Objective:To evaluate the clinical efficacy of sinew-regulating and bone-setting manipulation(SRBSM)combined with Xiaoyu Jiegu Powder(XYJGP)in treating knee osteoarthritis(KOA).Methods:Sixty patients were randomly div...Objective:To evaluate the clinical efficacy of sinew-regulating and bone-setting manipulation(SRBSM)combined with Xiaoyu Jiegu Powder(XYJGP)in treating knee osteoarthritis(KOA).Methods:Sixty patients were randomly divided into treatment group(30 cases)and control group(30 cases).The treatment group was treated with SRBSM combined with XYJGP and the control group was given intermediate frequency electrotherapy and XYJGP.Visual Analogue Scale(VAS).The Western Ontario and McMaster Universities Osteoarthritis Index(WOMAC),Flexion range of motion of the knee joint,and surface electromyography(sEMG)were used to evaluate and compare the patients'knee function before and after treatment.The efficacy was observed with diagnosis and efficacy standards of TCM.Results:After treatment,compared with the same group before treatment,muscle fatigue and muscle tension decreased,pain was reduced,range of motion of the knee joint was increased,and motor function was improved(P<0.05).The improvement degree of the treatment group was better than that of the control group(P<0.05).The total effective rate of the treatment group was 96.6%(29/30),higher than that of the control group(80.0%),P<0.05.Conclusion:SRBSM combined with XYJGP can effectively reduce the pain of KOA patients,improve the range of motion of the joints,and improve the quality of life of the patients,and its curative effect is better than that of intermediate frequency electrotherapy combined with XYJGP.展开更多
Objective:To evaluate the clinical efficacy of sinew-regulating bone-setting manipulations plus exercise therapy in treating chronic non-specific low back pain(CNLBP).Methods:A total of 65 CNLBP patients were divided ...Objective:To evaluate the clinical efficacy of sinew-regulating bone-setting manipulations plus exercise therapy in treating chronic non-specific low back pain(CNLBP).Methods:A total of 65 CNLBP patients were divided into two groups by the random number table method.Thirty-three cases in the treatment group were intervened by sinew-regulating bone-setting manipulations plus exercise therapy;32 cases in the control group were intervened by medium-frequency electrotherapy plus exercise therapy.Before and after treatment,visual analog scale(VAS),dynamic and static muscle endurance of low back,median frequency(MF)of surface electromyography(sEMG)and Oswestry disability index(ODI)were used to evaluate the low back function.The therapeutic efficacy was estimated after treatment.Results:The two groups each had 2 dropouts during the study.The total effective rate was 90.3%in the treatment group versus 66.7%in the control group,and the between-group difference was statistically significant(P<0.05).After treatment,the VAS score,dynamic and static muscle endurance of low back,MF of sEMG and ODI score all changed significantly in both groups(all P<0.05);all the items in the treatment group were significantly different from those in the control group(all P<0.05).Conclusion:Sinew-regulating bone-setting manipulations plus exercise therapy can effectively release pain in CNLBP patients,increase muscle endurance of the low back and improve the quality of life,and its therapeutic efficacy is more significant than that of medium-frequency electrotherapy plus exercise therapy.展开更多
Purpose–The study aims to build a high-precision longitudinal dynamics model for heavy-haul trains and validate it with line test data,present an optimization method for multi-stage cyclic brakes based on the model a...Purpose–The study aims to build a high-precision longitudinal dynamics model for heavy-haul trains and validate it with line test data,present an optimization method for multi-stage cyclic brakes based on the model and conduct a multi-objective detailed evaluation of the driver’s manipulation during cyclic braking.Design/methodology/approach–The high-precision longitudinal train dynamics model was established and verified by the cyclic braking test data of the 20,000 t heavy-haul combination train on the long and steep downgrade.Then the genetic algorithm is employed for optimization subsequent to decoupling multiple cyclic braking procedures,with due consideration of driver operation rules.For evaluation,key manipulation assessments in the scenario are prioritized,supplemented by multi-objective evaluation requirements,and the computational model is employed for detailed evaluation analysis.Findings–Based on the model,experimental data reveal that the probability of longitudinal force error being less than 64.6 kN is approximately 68%,95%for less than 129.2 kN and 99.7%for less than 193.8 kN.Upon optimizing manipulations during the cyclic braking,the maximum reduction in coupler force spans from 21%∼23.9%.Andtheevaluation scoresimply that a proper elevationof the releasingspeed favorssafety.A high electric braking force,although beneficial to some extent for energy-saving,is detrimental to reducing coupler force.Originality/value–The results will provide a theoretical basis and practical guidance for further ensuring the safety and energy-efficient operation of heavy haul trains on long downhill sections and improving the operational quality of heavy-haul trains.展开更多
BACKGROUND Comminuted calcaneal fractures present significant treatment challenges.Open reduction and internal fixation carries risks such as infection and skin necrosis,while minimally invasive techniques may comprom...BACKGROUND Comminuted calcaneal fractures present significant treatment challenges.Open reduction and internal fixation carries risks such as infection and skin necrosis,while minimally invasive techniques may compromise reduction stability.Conservative management is generally limited to minimally displaced fractures.Traditional Chinese manual bone-setting has a long history in fracture treatment and is renowned globally for achieving functional reduction.It offers distinct advantages including lower cost,minimal soft tissue trauma,and the avoidance of expensive reduction equipment or internal fixation materials.CASE SUMMARY A 60-year-old female presented with left foot pain and limited mobility following a fall.Computed tomography scan revealed a Sanders type IV calcaneal fracture with a Böhler angle of 0°.A standardized,stepwise Traditional Chinese manual bone-setting was initially performed,followed by percutaneous screw fixation through several mini-incisions after satisfactory alignment was confirmed under fluoroscopy.The Visual Analog Scale score decreased from 5 on postoperative day 1 to 3 by day 3.The American Orthopaedic Foot and Ankle Society score improved from 73 at 6 weeks to 90 at 3 months,indicating rapid functional recovery and high patient satisfaction.At 7 months postoperatively,the American Orthopaedic Foot and Ankle Society score reached 95,prompting removal of internal fixation.At the 6-year follow-up,reduction remained well maintained,with the Böhler angle preserved at 22°.CONCLUSION The combination of Traditional Chinese manual bone-setting and percutaneous screw fixation achieved satisfactory functional reduction for comminuted calcaneal fractures.展开更多
Animals exhibit complex responses to external and internal stimuli.The information is computed by interconnected neurons that express numerous ion channels,which modulate the neuronal membrane potential.How can neuron...Animals exhibit complex responses to external and internal stimuli.The information is computed by interconnected neurons that express numerous ion channels,which modulate the neuronal membrane potential.How can neuronal activity orchestrate complex motor patterns or allow learning from previous experience?To answer such questions,we need the ability not only to record,but also to modulate neuronal activity in both space(e.g.,neuronal subsets)and time.展开更多
Optical field manipulation,an emerging frontier in photonics,demonstrates significant potential in biomedical microscopy,quantum state engineering,and micro-nano fabrication.To address the critical limitations of curr...Optical field manipulation,an emerging frontier in photonics,demonstrates significant potential in biomedical microscopy,quantum state engineering,and micro-nano fabrication.To address the critical limitations of current optical modulation technologies in achieving full-parameter precision control,we proposed a novel approach for dynamic azimuthal optical field modulation based on dual-spiral arrays.By designing spatially interleaved spiral structures with different initial radii while maintaining identical periodic parameters,we achieved continuous optical modulation spanning the full 0-2πrange in azimuthal field distribution.Through rigorous numerical simulations,we systematically established a quantitative correlation between the structural parameters and azimuthal optical field patterns,revealing,for the first time,a quasi-linear relationship between the radius difference and the resultant optical distribution.This theoretical framework advances our fundamental understanding of structured optical field manipulation as well as provides a new paradigm for programmable photonic device design,with distinct technical advantages in super-resolution imaging and optical tweezer systems.展开更多
OBJECTIVE To investigate the intervention effects of tissue-bone homeostasis manipulation(TBHM)on peripatellar biomechanical parameters and knee joint function in knee osteoarthritis(KOA)patients.METHODS Sixty patient...OBJECTIVE To investigate the intervention effects of tissue-bone homeostasis manipulation(TBHM)on peripatellar biomechanical parameters and knee joint function in knee osteoarthritis(KOA)patients.METHODS Sixty patients with KOA(Kellgren-Lawrence gradeⅡ-Ⅲ)were recruited from the Acupuncture-Moxibustion Rehabilitation Department,Anhui University of Chinese Medicine between October 2024 and May 2025.Participants were randomized into a TBHM group(n=30)or a transcutaneous electrical neuromuscular stimulation(TENS)group(n=30).Using two-way repeated measures ANOVA,biomechanical indicators,including rectus femoris tension,vastus medialis tension,vastus lateralis tension,patellar ligament tension,lateral patellar displacement(LPD),medial patellar displacement(MPD),normalized patellar mobility(LPD/patellar width[PW],MPD/PW),knee flexion range of motion,and functional indicators,including KOOS subscales,time up and go test(TUGT),were compared between groups at baseline and after 6 weeks of intervention.RESULTS After intervention,all biomechanical and knee joint function indicators in the TBHM group were significantly improved(P<0.05,P<0.01),while only the vastus medialis tension,TUGT and KOOS Pain,ADL and QoL scores in the control group were significantly improved(P<0.01).The improvement amplitudes of biomechanical indicators in the TBHM group,including rectus femoris tension,vastus lateralis tension,patellar ligament tension,MPD/PW,LPD/PW and knee flexion range of motion were better than those in the control group(P<0.05,P<0.01).In the functional evaluation,the interaction effects of the TBHM group in all dimensions of the KOOS score and TUGT were statistically significant(P<0.05,P<0.01).Post-hoc simple effect analysis confirmed that there were significant differences in the above indicators between the two groups after intervention(P<0.05),and all indicators showed a significant main effect of time(P<0.01),suggesting that the intervention measures had continuous and cumulative curative effects.CONCLUSION TBHM effectively improves joint function and quality of life in KOA patients by restoring dynamic equilibrium in soft tissue tension and patellar mobility,ultimately achieving the therapeutic goal of concurrent tissue-bone management.展开更多
OBJECTIVE:In recent years,the number of clinical research reports on acupuncture and manipulation for the treatment of greater occipital neuralgia has gradually increased,but the quality is uneven.There is currently n...OBJECTIVE:In recent years,the number of clinical research reports on acupuncture and manipulation for the treatment of greater occipital neuralgia has gradually increased,but the quality is uneven.There is currently no literature evaluating the quality of published reports,which is not conducive to the promotion of clinical use of these therapies.Therefore,this article assessed the reporting quality of randomized controlled trials on acupuncture and manipulation for greater occipital neuralgia.METHODS:Cochrane Library,PubMed,Web of Science,Embase,China National Knowledge Infrastructure(CNKI),VIP,WanFang Data,and Chinese BioMedical Literature Database(CBM)from inception to May 20,2024 were searched.The reporting quality of included randomized controlled trials was independently evaluated by two investigators using the CONSORT statement,STRICTA checklist,and Cochrane bias of risk assessment tool.A third investigator resolved any disagreement.RESULTS:A total of 62 articles were included.Based on the CONSORT statement,59.46%(22/37)of all entries had a reporting rate of less than 50%,mainly including“Identification as a randomized trial in the title(1/62,1.61%),”“How sample size was determined(7/62,11.29%),”“Implementation(1/62,1.61%),”“Blinding(1/62,1.61%),”and“Reports of Funding(4/62,6.45%).”According to the STRICTA checklist,29.41%(5/17)of all entries had a reporting rate of less than 50%,mainly including“Details of other interventions(7/58,12.07%),”“Setting and context of treatment(0/58,0%),”and“Description of participating acupuncturists(0/58,0%).”CONCLUSION:The reporting quality of randomized controlled trials on acupuncture and manipulation therapy for greater occipital neuralgia remains low.Future researchers need to make greater efforts to strictly adhere to the CONSORT statement and STRICTA checklist during trial design,implementation,and reporting.This will facilitate the standardization of research in this field and enhance the reliability and reproducibility of the research results.展开更多
Precise droplet manipulation is critical in material synthesis,biochemical detection,and tissue engineering.However,the droplet velocity and volume manipulated by magnetic techniques are restricted owing to the low ma...Precise droplet manipulation is critical in material synthesis,biochemical detection,and tissue engineering.However,the droplet velocity and volume manipulated by magnetic techniques are restricted owing to the low magnetic force exerted on magnetic particles and beads.Furthermore,magnetic particles are prone to contaminate droplets owing to residues and corrosion.To address these issues,this paper proposes a hydrophilic hard-magnetic soft robot(HMSR)with strong magnetic controllability and chemical stability for precise droplet manipulation.A porous HMSR was synthesized by incorporating NdFeB particles and sacrificial sugar particles into an Ecoflex elastomer.Oxygen plasma treatment was applied to make the HMSR become hydrophilic and thus enhance the driving force exerted on droplets.Three forms of droplet manipulation were demonstrated:droplet transport,droplet splitting,and robot–magnet detachment.Theoretical analysis and experimental results revealed that the critical HMSR speed requisite for droplet transport and splitting was inversely proportional to the droplet volume.Notably,a 50μl droplet was transported in a 20 mT magnetic field at a maximum velocity of 200 mm/s.The maximum droplet volume that the HMSR could transport reached 900μl.Benefiting from its chemical stability,HMSR successfully manipulated chemical reactions of acidic and alkaline droplets.Additionally,the HMSR achieved targeted removal of microparticles through droplet adhesion to them.This HMSR with precise droplet manipulation capability holds broad prospects for applications in biochemical detection,material synthesis,and surgical robotics.展开更多
Flexoelectricity,an electromechanical coupling between strain gradient and electrical polarization in dielectrics or semiconductors,has attracted significant scientific interest.It is reported that large flexoelectric...Flexoelectricity,an electromechanical coupling between strain gradient and electrical polarization in dielectrics or semiconductors,has attracted significant scientific interest.It is reported that large flexoelectric behaviors can be obtained at the nanoscale because of the size effect.However,the flexoelectric responses of centrosymmetric semiconductors(CSs)are extremely weak under a conventional beam-bending approach,owing to weak flexoelectric coefficients and small strain gradients.The flexoelectric-like effect is an enhanced electromechanical effect coupling the flexoelectricity and piezoelectricity.In this paper,a composite structure consisting of piezoelectric dielectric layers and a CS layer is proposed.The electromechanical response of the CS is significantly enhanced via antisymmetric piezoelectric polarization.Consequently,the cross-scale mechanically tuned carrier distribution in the semiconductor is realized.Meanwhile,the significant size dependence of the electromechanical fields in the semiconductor is demonstrated.The flexoelectronics suppression is found when the semiconductor thickness reaches a critical size(0.8μm).In addition,the first-order carrier density of the composite structure under local loads is illustrated.Our results can suggest the structural design for flexoelectric semiconductor devices.展开更多
Electrotaxis,a method that utilizes an electric field to direct the motion of particles or droplets,typically involves a droplet on a flat surface being guided by an electrically charged tweezer above it.Traditional e...Electrotaxis,a method that utilizes an electric field to direct the motion of particles or droplets,typically involves a droplet on a flat surface being guided by an electrically charged tweezer above it.Traditional electrotaxis methods have relied on voltages over 1.5 kV for droplet control,but this has several disadvantages,such as high voltage demands,the danger of electric discharge to the droplet,possible adhesion of the droplet to the tweezer,and issues with droplet oscillation and overshoot,which impede its broader application.The present study proposes an innovative tweezer design that not only operates at reduced voltages but also reduces droplet oscillation relative to traditional tweezers.This tweezer features a coaxial tubular sheath encircling the electrode,which modifies the electric field’s influence on the droplet.Numerical simulations were employed to obtain the tweezer’s ideal dimensions and shape.The empirical evidence indicates that the new tweezer can adeptly steer droplets at a markedly lower voltage of 620 V,ensuring a more stable trajectory and significantly diminishing overshoot.The tweezer’s distinctive design also decreases the possibility of electric discharge to the droplet,thus improving the safety of the system for managing delicate droplets.In the experiment,the maximum droplet translation speed attained was 105 mm/s at an applied voltage of 1.2 kV.This represents a 29.6%increase in speed and a 70%decrease in the required voltage compared to the previously highest reported droplet speed.展开更多
The original intention of the algorithmic recommender system is to grapple with the negative impacts caused by information overload,but the system also can be used as"hypernudge",a new form of online manipul...The original intention of the algorithmic recommender system is to grapple with the negative impacts caused by information overload,but the system also can be used as"hypernudge",a new form of online manipulation,to inten⁃tionally exploit people's cognitive and decision-making gaps to influence their decisions in practice,which is particu⁃larly detrimental to the sustainable development of the digital market.Limiting harmful algorithmic online manipula⁃tion in digital markets has become a challenging task.Globally,both the EU and China have responded to this issue,and the differences between them are so evident that their governance measures can serve as the typical case.The EU focuses on improving citizens'digital literacy and their ability to integrate into digital social life to independently ad⁃dress this issue,and expects to address harmful manipulation behavior through binding and applicable hard law,which is part of the digital strategy.By comparison,although there exist certain legal norms that have made relevant stipula⁃tions on manipulation issues,China continues to issue specific departmental regulations to regulate algorithmic recom⁃mender services,and pays more attention to addressing collective harm caused by algorithmic online manipulation through a multiple co-governance approach led by the government or industry associations to implement supervision.展开更多
The design and manufacturing of microchannels are crucial aspects of modern micro/nanomanufacturing processes,offering a versatile platform for manipulating and driving micro/nanoparticles or cells.In this study,we pr...The design and manufacturing of microchannels are crucial aspects of modern micro/nanomanufacturing processes,offering a versatile platform for manipulating and driving micro/nanoparticles or cells.In this study,we propose a method for manufacturing microchannels using optically induced dielectrophoresis technology to induce the polymerization of polyethylene glycol diacrylate solution.To overcome limitations related to the light intensity energy and the size of intact microchannels,we design and manufacture microstructures of various shapes with a height of 4µm.Additionally,we simulate and analyze the movement of and forces acting on polystyrene(PS)microspheres at different spatial positions within the microchannels.Finally,we successfully demonstrate applications involving the transport of PS microspheres in custom-fabricated microchannels.This novel biocompatible microchannel manufacturing method is simple and non-biotoxic.It provides a new approach for simulating physiological environments in vitro and cultivating and manipulating cells.展开更多
Nanomaterials provide an ideal platform for biomolecular display due to their dimensions approach the molecular scale,facilitating binding behavior akin to that observed in solution-based processes.DNA nanoprobes hold...Nanomaterials provide an ideal platform for biomolecular display due to their dimensions approach the molecular scale,facilitating binding behavior akin to that observed in solution-based processes.DNA nanoprobes hold great promise as miniature detectives capable of detecting mi RNAs within cells.However,current nanoprobes face a challenge in achieving the required precision for accurate miRNA detection,particularly within the intricate confines of the cellular microenvironment,due to interference with biological autofluorescence,off-target effects,and a lack of spatiotemporal control.Here,we have designed a dual-stimuli responsive DNA tracker,synergistically utilizing specific intracellular cues and external triggers,which enables spatiotemporal-controlled and precise detection and imaging of miRNAs"on demand".The tracker,which combines zeolitic imidazolate framework-67(ZIF-67)and unique hairpin DNA structures,effectively anchored onto the ZIF-67 through electrostatic interactions,remains in a dormant state until activated by abundant cellular ATP,resulting in the release of the hairpin structures that include a PC linker incorporated into the loop region.Subsequent irradiation triggers specific recognition of the target miRNA.The newly developed HP-PC-BT@ZIF-67 tracker demonstrates precise spatiotemporal mi RNA detection and exhibits excellent biocompatibility,enabling specific mi RNA recognition"on demand"within cancer cells.This research presents a reliable mi RNA imaging platform in the intricate cellular environment,opening up the possibilities for precise biomedical analysis and disease diagnosis.展开更多
On-demand droplet manipulation plays a critical role in microfluidics,bio/chemical detection and microreactions.Acoustic droplet manipulation has emerged as a promising technique due to its non-contact nature,biocompa...On-demand droplet manipulation plays a critical role in microfluidics,bio/chemical detection and microreactions.Acoustic droplet manipulation has emerged as a promising technique due to its non-contact nature,biocompatibility and precision,circumventing the complexities associated with other methods requiring surface or droplet pretreatment.Despite their promise,existing methods for acoustic droplet manipulation often involve complex hardware setups and difficulty for controlling individual droplet amidst multiple ones.Here we fabricate simple yet effective acoustic tweezers for in-surface and out-of-surface droplet manipulation.It is found that droplets can be transported on the superhydrophobic surfaces when the acoustic radiation force surpasses the friction force.Using a two-axis acoustic tweezer,droplets can be maneuvered along arbitrarily programmed paths on the surfaces.By introducing multiple labyrinthine structures on the superhydrophobic surface,individual droplet manipulation is realized by constraining the unselected droplets in the labyrinthine structures.In addition,a three-axis acoustic tweezer is developed for manipulating droplets in three-dimensional space.Potential applications of the acoustic tweezers for micro-reaction,bio-assay and chemical analysis are also demonstrated.展开更多
[Objectives]To investigate the effects of Visceral Manipulation combined with Enhanced Recovery after Surgery on postoperative recovery in patients undergoing gastrointestinal surgery,and to evaluate its impacts on in...[Objectives]To investigate the effects of Visceral Manipulation combined with Enhanced Recovery after Surgery on postoperative recovery in patients undergoing gastrointestinal surgery,and to evaluate its impacts on inflammatory stress response,gastrointestinal motility recovery,and blood oxygen levels.[Methods]A prospective randomized controlled design was adopted.Eighty patients undergoing gastrointestinal surgery from January 2022 to December 2023 were selected and randomly divided into an observation group(40 cases)and a control group(40 cases).The observation group received Visceral Manipulation therapy in addition to routine Enhanced Recovery after Surgery care,while the control group received only routine Enhanced Recovery after Surgery care.Clinical indicators,inflammatory factors(TNF-α,IL-6,hs-CRP),traumatic stress hormones(cortisol,epinephrine,norepinephrine),gastrointestinal motility indicators(GAS,MTL,GIP),and blood oxygen levels were measured and compared between the two groups on postoperative days 1,5,and 10.[Results]The observation group showed significantly better outcomes in postoperative abdominal distension,time to first flatus and defecation,and hospital stay compared to the control group(P<0.05).Inflammatory factors(TNF-α,IL-6,hs-CRP),traumatic stress hormones(cortisol,epinephrine,norepinephrine),and gastrointestinal motility indicators(GAS,MTL,GIP)were significantly improved in the observation group(P<0.05).Postoperative blood oxygen levels were also significantly higher in the observation group(P<0.05).[Conclusions]Visceral Manipulation combined with Enhanced Recovery after Surgery can significantly improve postoperative recovery in gastrointestinal surgery patients,alleviate inflammatory stress responses,promote gastrointestinal functional recovery,and enhance blood oxygen levels,demonstrating promising clinical application prospects.展开更多
Transient negative capacitance(NC),as an available dynamic charge effect achieved in resistor-ferroelectric capacitor(R-FEC)circuits,has triggered a series of theoretical and experimental works focusing on its physica...Transient negative capacitance(NC),as an available dynamic charge effect achieved in resistor-ferroelectric capacitor(R-FEC)circuits,has triggered a series of theoretical and experimental works focusing on its physical mechanism and device application.Here,we analytically derived the effects of different mechanical conditions on the transient NC behaviors in the R-FEC circuit based on the phenomenological model.It shows that the ferroelectric capacitor can exhibit either NC(i.e.,“single NC”and“double NC”)or positive capacitance,depending on the mechanical condition and temperature.Further numerical calculations show that the voltage drop caused by NC can be effectively controlled by temperature,applied stress,or strain.The relationship between NC voltage drop and system configurations including external resistance,dynamical coefficient of polarization,and input voltage are presented,showing diverse strategies to manipulate the NC effect.These results provide theoretical guidelines for rational design and efficient control of NC-related electronic devices.展开更多
Controllable liquid manipulation is of paramount scientific and technological importance in various fields,such as the chemical industry,biomedicine,and agricultural production.Magnetic actuation,characterized by rapi...Controllable liquid manipulation is of paramount scientific and technological importance in various fields,such as the chemical industry,biomedicine,and agricultural production.Magnetic actuation,characterized by rapid,contactless,and environmentally benign operation,has emerged as a promising approach for precise liquid control.However,conventional magnetic strategies typically govern droplet movement on open surfaces,facing limitations such as restricted liquid volumes,uncertain flow paths,and inevitable evaporation,thereby constraining their broader practical applications.Recently,a variety of magneticdriven strategies have been developed to dynamically regulate liquids within enclosed spaces,especially through physicochemical mechanisms.These approaches provide efficient control over liquid behavior by leveraging magnetically induced chemical changes,structural deformations,and dragging motions,opening new opportunities for flexible and versatile fluid management.This review explores the design and mechanisms of magneto-responsive confined interfaces for the manipulation of nonmagnetic liquids,highlighting key advancements and potential applications including liquid valves,liquid mixing,liquid flow regulation,and liquid pumping.Finally,the existing challenges and future prospects in this field are presented.展开更多
OBJECTIVE:To compare the changes in gait parameters before and after the treatment of lateral ankle sprain using the rotating-pulling-poking manipulation, and explore the potential bio-mechanical mechanism of this man...OBJECTIVE:To compare the changes in gait parameters before and after the treatment of lateral ankle sprain using the rotating-pulling-poking manipulation, and explore the potential bio-mechanical mechanism of this manipulation. METHODS:Forty patients with lateral ankle sprains were randomly divided into two groups in a 1∶1 ratio using a random number table. The experimental group were treated by rotating-pulling-poking manipulation and elastic bandage external fixation, while the control group were treated by ice compress and elastic bandage external fixation. The treatment courses of the two groups were both 2 weeks. We used a three-dimensional motion capture system for kinematic measurements and a Bertec gait analysis force measurement system for mechanical measurements, and compared the changes in gait parameters between the two groups of patients before and after treatment. RESULTS:Intragroup comparison showed that the support time, swing time, peak of back extension, peak of plantar flexion, peak of toe pedal force, and peak of heel landing force of the affected feet in the experimental group were significantly improved compared to those before treatment(P < 0.05). The swing time of the affected feet in the control group was significantly improved compared to that before treatment(P < 0.05). The inter group comparison showed that the gait speed, stride length, peak of back extension, peak of plantar flexion, peak of toe pedal force, and peak of heel landing force of the affected feet in the experimental group were significantly better than those in the control group(P < 0.05). CONCLUSIONS:The rotating-pulling-poking manipulation can effectively improve the patient's gait and range of motion of the affected ankle joint, and enhance the negative gravity in the vertical direction of the affected foot, and the braking and driving forces in the front and back directions. This may be the potential biomechanical mechanism of the rotating-pulling-poking manipulation for treating lateral ankle sprain.展开更多
基金Key natural fund projects of Anhui provincial department of education(No.KJ2018A0273)。
文摘Objective:To evaluate the clinical efficacy of sinew-regulating and bone-setting manipulation(SRBSM)combined with Xiaoyu Jiegu Powder(XYJGP)in treating knee osteoarthritis(KOA).Methods:Sixty patients were randomly divided into treatment group(30 cases)and control group(30 cases).The treatment group was treated with SRBSM combined with XYJGP and the control group was given intermediate frequency electrotherapy and XYJGP.Visual Analogue Scale(VAS).The Western Ontario and McMaster Universities Osteoarthritis Index(WOMAC),Flexion range of motion of the knee joint,and surface electromyography(sEMG)were used to evaluate and compare the patients'knee function before and after treatment.The efficacy was observed with diagnosis and efficacy standards of TCM.Results:After treatment,compared with the same group before treatment,muscle fatigue and muscle tension decreased,pain was reduced,range of motion of the knee joint was increased,and motor function was improved(P<0.05).The improvement degree of the treatment group was better than that of the control group(P<0.05).The total effective rate of the treatment group was 96.6%(29/30),higher than that of the control group(80.0%),P<0.05.Conclusion:SRBSM combined with XYJGP can effectively reduce the pain of KOA patients,improve the range of motion of the joints,and improve the quality of life of the patients,and its curative effect is better than that of intermediate frequency electrotherapy combined with XYJGP.
文摘Objective:To evaluate the clinical efficacy of sinew-regulating bone-setting manipulations plus exercise therapy in treating chronic non-specific low back pain(CNLBP).Methods:A total of 65 CNLBP patients were divided into two groups by the random number table method.Thirty-three cases in the treatment group were intervened by sinew-regulating bone-setting manipulations plus exercise therapy;32 cases in the control group were intervened by medium-frequency electrotherapy plus exercise therapy.Before and after treatment,visual analog scale(VAS),dynamic and static muscle endurance of low back,median frequency(MF)of surface electromyography(sEMG)and Oswestry disability index(ODI)were used to evaluate the low back function.The therapeutic efficacy was estimated after treatment.Results:The two groups each had 2 dropouts during the study.The total effective rate was 90.3%in the treatment group versus 66.7%in the control group,and the between-group difference was statistically significant(P<0.05).After treatment,the VAS score,dynamic and static muscle endurance of low back,MF of sEMG and ODI score all changed significantly in both groups(all P<0.05);all the items in the treatment group were significantly different from those in the control group(all P<0.05).Conclusion:Sinew-regulating bone-setting manipulations plus exercise therapy can effectively release pain in CNLBP patients,increase muscle endurance of the low back and improve the quality of life,and its therapeutic efficacy is more significant than that of medium-frequency electrotherapy plus exercise therapy.
文摘Purpose–The study aims to build a high-precision longitudinal dynamics model for heavy-haul trains and validate it with line test data,present an optimization method for multi-stage cyclic brakes based on the model and conduct a multi-objective detailed evaluation of the driver’s manipulation during cyclic braking.Design/methodology/approach–The high-precision longitudinal train dynamics model was established and verified by the cyclic braking test data of the 20,000 t heavy-haul combination train on the long and steep downgrade.Then the genetic algorithm is employed for optimization subsequent to decoupling multiple cyclic braking procedures,with due consideration of driver operation rules.For evaluation,key manipulation assessments in the scenario are prioritized,supplemented by multi-objective evaluation requirements,and the computational model is employed for detailed evaluation analysis.Findings–Based on the model,experimental data reveal that the probability of longitudinal force error being less than 64.6 kN is approximately 68%,95%for less than 129.2 kN and 99.7%for less than 193.8 kN.Upon optimizing manipulations during the cyclic braking,the maximum reduction in coupler force spans from 21%∼23.9%.Andtheevaluation scoresimply that a proper elevationof the releasingspeed favorssafety.A high electric braking force,although beneficial to some extent for energy-saving,is detrimental to reducing coupler force.Originality/value–The results will provide a theoretical basis and practical guidance for further ensuring the safety and energy-efficient operation of heavy haul trains on long downhill sections and improving the operational quality of heavy-haul trains.
基金Supported by Jin-Wen Liu Academic Experience Heritage Studio Special Fund of National Famous Traditional Chinese Medicine,No.75.
文摘BACKGROUND Comminuted calcaneal fractures present significant treatment challenges.Open reduction and internal fixation carries risks such as infection and skin necrosis,while minimally invasive techniques may compromise reduction stability.Conservative management is generally limited to minimally displaced fractures.Traditional Chinese manual bone-setting has a long history in fracture treatment and is renowned globally for achieving functional reduction.It offers distinct advantages including lower cost,minimal soft tissue trauma,and the avoidance of expensive reduction equipment or internal fixation materials.CASE SUMMARY A 60-year-old female presented with left foot pain and limited mobility following a fall.Computed tomography scan revealed a Sanders type IV calcaneal fracture with a Böhler angle of 0°.A standardized,stepwise Traditional Chinese manual bone-setting was initially performed,followed by percutaneous screw fixation through several mini-incisions after satisfactory alignment was confirmed under fluoroscopy.The Visual Analog Scale score decreased from 5 on postoperative day 1 to 3 by day 3.The American Orthopaedic Foot and Ankle Society score improved from 73 at 6 weeks to 90 at 3 months,indicating rapid functional recovery and high patient satisfaction.At 7 months postoperatively,the American Orthopaedic Foot and Ankle Society score reached 95,prompting removal of internal fixation.At the 6-year follow-up,reduction remained well maintained,with the Böhler angle preserved at 22°.CONCLUSION The combination of Traditional Chinese manual bone-setting and percutaneous screw fixation achieved satisfactory functional reduction for comminuted calcaneal fractures.
文摘Animals exhibit complex responses to external and internal stimuli.The information is computed by interconnected neurons that express numerous ion channels,which modulate the neuronal membrane potential.How can neuronal activity orchestrate complex motor patterns or allow learning from previous experience?To answer such questions,we need the ability not only to record,but also to modulate neuronal activity in both space(e.g.,neuronal subsets)and time.
文摘Optical field manipulation,an emerging frontier in photonics,demonstrates significant potential in biomedical microscopy,quantum state engineering,and micro-nano fabrication.To address the critical limitations of current optical modulation technologies in achieving full-parameter precision control,we proposed a novel approach for dynamic azimuthal optical field modulation based on dual-spiral arrays.By designing spatially interleaved spiral structures with different initial radii while maintaining identical periodic parameters,we achieved continuous optical modulation spanning the full 0-2πrange in azimuthal field distribution.Through rigorous numerical simulations,we systematically established a quantitative correlation between the structural parameters and azimuthal optical field patterns,revealing,for the first time,a quasi-linear relationship between the radius difference and the resultant optical distribution.This theoretical framework advances our fundamental understanding of structured optical field manipulation as well as provides a new paradigm for programmable photonic device design,with distinct technical advantages in super-resolution imaging and optical tweezer systems.
文摘OBJECTIVE To investigate the intervention effects of tissue-bone homeostasis manipulation(TBHM)on peripatellar biomechanical parameters and knee joint function in knee osteoarthritis(KOA)patients.METHODS Sixty patients with KOA(Kellgren-Lawrence gradeⅡ-Ⅲ)were recruited from the Acupuncture-Moxibustion Rehabilitation Department,Anhui University of Chinese Medicine between October 2024 and May 2025.Participants were randomized into a TBHM group(n=30)or a transcutaneous electrical neuromuscular stimulation(TENS)group(n=30).Using two-way repeated measures ANOVA,biomechanical indicators,including rectus femoris tension,vastus medialis tension,vastus lateralis tension,patellar ligament tension,lateral patellar displacement(LPD),medial patellar displacement(MPD),normalized patellar mobility(LPD/patellar width[PW],MPD/PW),knee flexion range of motion,and functional indicators,including KOOS subscales,time up and go test(TUGT),were compared between groups at baseline and after 6 weeks of intervention.RESULTS After intervention,all biomechanical and knee joint function indicators in the TBHM group were significantly improved(P<0.05,P<0.01),while only the vastus medialis tension,TUGT and KOOS Pain,ADL and QoL scores in the control group were significantly improved(P<0.01).The improvement amplitudes of biomechanical indicators in the TBHM group,including rectus femoris tension,vastus lateralis tension,patellar ligament tension,MPD/PW,LPD/PW and knee flexion range of motion were better than those in the control group(P<0.05,P<0.01).In the functional evaluation,the interaction effects of the TBHM group in all dimensions of the KOOS score and TUGT were statistically significant(P<0.05,P<0.01).Post-hoc simple effect analysis confirmed that there were significant differences in the above indicators between the two groups after intervention(P<0.05),and all indicators showed a significant main effect of time(P<0.01),suggesting that the intervention measures had continuous and cumulative curative effects.CONCLUSION TBHM effectively improves joint function and quality of life in KOA patients by restoring dynamic equilibrium in soft tissue tension and patellar mobility,ultimately achieving the therapeutic goal of concurrent tissue-bone management.
文摘OBJECTIVE:In recent years,the number of clinical research reports on acupuncture and manipulation for the treatment of greater occipital neuralgia has gradually increased,but the quality is uneven.There is currently no literature evaluating the quality of published reports,which is not conducive to the promotion of clinical use of these therapies.Therefore,this article assessed the reporting quality of randomized controlled trials on acupuncture and manipulation for greater occipital neuralgia.METHODS:Cochrane Library,PubMed,Web of Science,Embase,China National Knowledge Infrastructure(CNKI),VIP,WanFang Data,and Chinese BioMedical Literature Database(CBM)from inception to May 20,2024 were searched.The reporting quality of included randomized controlled trials was independently evaluated by two investigators using the CONSORT statement,STRICTA checklist,and Cochrane bias of risk assessment tool.A third investigator resolved any disagreement.RESULTS:A total of 62 articles were included.Based on the CONSORT statement,59.46%(22/37)of all entries had a reporting rate of less than 50%,mainly including“Identification as a randomized trial in the title(1/62,1.61%),”“How sample size was determined(7/62,11.29%),”“Implementation(1/62,1.61%),”“Blinding(1/62,1.61%),”and“Reports of Funding(4/62,6.45%).”According to the STRICTA checklist,29.41%(5/17)of all entries had a reporting rate of less than 50%,mainly including“Details of other interventions(7/58,12.07%),”“Setting and context of treatment(0/58,0%),”and“Description of participating acupuncturists(0/58,0%).”CONCLUSION:The reporting quality of randomized controlled trials on acupuncture and manipulation therapy for greater occipital neuralgia remains low.Future researchers need to make greater efforts to strictly adhere to the CONSORT statement and STRICTA checklist during trial design,implementation,and reporting.This will facilitate the standardization of research in this field and enhance the reliability and reproducibility of the research results.
基金supported by the Science and Technology Program from the State Grid Corporation of China(Grant No.5700-202155453A-0-0-00):“Development of flexible liquid metal based micro-sensor with anti-electromagnetic interference ability for power engineering applications.”。
文摘Precise droplet manipulation is critical in material synthesis,biochemical detection,and tissue engineering.However,the droplet velocity and volume manipulated by magnetic techniques are restricted owing to the low magnetic force exerted on magnetic particles and beads.Furthermore,magnetic particles are prone to contaminate droplets owing to residues and corrosion.To address these issues,this paper proposes a hydrophilic hard-magnetic soft robot(HMSR)with strong magnetic controllability and chemical stability for precise droplet manipulation.A porous HMSR was synthesized by incorporating NdFeB particles and sacrificial sugar particles into an Ecoflex elastomer.Oxygen plasma treatment was applied to make the HMSR become hydrophilic and thus enhance the driving force exerted on droplets.Three forms of droplet manipulation were demonstrated:droplet transport,droplet splitting,and robot–magnet detachment.Theoretical analysis and experimental results revealed that the critical HMSR speed requisite for droplet transport and splitting was inversely proportional to the droplet volume.Notably,a 50μl droplet was transported in a 20 mT magnetic field at a maximum velocity of 200 mm/s.The maximum droplet volume that the HMSR could transport reached 900μl.Benefiting from its chemical stability,HMSR successfully manipulated chemical reactions of acidic and alkaline droplets.Additionally,the HMSR achieved targeted removal of microparticles through droplet adhesion to them.This HMSR with precise droplet manipulation capability holds broad prospects for applications in biochemical detection,material synthesis,and surgical robotics.
基金supported by the National Key Research and Development Program of China(Grant No.2021YFB2011400)the National Natural Science Foundation of China(Grant No.52375081).
文摘Flexoelectricity,an electromechanical coupling between strain gradient and electrical polarization in dielectrics or semiconductors,has attracted significant scientific interest.It is reported that large flexoelectric behaviors can be obtained at the nanoscale because of the size effect.However,the flexoelectric responses of centrosymmetric semiconductors(CSs)are extremely weak under a conventional beam-bending approach,owing to weak flexoelectric coefficients and small strain gradients.The flexoelectric-like effect is an enhanced electromechanical effect coupling the flexoelectricity and piezoelectricity.In this paper,a composite structure consisting of piezoelectric dielectric layers and a CS layer is proposed.The electromechanical response of the CS is significantly enhanced via antisymmetric piezoelectric polarization.Consequently,the cross-scale mechanically tuned carrier distribution in the semiconductor is realized.Meanwhile,the significant size dependence of the electromechanical fields in the semiconductor is demonstrated.The flexoelectronics suppression is found when the semiconductor thickness reaches a critical size(0.8μm).In addition,the first-order carrier density of the composite structure under local loads is illustrated.Our results can suggest the structural design for flexoelectric semiconductor devices.
文摘Electrotaxis,a method that utilizes an electric field to direct the motion of particles or droplets,typically involves a droplet on a flat surface being guided by an electrically charged tweezer above it.Traditional electrotaxis methods have relied on voltages over 1.5 kV for droplet control,but this has several disadvantages,such as high voltage demands,the danger of electric discharge to the droplet,possible adhesion of the droplet to the tweezer,and issues with droplet oscillation and overshoot,which impede its broader application.The present study proposes an innovative tweezer design that not only operates at reduced voltages but also reduces droplet oscillation relative to traditional tweezers.This tweezer features a coaxial tubular sheath encircling the electrode,which modifies the electric field’s influence on the droplet.Numerical simulations were employed to obtain the tweezer’s ideal dimensions and shape.The empirical evidence indicates that the new tweezer can adeptly steer droplets at a markedly lower voltage of 620 V,ensuring a more stable trajectory and significantly diminishing overshoot.The tweezer’s distinctive design also decreases the possibility of electric discharge to the droplet,thus improving the safety of the system for managing delicate droplets.In the experiment,the maximum droplet translation speed attained was 105 mm/s at an applied voltage of 1.2 kV.This represents a 29.6%increase in speed and a 70%decrease in the required voltage compared to the previously highest reported droplet speed.
文摘The original intention of the algorithmic recommender system is to grapple with the negative impacts caused by information overload,but the system also can be used as"hypernudge",a new form of online manipulation,to inten⁃tionally exploit people's cognitive and decision-making gaps to influence their decisions in practice,which is particu⁃larly detrimental to the sustainable development of the digital market.Limiting harmful algorithmic online manipula⁃tion in digital markets has become a challenging task.Globally,both the EU and China have responded to this issue,and the differences between them are so evident that their governance measures can serve as the typical case.The EU focuses on improving citizens'digital literacy and their ability to integrate into digital social life to independently ad⁃dress this issue,and expects to address harmful manipulation behavior through binding and applicable hard law,which is part of the digital strategy.By comparison,although there exist certain legal norms that have made relevant stipula⁃tions on manipulation issues,China continues to issue specific departmental regulations to regulate algorithmic recom⁃mender services,and pays more attention to addressing collective harm caused by algorithmic online manipulation through a multiple co-governance approach led by the government or industry associations to implement supervision.
基金funded by the National Natural Science Foundation of China(Project No.62273289)The Youth Innovation Science and Technology Support Program of Shandong Province(Project No.2022KJ274)+1 种基金Natural Science Foundation of Shandong Province(Grant No.ZR2024MF007)Graduate Innovation Foundation of Yantai University,GIFYTU.
文摘The design and manufacturing of microchannels are crucial aspects of modern micro/nanomanufacturing processes,offering a versatile platform for manipulating and driving micro/nanoparticles or cells.In this study,we propose a method for manufacturing microchannels using optically induced dielectrophoresis technology to induce the polymerization of polyethylene glycol diacrylate solution.To overcome limitations related to the light intensity energy and the size of intact microchannels,we design and manufacture microstructures of various shapes with a height of 4µm.Additionally,we simulate and analyze the movement of and forces acting on polystyrene(PS)microspheres at different spatial positions within the microchannels.Finally,we successfully demonstrate applications involving the transport of PS microspheres in custom-fabricated microchannels.This novel biocompatible microchannel manufacturing method is simple and non-biotoxic.It provides a new approach for simulating physiological environments in vitro and cultivating and manipulating cells.
基金supported by the National Natural Science Foundation of China(Nos.21904095,22004089)Peiyang Talents Project of Tianjin University+1 种基金Young Thousand Talented ProgramProgram of Tianjin Science and Technology Major Project and Engineering(No.19ZXYXSY00090)。
文摘Nanomaterials provide an ideal platform for biomolecular display due to their dimensions approach the molecular scale,facilitating binding behavior akin to that observed in solution-based processes.DNA nanoprobes hold great promise as miniature detectives capable of detecting mi RNAs within cells.However,current nanoprobes face a challenge in achieving the required precision for accurate miRNA detection,particularly within the intricate confines of the cellular microenvironment,due to interference with biological autofluorescence,off-target effects,and a lack of spatiotemporal control.Here,we have designed a dual-stimuli responsive DNA tracker,synergistically utilizing specific intracellular cues and external triggers,which enables spatiotemporal-controlled and precise detection and imaging of miRNAs"on demand".The tracker,which combines zeolitic imidazolate framework-67(ZIF-67)and unique hairpin DNA structures,effectively anchored onto the ZIF-67 through electrostatic interactions,remains in a dormant state until activated by abundant cellular ATP,resulting in the release of the hairpin structures that include a PC linker incorporated into the loop region.Subsequent irradiation triggers specific recognition of the target miRNA.The newly developed HP-PC-BT@ZIF-67 tracker demonstrates precise spatiotemporal mi RNA detection and exhibits excellent biocompatibility,enabling specific mi RNA recognition"on demand"within cancer cells.This research presents a reliable mi RNA imaging platform in the intricate cellular environment,opening up the possibilities for precise biomedical analysis and disease diagnosis.
基金supported by National Natural Science Foundation of China(Nos.12072381,22072185,21805315)Guangdong Basic and Applied Basic Research Foundation(No.2024A1515011812)Science and Technology Innovation Project of Guangzhou(No.202102020263).
文摘On-demand droplet manipulation plays a critical role in microfluidics,bio/chemical detection and microreactions.Acoustic droplet manipulation has emerged as a promising technique due to its non-contact nature,biocompatibility and precision,circumventing the complexities associated with other methods requiring surface or droplet pretreatment.Despite their promise,existing methods for acoustic droplet manipulation often involve complex hardware setups and difficulty for controlling individual droplet amidst multiple ones.Here we fabricate simple yet effective acoustic tweezers for in-surface and out-of-surface droplet manipulation.It is found that droplets can be transported on the superhydrophobic surfaces when the acoustic radiation force surpasses the friction force.Using a two-axis acoustic tweezer,droplets can be maneuvered along arbitrarily programmed paths on the surfaces.By introducing multiple labyrinthine structures on the superhydrophobic surface,individual droplet manipulation is realized by constraining the unselected droplets in the labyrinthine structures.In addition,a three-axis acoustic tweezer is developed for manipulating droplets in three-dimensional space.Potential applications of the acoustic tweezers for micro-reaction,bio-assay and chemical analysis are also demonstrated.
基金Supported by Guiding Project of Shiyan City,Hubei Province in 2022(22Y30).
文摘[Objectives]To investigate the effects of Visceral Manipulation combined with Enhanced Recovery after Surgery on postoperative recovery in patients undergoing gastrointestinal surgery,and to evaluate its impacts on inflammatory stress response,gastrointestinal motility recovery,and blood oxygen levels.[Methods]A prospective randomized controlled design was adopted.Eighty patients undergoing gastrointestinal surgery from January 2022 to December 2023 were selected and randomly divided into an observation group(40 cases)and a control group(40 cases).The observation group received Visceral Manipulation therapy in addition to routine Enhanced Recovery after Surgery care,while the control group received only routine Enhanced Recovery after Surgery care.Clinical indicators,inflammatory factors(TNF-α,IL-6,hs-CRP),traumatic stress hormones(cortisol,epinephrine,norepinephrine),gastrointestinal motility indicators(GAS,MTL,GIP),and blood oxygen levels were measured and compared between the two groups on postoperative days 1,5,and 10.[Results]The observation group showed significantly better outcomes in postoperative abdominal distension,time to first flatus and defecation,and hospital stay compared to the control group(P<0.05).Inflammatory factors(TNF-α,IL-6,hs-CRP),traumatic stress hormones(cortisol,epinephrine,norepinephrine),and gastrointestinal motility indicators(GAS,MTL,GIP)were significantly improved in the observation group(P<0.05).Postoperative blood oxygen levels were also significantly higher in the observation group(P<0.05).[Conclusions]Visceral Manipulation combined with Enhanced Recovery after Surgery can significantly improve postoperative recovery in gastrointestinal surgery patients,alleviate inflammatory stress responses,promote gastrointestinal functional recovery,and enhance blood oxygen levels,demonstrating promising clinical application prospects.
基金This work was supported by the National Natural Science Foundation of China(Grants Nos.12222214,12132020,12002400,and 12172386)by Guangdong Provincial Key Laboratory of Magnetoelectric Physics and Devices(Grant No.2022B1212010008)+1 种基金by the National Natural Science Foundation of Guangdong Province(Grant No.2021B1515020021)by the Shenzhen Science and Techonlogy Program(Grant Nos.202206193000001 and 20220818181805001).
文摘Transient negative capacitance(NC),as an available dynamic charge effect achieved in resistor-ferroelectric capacitor(R-FEC)circuits,has triggered a series of theoretical and experimental works focusing on its physical mechanism and device application.Here,we analytically derived the effects of different mechanical conditions on the transient NC behaviors in the R-FEC circuit based on the phenomenological model.It shows that the ferroelectric capacitor can exhibit either NC(i.e.,“single NC”and“double NC”)or positive capacitance,depending on the mechanical condition and temperature.Further numerical calculations show that the voltage drop caused by NC can be effectively controlled by temperature,applied stress,or strain.The relationship between NC voltage drop and system configurations including external resistance,dynamical coefficient of polarization,and input voltage are presented,showing diverse strategies to manipulate the NC effect.These results provide theoretical guidelines for rational design and efficient control of NC-related electronic devices.
基金supported by the National Natural Science Foundation of China(Nos.52025132,U24A20205,52303373,21621091,22021001,and 22121001)the China Postdoctoral Science Foundation(No.2024M763174)+2 种基金the 111 Project(Nos.B17027,B16029)the Natural Science Foundation of Fujian Province of China(No.2022J02059)the New Cornerstone Science Foundation through the Xplorer Prize。
文摘Controllable liquid manipulation is of paramount scientific and technological importance in various fields,such as the chemical industry,biomedicine,and agricultural production.Magnetic actuation,characterized by rapid,contactless,and environmentally benign operation,has emerged as a promising approach for precise liquid control.However,conventional magnetic strategies typically govern droplet movement on open surfaces,facing limitations such as restricted liquid volumes,uncertain flow paths,and inevitable evaporation,thereby constraining their broader practical applications.Recently,a variety of magneticdriven strategies have been developed to dynamically regulate liquids within enclosed spaces,especially through physicochemical mechanisms.These approaches provide efficient control over liquid behavior by leveraging magnetically induced chemical changes,structural deformations,and dragging motions,opening new opportunities for flexible and versatile fluid management.This review explores the design and mechanisms of magneto-responsive confined interfaces for the manipulation of nonmagnetic liquids,highlighting key advancements and potential applications including liquid valves,liquid mixing,liquid flow regulation,and liquid pumping.Finally,the existing challenges and future prospects in this field are presented.
基金the National Traditional Chinese Medicine Inheritance and Innovation Team Project:Traditional Chinese Medicine Innovation Team for Prevention and Treatment of Bone and Joint Degenerative Diseases (No. ZYYCXTD-C-202003)National Natural Science Foundation of China:the study on the Quantification and Mechanism of the rotating-pulling-poking manipulation in the Treatment of Lateral Ankle Sprain (No. 81473694)China Academy of Chinese Medical Sciences Science and Technology Innovation Project:Establishment and Promotion of a Simulation Operation Evaluation System for Rotating-pulling-poking Manipulation (CI2021A02015)。
文摘OBJECTIVE:To compare the changes in gait parameters before and after the treatment of lateral ankle sprain using the rotating-pulling-poking manipulation, and explore the potential bio-mechanical mechanism of this manipulation. METHODS:Forty patients with lateral ankle sprains were randomly divided into two groups in a 1∶1 ratio using a random number table. The experimental group were treated by rotating-pulling-poking manipulation and elastic bandage external fixation, while the control group were treated by ice compress and elastic bandage external fixation. The treatment courses of the two groups were both 2 weeks. We used a three-dimensional motion capture system for kinematic measurements and a Bertec gait analysis force measurement system for mechanical measurements, and compared the changes in gait parameters between the two groups of patients before and after treatment. RESULTS:Intragroup comparison showed that the support time, swing time, peak of back extension, peak of plantar flexion, peak of toe pedal force, and peak of heel landing force of the affected feet in the experimental group were significantly improved compared to those before treatment(P < 0.05). The swing time of the affected feet in the control group was significantly improved compared to that before treatment(P < 0.05). The inter group comparison showed that the gait speed, stride length, peak of back extension, peak of plantar flexion, peak of toe pedal force, and peak of heel landing force of the affected feet in the experimental group were significantly better than those in the control group(P < 0.05). CONCLUSIONS:The rotating-pulling-poking manipulation can effectively improve the patient's gait and range of motion of the affected ankle joint, and enhance the negative gravity in the vertical direction of the affected foot, and the braking and driving forces in the front and back directions. This may be the potential biomechanical mechanism of the rotating-pulling-poking manipulation for treating lateral ankle sprain.
