Research on a Monte Carlo global variance reduction method based on an automatic importance sampling method

Global variance reduction is a bottleneck in Monte Carlo shielding calculations.The global variance reduction problem requires that the statistical error of the entire space is uniform.This study proposed a grid-AIS method for the global variance reduction problem based on the AIS method,which was implemented in the Monte Carlo program MCShield.The proposed method was validated using the VENUS-Ⅲ international benchmark problem and a self-shielding calculation example.The results from the VENUS-Ⅲ benchmark problem showed that the grid-AIS method achieved a significant reduction in the variance of the statistical errors of the MESH grids,decreasing from 1.08×10^(-2) to 3.84×10^(-3),representing a 64.00% reduction.This demonstrates that the grid-AIS method is effective in addressing global issues.The results of the selfshielding calculation demonstrate that the grid-AIS method produced accurate computational results.Moreover,the grid-AIS method exhibited a computational efficiency approximately one order of magnitude higher than that of the AIS method and approximately two orders of magnitude higher than that of the conventional Monte Carlo method.

A novel strain of Levilactobacillus brevis PDD-5 isolated from salty vegetables has beneficial effects on hyperuricemia through anti-inflammation and improvement of kidney damage

Hyperuricemia is a metabolic disorder caused by abnormal purine metabolism,resulting in abnormally high serum uric acid.In this study,a novel Levilactobacillus brevis PDD-5 isolated from salty vegetables was verified with the function of alleviating hyperuricemia.The relevant effects of L.brevis PDD-5 in lowering uric acid were analyzed by in vitro and in vivo experiments.The results showed that the L.brevis PDD-5 has(68.86±15.46)%of inosine uptake capacity and(95.75±3.30)%of guanosine uptake capacity in vitro.Oral administration of L.brevis PDD-5 to hyperuricemia rats reduced uric acid,creatinine,and urea nitrogen in serum,as well as decreased inosine and guanosine levels in the intestinal contents of rats.Analysis of relevant markers in the kidney by ELISA kits revealed that L.brevis PDD-5 alleviated oxidative stress and inflammation.Moreover,the gene expression of uric acid transporter 1(URAT1)and glucose transporter 9(GLUT9)was down-regulated,and the gene expression of organic anion transporter 1(OAT1)was up-regulated after treatment with L.brevis PDD-5.Western blot analysis showed that L.brevis PDD-5 alleviated hyperuricemia-induced kidney injury through the NLRP3 pathway.The se findings suggest that L.brevis PDD-5 can lower uric acid,repair kidney damage,and also has the potential to prevent uric acid nephropathy.

Heterogeneous population distribution enhances resistance to wheat lodging by optimizing the light environment

Lodging is still the key factor that limits continuous increases in wheat yields today,because the mechanical strength of culms is reduced due to low-light stress in populations under high-yield cultivation.The mechanical properties of the culm are mainly determined by lignin,which is affected by the light environment.However,little is known about whether the light environment can be sufficiently improved by changing the population distribution to inhibit culm lodging.Therefore,in this study,we used the wheat cultivar“Xinong 979”to establish a low-density homogeneous distribution treatment(LD),high-density homogeneous distribution treatment(HD),and high-density heterogeneous distribution treatment(HD-h)to study the regulatory effects and mechanism responsible for differences in the lodging resistance of wheat culms under different population distributions.Compared with LD,HD significantly reduced the light transmittance in the middle and basal layers of the canopy,the net photosynthetic rate in the middle and lower leaves of plants,the accumulation of lignin in the culm,and the breaking resistance of the culm,and thus the lodging index values increased significantly,with lodging rates of 67.5%in 2020–2021 and 59.3%in 2021–2022.Under HD-h,the light transmittance and other indicators in the middle and basal canopy layers were significantly higher than those under HD,and the lodging index decreased to the point that no lodging occurred.Compared with LD,the activities of phenylalanine ammonia-Lyase(PAL),4-coumarate:coenzyme A ligase(4CL),catechol-O-methyltransferase(COMT),and cinnamyl-alcohol dehydrogenase(CAD)in the lignin synthesis pathway were significantly reduced in the culms under HD during the critical period for culm formation,and the relative expression levels of TaPAL,Ta4CL,TaCOMT,and TaCAD were significantly downregulated.However,the activities of lignin synthesis-related enzymes and their gene expression levels were significantly increased under HD-h compared with HD.A partial least squares path modeling analysis found significant positive effects between the canopy light environment,the photosynthetic capacity of the middle and lower leaves of plants,lignin synthesis and accumulation,and lodging resistance in the culms.Thus,under conventional high-density planting,the risk of wheat lodging was significantly higher.Accordingly,the canopy light environment can be optimized by changing the heterogeneity of the population distribution to improve the photosynthetic capacity of the middle and lower leaves of plants,promote lignin accumulation in the culm,and enhance lodging resistance in wheat.These findings provide a basis for understanding the mechanism responsible for the lower mechanical strength of the culm under high-yield wheat cultivation,and a theoretical basis and for developing technical measures to enhance lodging resistance.

共价有机框架基光催化剂合成过氧化氢和高价值化学品的最新进展

过氧化氢(H_(2)O_(2))广泛用于废水处理、燃料电池及漂白剂等领域.尽管传统生产H_(2)O_(2)的蒽醌法拥有成熟的技术基础,但存在能耗高、爆炸风险、毒气排放以及环境污染等问题.太阳能驱动的光催化合成H_(2)O_(2)作为一种绿色、无污染、可持续的能源转换技术,展现出替代传统的蒽醌工艺的巨大潜力.共价有机框架(COFs)作为光催化合成H_(2)O_(2)的新兴催化剂,以可调节的能带结构、宽光吸收范围及高光催化效率在克服传统无机光催化剂低转化效率方面显示出优势.通过合理的结构设计调整氧还原反应(ORR)途径,COFs可提升光催化合成H_(2)O_(2)的产率,并可同时促进高附加值化学品的合成.本文综述了基于COFs的光催化剂在H_(2)O_(2)合成及选择性氧化高价值化学品领域的最新研究进展.首先,详细讨论了COFs基光催化剂在合成H_(2)O_(2)过程中的三种主要途径:(1)单步两电子氧还原反应;(2)两步单电子氧还原反应;(3)双通道反应机制.同时,强调了牺牲剂对光催化合成H_(2)O_(2)和高附加值化学品的影响.其次,总结了多种新颖的COF基光催化剂合成策略,包括静电自组装、原位合成、蒸汽辅助工艺、孔隙划分和界面聚合等,这些策略在光催化生产H_(2)O_(2)及高价值化学品方面发挥了关键作用.接下来,深入探讨了提升COFs在H_(2)O_(2)和高价值化学品生成效率方面的策略,主要包括单原子生长、异质结构建、活性位点调节和催化环境控制等四种修饰策略.这些策略涉及材料的贵金属改性、材料相互作用促进、官能团设计以及反应界面的亲疏水性质,旨在从整体上推动COFs在光催化的可持续性和增值化学合成方向的研究与创新.最后,提出了COFs基光催化剂面临的挑战与当前进展.其中,COFs的薄膜制备和多相体系构建对于解决催化剂的分离与回收问题至关重要.同时,强调了机理表征在提升COF基光催化剂整体性能中的重要性.综上,COFs基光催化剂在合成设计、反应途径的调控以及牺牲剂的引入等方面都会对合成H_(2)O_(2)和高值化学品产生重要影响.本文旨在为构建COF基光催化剂提升整体光催化性能提供一定的参考和借鉴.

通过氟掺杂调控TiO_(2)的d带中心以增强光催化产H_(2)O_(2)活性

光催化产双氧水(H_(2)O_(2))以太阳光、水和空气中的氧气作为原料,将光能转变为化学能,是一种绿色高效节能环保的新技术,具有较好的应用前景.光催化产H_(2)O_(2)主要包括三个关键步骤:(1)催化剂在高能入射光激发下产生光生电子和空穴;(2)光生电子-空穴对分离并迁移到催化剂表面;(3)光生电子与催化剂表面吸附的氧气发生反应生成超氧自由基,其继续与水和光生电子反应,产生H_(2)O_(2).因此,氧气在催化剂表面吸附性能的强弱对光催化产H_(2)O_(2)的性能有着重要影响.d带中心理论表明,金属的d带能级高低决定了催化剂表面活性位点对小分子物质的吸附强度,能级越高,催化剂对小分子物质的吸附能力越强.TiO_(2)具有制备简单、无毒、理化性质稳定、导价带位置跨越多个氧化还原电位等诸多优势,在光催化生产H_(2)O_(2)领域具有较好的应用前景.提升TiO_(2)的d带中心可以提高其对小分子物质如O_(2)的吸附性能,有效提升其光催化产H_(2)O_(2)的活性.本文从氟离子掺杂提升TiO_(2)的d带中心增强对O_(2)的吸附性能入手,通过第一性理论计算、电子顺磁共振实验、飞秒瞬态吸收光谱等方法研究光生载流子的传输机理,阐明F/TiO_(2)光催化产H_(2)O_(2)活性增强机制,并对TiO_(2)光催化产H_(2)O_(2)的前景提出了展望.首先,分别以钛酸四异丙酯和氟化铵作为钛源和氟源,通过溶胶-凝胶法结合高温煅烧制得了F/TiO_(2)光催化剂.第一性理论计算结果表明,F-体相掺杂导致TiO_(2)的电荷分布不均匀,使得d带中心上移,从而增强TiO_(2)与表面吸附O_(2)的相互作用,降低表面氧的吸附能,最终提高光催化生成H_(2)O_(2)的效率.电子顺磁共振实验结果表明,晶格中F-离子的存在诱导了还原性Ti^(3+)中心的形成,这些还原性Ti^(3+)中心可以提供电荷补偿所需的额外电子.O_(2)温度程序解吸实验结果表明,F/TiO_(2)对O_(2)的化学吸附能力高于纯TiO_(2),说明较低的反键轨道占用率可以增强Ti^(3+)对O_(2)的吸附.飞秒瞬态吸收光谱结果表明,光生电子从F/TiO_(2)的导带转移到Ti^(3+)表面态和表面F-离子上,加速了光生电子和空穴的分离;光生电子与吸附在F/TiO_(2)表面的O_(2)发生反应,加速了H_(2)O_(2)的生成.光催化产H_(2)O_(2)性能实验结果表明,F-掺杂TiO_(2)后,光催化生成H_(2)O_(2)的产率由277μmol·g^(-1)·h^(-1)提高到了467μmol·g-1·h^(-1).循环实验结果表明,F/TiO_(2)使用前后形貌和晶体结构几乎没有改变,且循环实验后氧空位和Ti3+中心依然存在,说明制得的F/TiO_(2)光催化剂具有良好的稳定性.综上所述,本文借助第一性理论计算并结合实验结果,从d带中心调控的角度揭示了F/TiO_(2)光催化产H_(2)O_(2)活性提高的机理,阐明了光催化产H_(2)O_(2)的反应机制.本研究为优化光催化剂与氧气之间的吸附强度,提高光催化产H_(2)O_(2)的性能提供了一种新策略,可为后续光催化产H_(2)O_(2)技术的改进和应用提供参考.

Ribosome-inspired electrocatalysts inducing preferential nucleation and growth of three-dimensional lithium sulfide for high-performance lithium-sulfur batteries

Nucleation of lithium sulfide(Li_(2)S)induced by electrocatalysts plays a crucial role in mitigating the shut-tle effect.However,short-chain polysulfides on electrocatalysts surfaces tend to re-dissolve into elec-trolytes,delaying Li_(2)S supersaturation and its nucleation.In this study,we draw inspiration from the ribosome-driven protein synthesis process in cells to prepare ultrasmall nitrogen-doped MoS_(2) nanocrys-tals anchored on porous nitrogen-doped carbon networks(N-MoS_(2)-NC)electrocatalysts.Excitedly,the ex-situ SEM demonstrates that ribosome-inspired N-MoS_(2)-NC electrocatalysts induce early nucleation and rapid growth of three-dimensional Li_(2)s during discharge.Theoretical calculations reveal that the Li-s bond length in N-MoS_(2)-Li_(2)S(100)is shorter,and the corresponding interfacial formation energy is lower than in MoS_(2)-Li_(2)S(100).This accelerated conversion of lithium polysulfides to Li_(2)S can enhance the utilization of active substances and inhibit the shuttle effect.This study highlights the potential of ribosome-inspired N-MoS_(2)-NC in improving the electrochemical stability of Li-S batteries,providing valuable insights for future electrocatalyst design.

Cooperative structure of Li/Ni mixing and stacking faults for achieving high-capacity Co-free Li-rich oxides

Co-free Li-rich layered oxides(LLOs)are emerging as promising cathode materials for Li-ion batteries due to their low cost and high capacity.However,they commonly face severe structural instability and poor electrochemical activity,leading to diminished capacity and voltage performance.Herein,we introduce a Co-free LLO,Li_(1.167)Ni_(0.222)Mn_(0.611)O_(2)(Cf-L1),which features a cooperative structure of Li/Ni mixing and stacking faults.This structure regulates the crystal and electronic structures,resulting in a higher discharge capacity of 300.6 mA h g^(-1)and enhanced rate capability compared to the typical Co-free LLO,Li_(1.2)Ni_(0.2)Mn_(0.6)O_(2)(Cf-Ls).Density functional theory(DFT)indicates that Li/Ni mixing in LLOs leads to increased Li-O-Li configurations and higher anionic redox activities,while stacking faults further optimize the electronic interactions of transition metal(TM)3d and non-bonding O 2p orbitals.Moreover,stacking faults accommodate lattice strain,improving electrochemical reversibility during charge/discharge cycles,as demonstrated by the in situ XRD of Cf-L1 showing less lattice evolution than Cf-Ls.This study offers a structured approach to developing Co-free LLOs with enhanced capacity,voltage,rate capability,and cyclability,significantly impacting the advancement of the next-generation Li-ion batteries.

杨梅状碳包覆四氧化三铁复合材料的制备及锂离子电池负极性能

Fe_(3)O_(4)被认为是一种储锂性能优异的锂离子电池负极材料,但目前仍存在导电性差和充放电过程体积膨胀问题。文中以L-精氨酸、对苯二甲醛和九水硝酸铁为原料,通过溶剂热反应得到铁离子掺杂L-精氨酸聚合物(W-Fe_(3)O_(4)@NC precursors),随后高温热解制备了杨梅状碳包覆四氧化三铁(W-Fe_(3)O_(4)@NC)复合负极材料。对W-Fe_(3)O_(4)@NC的形貌、表面化学结构、孔隙率和在锂离子电池负极中的电化学性能进行了表征。结果表明,得益于独特的杨梅状形貌、有益的氮掺杂、高度分散的Fe_(3)O_(4)纳米微粒和均匀的碳包覆,W-Fe_(3)O_(4)@NC在1 A/g电流密度下循环800圈后比容量高达815.1 mAh/g,在5 A/g的大电流密度下,比容量仍保持在232 mAh/g,循环稳定性和倍率性能显著优于纯碳材料(NC)和市售Fe_(3)O_(4)纳米粒子。

Identification and the molecular mechanism of novel duck liver-derived anti-inflammatory peptides in lipopolysaccharide-induced RAW264.7 cell model

In this study,10 novel anti-inflammatory peptides were identified from duck liver,and their molecular mechanism was demonstrated based on machine learning and molecular docking.Using Sephadex G-15 gel chromatography separation,reversed-phase high-performance liquid chromatography purification,liquid chromatography-tandem mass spectrometry identification,and BIOPEP database comparison,10 novel antiinflammatory peptides were initially found.Their splendid angiotensin-converting enzyme(ACE)inhibition and anti-inflammatory properties were confirmed by machine learning.With binding energies less than–20.93 kJ/mol,molecular docking revealed that they could efficiently bind to the active pockets of tumor necrosis factorα(TNF-α),interleukin 6(IL-6),cyclooxygenase 2(COX-2),and nuclear factorκB(NF-κB)proteins with efficiency,indicating that the compounds can spontaneously form complexes through hydrogen bonding and hydrophobic interactions with the protein binding pockets.In the lipopolysaccharide-induced RAW264.7 cell model,the release of NO,TNF-α,and IL-6 and the mRNA expression of inflammatory factors(TNF-α,IL-6,COX-2,and NF-κB)were significantly inhibited by these peptides.We concluded it might be due to their anti-inflammatory effects by inhibiting the protein phosphorylation of inhibitor of NF-κB(IκBα)in the cytoplasm and preventing the translocation of NF-κB p65 in the cytoplasm to the nucleus,thereby regulating the NF-κB signaling pathway.This study is essential for the screening of anti-inflammatory peptides and the investigation of the mechanism of action.

Normalized glandular dose coefficients for digital breast tomosynthesis using detailed Chinese breast models

The rise in breast cancer diagnoses among Chinese women has necessitated the use of X-ray breast screening,which carries a radiation risk.This study aimed to provide a dosimetry protocol for the Chinese female population to replace the traditional standard that utilizes simplified breast models,for the accurate estimation of the mean glandular dose of a patient undergoing digital breast tomosynthesis(DBT).The first set of detailed Chinese female breast models and representative breast parameters was constructed.Considering backscatter radiation and computational efficiency,we improved the combination of these models and the Chinese reference adult female whole-body voxel phantom.Image acquisition for four commercial DBT systems that are widely employed in China was simulated using the Monte Carlo method to obtain the normalized glandular dose coefficients of DBT(D_(gN)^(DBT))and the glandular depth dose(D_(g)^(dep)(z))for different breast characteristics and X-ray spectra.We calculated a series of D_(gN)^(DBT) values for breasts with different percentage mass glandularities(5%,25%,50%,75%,and 100%)and compressed breast thicknesses(2,3,4,5,6,and 7 cm)at various tube potentials(25,28,30,32,35,and 49 kV)and target/filter combinations(W/Rh,W/Al,Mo/Mo,Rh/Rh,and Rh/Ag).The parameter dependence of the breast characteristics and beam conditions on D_(gN)^(DBT) in detailed breast models was investigated.The D_(gN)^(DBT) results were 14.6-51.0%lower than those of the traditional dosimetry standard in China.The difference in D_(gN)^(DBT) was mainly due to a decrease in the depth of the main energy deposition area caused by the glandular distribution along the depth direction.The results obtained in this study may be used to improve breast dosimetry in China and provide more detailed information on risk assessment during DBT.

Pain and immune function in patients undergoing gastric cancer surgery following stellate ganglion block with total intravenous anesthesia

BACKGROUND Stellate ganglion block is a commonly used sympathetic nerve block technique that restores the balance of the sympathetic and vagal nervous systems of the body and inhibits sympathetic nerve activity.AIM To analyze the effect of a stellate ganglion block combined with total diploma intravenous anesthesia on postoperative pain and immune function in patients undergoing laparoscopic radical gastric cancer(GC)surgery to provide a refe-rence basis for the formulation of anesthesia protocols for radical GC surgery.METHODS This study included 112 patients who underwent laparoscopic radical surgery for GC between January 2022 and March 2024.There was no restriction on sex.The patient grouping method used was a digital random table method,and the num-ber of cases in each group was 56.The control group was administered total intravenous anesthesia,and the observation group compounded the stellate gan-glion block according to the total intravenous anesthesia protocol.Postoperative hemodynamics,pain levels,and immune indices were compared between the groups.RESULTS The heart rate and mean arterial pressure in the observation group after in-tubation were lower than those in the control group(P<0.05).Pain levels were compared between the two groups at 2 hours,12 hours,24 hours,and 48 hours after surgery(P>0.05).The number of CD3+,CD4+,and CD4+/CD8+cells at the end of surgery was higher in the observation group than in the control group,and the number of CD8+cells was lower in the observation group than in the control group(P<0.05).There were no significant differences between the two groups in terms of propofol dosage,awakening time,extubation time,or postoperative adverse reactions(P>0.05).CONCLUSION The application of a stellate ganglion block combined with total intravenous anesthesia had no significant effect on postoperative pain levels in patients undergoing laparoscopic radical GC surgery.However,it can safely reduce the effect of surgery on the immune function of patients and is worth applying in clinical practice.

A Cell Screening Algorithm Integrating Genetic and Numerical Differentiation

The consistency of the cell has a significant impact on battery capacity,endurance,overall performance,safety,and service life extension.However,it is challenging to identify cells with high consistency and no loss of battery energy.This paper presents a cell screening algorithm that integrates genetic and numerical differentiation techniques.Initially,a mathematical model for battery consistency is established,and a multi-step charging strategy is proposed to satisfy the demands of fast charging technology.Subsequently,the genetic algorithm simulates biological evolution to efficiently search for superior cell combinations within a short time while evaluating capacity,voltage consistency,and charge/discharge efficiency.Finally,through experimental validation and comparative analysis with similar algorithms,our proposed method demonstrates notable advantages in terms of both search efficiency and performance.

基于问题导向学习法的分析化学实验与理论知识融合的教学改革——以“水硬度的测定”为例

分析化学实验是一门兼具理论性、实践性和应用性的课程,主要训练学生规范操作并培养学生运用分析化学理论知识解决实际问题的能力。目前普遍存在着分析化学实验课程教学与理论教学严重脱节的问题,学生习惯“照方抓药”。本文将问题导向学习法应用于分析化学实验教学,通过改进教学模式、完善课程内容和优化考核方式开展教学改革,促进实验与理论教学的有效融合,充分调动学生的学习自主性,培养学生观察、思考、分析和解决问题的能力,有效提高实验课的教学效果。

The Research on the Impact Factors of the Comprehensive Evaluation of Communication Unit Camps Based on Analytic Hierarchy Process

Currently, the comprehensive assessment of the communication troops’ camp planning project is primarily qualitative, with limited quantitative evaluation. Drawing upon the relevant spirit of the Military Commission’s documents and leveraging the author’s own work experience in branch offices, this article thoroughly explores the factors influencing the comprehensive assessment of the project and proposes quantitative representation methods for these factors. Utilizing the Analytic Hierarchy Process (AHP), a hierarchical structure model and judgment matrix for the evaluation factors of the communication troops’ camp construction planning project are constructed, enabling the determination of the weightage of each factor. This provides a certain level of support and reference for the project approval and management by branch offices, while also offering valuable insights for the approval and management of camp planning and construction projects in other types of troops and battlefield projects.

THUDosePD:a three-dimensional Monte Carlo platform for phantom dose assessment

Monte Carlo simulations are frequently utilized in radiation dose assessments.However,many researchers find the prevailing computing platforms to be intricate.This highlights a pressing need for a specialized framework for phantom dose evalua-tion.To address this gap,we developed a user-friendly radiation dose assessment platform using the Monte Carlo toolkit,Geant4.The Tsinghua University Phantom Dose(THUDosePD)augments the flexibility of Monte Carlo simulations in dosi-metric research.Originating from THUDose,a code with generic,functional,and application layers,THUDosePD focuses predominantly on anatomical phantom dose assessment.Additionally,it enables medical exposure simulation,intricate geometry creation,and supports both three-dimensional radiation dose analysis and phantom format transformations.The system operates on a multi-threaded parallel CPU architecture,with some modules enhanced for GPU parallel computing.Benchmark tests on the ICRP reference male illustrated the capabilities of THUDosePD in phantom dose assessment,covering the effective dose,three-dimensional dose distribution,and three-dimensional organ dose.We also conducted a voxelization conversion on the polygon mesh phantom,demonstrating the method’s efficiency and consistency.Extended applications based on THUDosePD further underline its broad adaptability.This intuitive,three-dimensional platform stands out as a valuable tool for phantom radiation dosimetry research.

Optimal choice of stapler and digestive tract reconstruction method after distal gastrectomy for gastric cancer:A prospective case–control study

BACKGROUND Gastric cancer is the most common cause of cancer-related deaths,and is classified according to its location in the proximal,middle,or distal stomach.Surgical resection is the primary approach for treating gastric cancer.This prospective study aimed to determine the best reconstruction method after distal gastrectomy for gastric cancer.AIM To explore the efficacy of different staplers and digestive tract reconstruction(DTR)methods after radical gastrectomy and their influence on prognosis.METHODS Eighty-seven patients who underwent radical gastrectomy for distal gastric cancer at our institution between April 2017 and April 2020 were included in this study,with a follow-up period of 12-26 mo.The patients were assigned to four groups based on the stapler and DTR plan as follows:BillrothⅠ(B-I)reconstruction+linear stapler group(group A,22 cases),B-I reconstruction+circular stapler group(group B,22 cases),Billroth II(B-II)reconstruction+linear stapler group(group C,22 cases),and B-II reconstruction+circular stapler group(group D,21 cases).The pathological parameters,postoperative gastrointestinal function recovery,postoperative complications,and quality of life(QOL)were compared among the four groups.RESULTS No significant differences in the maximum diameter of the gastric tumors,total number of lymph nodes dissected,drainage tube removal time,QLQ(QOL questionnaire)-C30 and QLQ-STO22 scores at 1 year postoperatively,and incidence of complications were observed among the four groups(P>0.05).However,groups A and C(linear stapler)had significantly lower intraoperative blood loss and significantly shorter anastomosis time,operation time,first fluid diet intake time,first exhaust time,and length of postoperative hospital stay(P<0.05)than groups B and D(circular stapler).CONCLUSION Linear staplers offer several advantages for postoperative recovery.B-I and B-II reconstruction methods had similar effects on QOL.The optimal solution can be selected according to individual conditions and postoperative convenience.

Mid-term outcomes of microfragmented adipose tissue plus arthroscopic surgery for knee osteoarthritis:A randomized,activecontrol,multicenter clinical trial

BACKGROUND Osteoarthritis(OA)is the most prevalent form of degenerative whole-joint disease.Before the final option of knee replacement,arthroscopic surgery was the most widely used joint-preserving surgical treatment.Emerging regenerative therapies,such as those involving platelet-rich plasma,mesenchymal stem cells,and microfragmented adipose tissue(MFAT),have been pushed to the forefront of treatment to prevent the progression of OA.Currently,MFAT has been successfully applied to treat different types of orthopedic diseases.AIM To assess the efficacy and safety of MFAT with arthroscopic surgery in patients with knee OA(KOA).METHODS A randomized,multicenter study was conducted between June 2017 and November 2022 in 10 hospitals in Zhejiang,China.Overall,302 patients diagnosed with KOA(Kellgren-Lawrence grades 2-3)were randomized to the MFAT group(n=151,were administered MFAT following arthroscopic surgery),or the control group(n=151,were administered hyaluronic acid following arthroscopic surgery).The study outcomes were changes in the Western Ontario and McMaster Universities Osteoarthritis Index(WOMAC)score,the visual analog scale(VAS)score,the Lequesne index score,the Whole-Organ Magnetic Resonance Imaging Score(WORMS),and safety over a 24-mo period from baseline.RESULTS The changes in the WOMAC score(including the three subscale scores),VAS pain score,and Lequesne index score at the 24-mo mark were significantly different in the MFAT and control groups,as well as when comparing values at the posttreatment visit and those at baseline(P<0.001).The MFAT group consistently demonstrated significant decreases in the WOMAC pain scores and VAS scores at all follow-ups compared to the control group(P<0.05).Furthermore,the WOMAC stiffness score,WOMAC function score,and Lequesne index score differed significantly between the groups at 12 and 24 mo(P<0.05).However,no signicant between-group differences were observed in the WORMS at 24 mo(P=0.367).No serious adverse events occurred in both groups.CONCLUSION The MFAT injection combined with arthroscopic surgery treatment group showed better mid-term clinical outcomes compared to the control group,suggesting its efficacy as a therapeutic approach for patients with KOA.

Fast design of catalyst layer with optimal electrical-thermal-water performance for proton exchange membrane fuel cells

The catalyst layer(CL)is the core component in determining the electrical-thermal-water performance and cost of proton exchange membrane fuel cell(PEMFC).Systemic analysis and rapid prediction tools are required to improve the design efficiency of CL.In this study,a 3D multi-phase model integrated with the multi-level agglomerate model for CL is developed to describe the heat and mass transfer processes inside PEMFC.Moreover,a research framework combining the response surface method(RSM)and artificial neural network(ANN)model is proposed to conduct a quantitative analysis,and further a rapid and accurate prediction.With the help of this research framework,the effects of CL composition on the electrical-thermal-water performance of PEMFC are investigated.The results show that the mass of platinum,the mass of carbon,and the volume fraction of dry ionomer has a significant impact on the electrical-thermal-water performance.At the selected points,the sensitivity of the decision variables is ranked:volume fraction of dry ionomer>mass of platinum>mass of carbon>agglomerate radius.In particular,the sensitivity of the volume fraction of dry ionomer is over 50%at these points.Besides,the comparison results show that the ANN model could implement a more rapid and accurate prediction than the RSM model based on the same sample set.This in-depth study is beneficial to provide feasible guidance for high-performance CL design.

Research on inversion method for complex source-term distributions based on deep neural networks

This study proposes a source distribution inversion convolutional neural network (SDICNN), which is deep neural network model for the inversion of complex source distributions, to solve inversion problems involving fixed-source distributions. A function is developed to obtain the distribution information of complex source terms from radiation parameters at individual sampling points in space. The SDICNN comprises two components:a fully connected network and a convolutional neural network. The fully connected network mainly extracts the parameter measurement information from the sampling points,whereas the convolutional neural network mainly completes the fine inversion of the source-term distribution. Finally, the SDICNN obtains a high-resolution source-term distribution image. In this study, the proposed source-term inversion method is evaluated based on typical geometric scenarios. The results show that, unlike the conventional fully connected neural network, the SDICNN model can extract the two-dimensional distribution features of the source terms, and its inversion results are better. In addition, the effects of the shielding mechanism and number of sampling points on the inversion process are examined. In summary, the result of this study can facilitate the accurate assessment of dose distributions in nuclear facilities.

A study on impacts of groundwater seepage on artificial freezing process of gravel strata

Purpose–This paper aims to study the impacts of groundwater seepage on artificial freezing process of gravel strata,the temperature field characteristics of the strata,and the strata process,closure time and thickness evolution mechanism of the frozen wall.Design/methodology/approach–In this paper several laboratory model tests were conducted,considering different groundwater seepage rate.Findings–The results show that there is a significant coupling effect between the cold diffusion of artificial freezing pipes and groundwater seepage;when there is no seepage,temperature fields upstream and downstream of the gravel strata are symmetrically distributed,and the thickness of the frozen soil column/frozen wall is consistent during artificial freezing;groundwater seepage causes significant asymmetry in the temperature fields upstream and downstream of the gravel strata,and the greater the seepage rate,the more obvious the asymmetry;the frozen wall closure time increases linearly with the increase in the groundwater seepage rate,and specifically,the time length under seepage rate of 5.00 m d
1 is 3.2 times longer than that under no seepage;due to the erosion from groundwater seepage,the thickness of the upstream frozen wall decreases linearly with the seepage velocity,while that of the downstream frozen wall increases linearly,resulting in a saddle-shaped frozen wall.Originality/value–The research results are beneficial to the optimum design and risk control of artificial freezing process in gravel strata.