应用于运动传感中时,该传感器能够感知肘关节、腕关节的弯曲角度,并能有效区分走、快走、跑3种运动类型以及踮脚、深蹲、抱腹跳3种健身动作,计算人体行走频率与健身动作次数,在人体运动状态监测等领域具有良好的应用价值。

导电高分子水凝胶及其应变传感性能研究进展

导电高分子水凝胶特指以本征型导电高分子聚苯胺、聚吡咯或聚噻吩等作为导电组分的一类水凝胶。水凝胶的介质环境有助于导电高分子保持质子酸掺杂状态,导电高分子的有机骨架又易与水凝胶网络结合,因此含有导电高分子的水凝胶具有丰富的可设计性,在应变传感领域表现出可观的应用前景,是一种极具潜力的柔性电子材料。本文结合导电高分子水凝胶最新研究进展,系统归纳了亲水性高分子网络与刚性的导电高分子复合形成三维交联网络的构建策略,指出了提升该类材料力学性能、导电性能和抗冻性能的关键制备方法,并分析了其应变传感性能的影响因素。

支撑剂回流对页岩人工裂缝导流能力影响试验

支撑剂回流对页岩人工裂缝导流能力的伤害不容忽视,须对实际应力加载条件下支撑剂回流进行定量表征。利用自主研发的导流能力测试系统,通过添加支撑剂回流腔体模块,实现压裂液返排过程中支撑剂回流的定量表征,在实验室尺度下开展不同应力加载方式(变围压测试和变流压测试)下的页岩人工裂缝长期导流能力对比试验。结果表明:不同应力加载方式对支撑剂破碎量和嵌入量的影响相似,但变围压测试下支撑剂回流量随围压变化维持在约4.46%,与现场支撑剂回流数据不符;变流压测试下支撑剂回流量在流压20 MPa时的支撑剂回流量为20.53%,且随着流压的降低,回流量下降,与现场支撑剂的回流变量变化规律一致;忽略支撑剂的回流会导致对裂缝导流能力伤害率的计算值偏低,不利于制定施工方案;页岩人工裂缝导流能力的准确测试,应采用与实际应力加载更符合的变流压测试方法,以便更好地体现支撑剂回流对导流能力的影响。

面向人体运动检测的水凝胶基柔性应变传感器设计

在可穿戴电子设备迅猛发展的背景下,构建面向人体运动检测的可穿戴柔性应变传感器成为目前传感器研究的重点之一。基于聚丙烯酰胺(PAM)、纤维素纳米晶(CNCs)、单宁酸(TA)构建了一种导电水凝胶基柔性应变传感器。机械性能与电学性能测试结果表明,相较于其他柔性应变传感器,聚丙烯酰胺-纤维素纳米晶-单宁酸导电水凝胶基柔性应变传感器具有超长的拉伸范围(0%~2 900%)、较好的黏附性、快速的响应时间(280 ms)和良好的稳定性(超320次加载-卸载循环)。该传感器对人体关节弯曲的大应变与喉部活动的小应变等运动信号具备良好的检测功能,可用作人体运动检测的柔性可穿戴传感器。

银纳米线透明导电薄膜仿真研究现状

银纳米线薄膜作为新型柔性透明导电薄膜,具有导电性能好、透光率高、成本低和柔性良好等优点。本文从电学、力学和光学三个方面介绍了银纳米线薄膜的仿真原理、仿真工具及发展现状。目前,银纳米线薄膜的电学性能仿真已研究得比较完善,能够从微观到宏观尺度建立精确的模型,常用的节点主导假设(JDA)模型、多节点表示(MNR)模型能够较好地模拟、预测银纳米线薄膜的方阻。银纳米线薄膜力学仿真尚未能建立起完美的宏观模型,只能通过分子动力学方法等对单根或多根银纳米线之间的力学性能进行仿真模拟。银纳米线薄膜的光学性能的仿真主要依靠时域有限差分方法来模拟光与材料的相互作用,依靠该方法能够模拟少量银纳米线的光学性能,并且目前已有建立大型复杂银纳米线薄膜光学模型的尝试。此外,多物理场耦合且能够反映整个银纳米线薄膜的光-电-热-力综合性能的仿真模型仍未建立,未来研究者们还需于此继续深耕。