Janus hydrogel/electrospun-membrane dressing enhancing wound healing in rats

Background:Excessive exudate secreted from chronic wounds often leads to overhydration and infection.Although a variety of dressings are currently available in clinical applications,they frequently fail to provide multifunction to promote chronic wound healing.The dressings with a Janus structure,featuring distinct properties on each side,are potential to improve wound healing.Methods:Composite dressings with a Janus structure were fabricated,comprising freeze-dried polycaprolactone(PCL)electrospun membrane and alginate-based hydrogel.The PCL fibrous membrane provided air permeability,while the hydrogel loaded with Deferoxamine,composed of alginate and poly(N-isopropylacrylamide)(PNIPAM),exhibited hygroscopic properties.The inclusion of PNIPAM imparted thermo-responsivity.Results:The hydrogel(thickness of 2.778±0.082 mm)exhibited a robust adhesion to the fiber membrane(thickness of 0.261±0.041 mm).For ANDC(Alginate-PNIPAM hydrogel with Deferoxamine/PCL membrane)samples,the water vapor transmission rate(WVTR)was measured to be 3364.80±23.23 g∙m−2∙day−1 and the swelling ratio at 2 h was determined to be 1179±125%.The thermo-responsivity of ANDC samples manifested in an increased swelling rate,escalating from 797±189%at 37°C to 1132±147%at 4°C.The elastic modulus was assessed for lyophilized and rehydrated ANDC sample.When theωof the rheometer rotor was decreased from 10 rad/s to 0.1 rad/s,the lyophilized dressing exhibited a decrease from 2.65±0.01 MPa to 1.80±0.90 MPa,while the rehydrated dressing demonstrated an increase from 133.65±55.68 Pa to 264.23±141.71 Pa.The pro-healing properties of the dressings were evaluated using full-thickness skin defect model on SD rats,and a circular wound of diameter 10 mm healed completely by day 12.Conclusion:The dressings not only protected the wound and absorbed excess exudate,but also demonstrated nondestructive peelability upon cooling,providing a novel approach for accelerating wound healing and management.

Effects of the properties of FCCS on the removing of catalyst particles from FCCS under a DC electrostatic field

Catalytic cracking is the main method to lighten heavy crude oil,this process can produce high quality oil products such as gasoline and diesel,but also produces a large amount of fluid catalytic cracking slurry(FCCS).The catalyst particles in FCCS seriously restrict the secondary processing of FCCS and need to be removed,and the properties of Fccs is an important factor that affects the removal efficiency of the catalyst particles.Based on the"effective contact point"model proposed by the research group,this study further proposed the"electrostatic separation efficiency calculation"model.In this model,since Fccs has a uniform distribution of catalyst particles,the ratio of the number of catalyst particles can be expressed as the ratio of area to achieve the calculation of separation efficiency.Then the catalyst removal efficiency under different viscosity was analyzed,thus verifying the feasibility of this model.The effects of temperature and mass ratio of four components on the viscosity of FccS were investigated respectively,then the effects of temperature and four components'mass ratio on the electrostatic sep-aration can be directly converted into the effect of viscosity on the electrostatic separation efficiency.All the results show the electrostatic separation efficiency decreases with increasing viscosity,and the best separationtemperatureis120℃.

平原河网区水动力重构理论与实践

我国平原河网地区地势低洼,河道比降平缓,水动力弱,加上密集的人类活动,水安全问题十分突出,比如洪涝频发、水体自净能力差、水生态系统脆弱等。本文研究发现这些问题都与水动力有关,水流能量时空分布失衡是产生这些水问题的共同本源,由此,创建了平原河网区水动力重构理论。该理论在水量调控的基础上,深挖水动力及有限能量在水生态环境改善中的作用,优化布局水闸、泵站等水利工程体系,充分挖潜工程的综合效益,通过重构水动力时空分布来满足平原河网区复杂水问题统筹治理的需求。在此基础上,建立了完整的弱动力平原河网区多尺度水动力重构、多目标水力调控的理论方法和技术体系,提出了平原河网区水问题统筹治理原则。最后以扬州主城区河网活水提质为例,介绍该理论的实际应用及效果。

土壤动物肠道微生物多样性研究进展

随着分子生物学技术方法的快速发展,动物肠道微生物已成为医学、动物生理学与微生物生态学等研究领域热点。土壤动物种类繁多,分布广泛,其作为陆地生态系统重要组分,是驱动生态系统功能的关键因子。土壤动物体内的微生物由于与宿主长期共存,在与宿主协同进化中形成了丰富多样的群落结构,能够影响土壤动物本身的健康,进而介导土壤动物生态功能的实现。近些年,土壤动物肠道微生物工作方兴未艾,日渐得到重视。总结了四个部分内容:1)首先总结了土壤动物肠道微生物多样性领域的研究现状,该领域年发文量逐年增长,且近十年增长快速。土壤模式生物肠道微生物多样性研究较多且更为深入。土壤动物肠道微生物多样性组成与驱动机制、共存机制及群落构建的理论研究是该领域前沿;2)进而展示了土壤动物肠道微生物多样性组成和研究方法,土壤动物肠道菌群组成以变形菌门、厚壁菌门、放线菌门和拟杆菌门为主。早期工作基于传统分离培养,近年来新一代测序技术推动了该领域发展;3)接着关注了土壤动物肠道微生物的生态学功能,总体上体现在肠道微生物能帮助宿主分解食物基质、参与营养利用、影响寿命和繁殖及提高宿主免疫能力,且其能够影响土壤动物的气体排放及介导其对生态系统的元素转化循环;4)最后重点阐述了影响土壤动物肠道微生物的主要因素(包含宿主和环境因素),土壤动物肠道微生物群落与宿主肠道形态、系统发生、食性、发育阶段及栖息生境和环境污染物息息相关。研究可增加人们对土壤动物肠道微生物的组成和多样性的认识,并帮助深入思考肠道微生物及其同宿主互作机制对土壤生物多样性及生态系统功能的影响。

Optimization of Sound Absorption and Insulation Performances of a Dual-Cavity Resonant Micro-Perforated Plate

This study investigates a dual-cavity resonant composite sound-absorbing structure based on a micro-perforated plate.Using the COMSOL impedance tube model,the effects of various structural parameters on sound absorption and sound insulation performances are analyzed.Results show that the aperture of the micro-perforated plate has the greatest influence on the sound absorption coefficient;the smaller the aperture,the greater is this coefficient.The thickness of the resonance plate has the most significant influence on the sound insulation and resonance frequency;the greater the thickness,the wider the frequency domain in which sound insulation is obtained.In addition,the effect of filling the structural cavity with porous foam ceramics has been studied,and it has been found that the porosity and thickness of the porous material have a significant effect on the sound absorption coefficient and sound insulation,while the pore size exhibits a limited influence.

Combination therapy of hydrogel and stem cells for diabetic wound healing

Diabetic wounds(DWs)are a common complication of diabetes mellitus;DWs have a low cure rate and likely recurrence,thus affecting the quality of patients’lives.As traditional therapy cannot effectively improve DW closure,DW has become a severe clinical medical problem worldwide.Unlike routine wound healing,DW is difficult to heal because of its chronically arrested inflammatory phase.Although mesenchymal stem cells and their secreted cytokines can alleviate oxidative stress and stimulate angiogenesis in wounds,thereby promoting wound healing,the biological activity of mesenchymal stem cells is compromised by direct injection,which hinders their therapeutic effect.Hydrogels form a three-dimensional network that mimics the extracellular matrix,which can provide shelter for stem cells in the inflammatory microenvironment with reactive oxygen species in DW,and maintains the survival and viability of stem cells.This review summarizes the mechanisms and applications of stem cells and hydrogels in treating DW;additionally,it focuses on the different applications of therapy combining hydrogel and stem cells for DW treatment.

Quantum Secure Multiparty Computation with Symmetric Boolean Functions

We propose a class of n-variable Boolean functions which can be used to implement quantum secure multiparty computation.We also give an implementation of a special quantum secure multiparty computation protocol.An advantage of our protocol is that only 1 qubit is needed to compute the n-tuple pairwise AND function,which is more efficient comparing with previous protocols.We demonstrate our protocol on the IBM quantum cloud platform,with a probability of correct output as high as 94.63%.Therefore,our protocol presents a promising generalization in realization of various secure multipartite quantum tasks.

Simultaneous Determination of Trace Matrine and Oxymatrine Pesticide Residues in Tea by Magnetic Solid-Phase Extraction Coupled with Liquid Chromatography-Tandem Mass Spectrometry

We developed a magnetic solid-phase extraction method using Fe_(3)O_(4)@polydopamine(Fe_(3)O_(4)@PDA)as adsorbents,coupled with liquid chromatography-tandem mass spectrometry(LC-MS/MS),for the enrichment and quantification of trace matrine and oxymatrine pesticide residues in tea.The adsorbent was easily synthesized at room temperature with high yields(500 mg).We investigated and optimized several factors that influence the efficiency of the method,including matrix pH,adsorbent amount,adsorption time,type of elution solvent.

Bifunctional small molecules targeting PD-L1/CXCL12 as dual immunotherapy for cancer treatment

Dear Editor,Inhibiting PD-1/PD-L1 interaction is a highly promising therapeutic modality.1 However,due to the low overall response rate in patients,researchers have attempted to combine PD-L1 inhibitors with other antitumor agents for cancer therapy.Studies have shown that combination immunotherapy of PD-L1 antibodies with CXCL12 inhibitors exhibited synergistic and better antitumor efficacy than monotherapy,indicating the potential clinical utility of targeting both PD-L1 and CXCL12 as dual immunotherapy to treat cancer.2,3 However,there are several disadvantages for combination therapy,including unpredictable PK/PD and overlapping toxicities.A potential alternative to combination therapy would be to use a single molecule with dual or multi-targeting capability,as the PK/PD of a single molecule is easily predictable.For example,dual-targeting bispecific antibodies(bsAbs)have gained significant attention in the field of anticancer drug discovery in recent years.Many PD-1/PD-L1-based bsAbs(e.g.,anti-PD-L1/TGF-β,anti-PD-1/CTLA-4,and anti-PD-1/LAG-3)have entered clinical trials as dual immunotherapy for treating cancer.

Tissue resident regulatory T cells： novel therapeutic targets for human disease

Over the past decade, the ability of regulatory T cells （Tregs） to suppress multiple types of immune cells has received tremendous attention. Mounting evidence has revealed that tissue resident Tregs control non-immunological processes of their target tissues and contribute to a plethora of human diseases. The identification of novel tissue-specific Tregs has highlighted their heterogeneity and complexity. This review summarizes the recent findings for visceral adipose tissue CD4＋Foxp3＋ regulatory T cells （VAT Tregs）, muscle Tregs, bone Tregs and skin memory Tregs, with a focus on their unique functions in local tissues. This interpretation of the roles of tissue-specific Tregs and of their involvement in disease progression provides new insight into the discovery of potential therapeutic targets of human diseases.

Therapeutic silencing miR-146b-5p improves cardiac remodeling in a porcine model of myocardial infarction by modulating the wound reparative phenotype

Fibrotic remodeling is an adverse consequence of immune response-driven phenotypic modulation of cardiac cells following myocardial infarction(Ml).MicroRNA-146b(miR-146b)is an active regulator of immunomodulation,but its function in the cardiac inflammatory cascade and its clinical implication in fibrotic remodeling following Ml remain largely unknown.Herein,miR-146b-5p was found to be upregulated in the infarcted myocardium of mice and the serum of myocardial ischemia patients.Gain-and loss-of-function experiments demonstrated that miR-146b-5p was a hypoxia-induced regulator that governed the pro-fibrotic phenotype transition of cardiac cells.Overexpression of miR-146b-5p activated fibroblast proliferation,migration,and fibroblast-to-myofibroblast transition,impaired endothelial cell function and stress survival,and disturbed macrophage paracrine signaling.Interestingly,the opposite effects were observed when miR-146b-5p expression was inhibited.Luciferase assays and rescue studies demonstrated that the miR-146b-5p target genes mediating the above phenotypic modulations included interleukin 1 receptor associated kinase 1(IRAKI)and carcinoembryonic antigen related cell adhesion molecule 1(CEACAM1).Local delivery of a miR-146b-5p antagomir significantly reduced fibrosis and cell death,and upregulated capillary and reparative macrophages in the infarcted myocardium to restore cardiac remodeling and function in both mouse and porcine Ml models.Local inhibition of miR-146b-5p may represent a novel therapeutic approach to treat cardiac fibrotic remodeling and dysfunction following Ml.