Objective:To analyze the effect of simplified vacuum sealing drainage(VSD)in the treatment of chronic refractory wounds.Methods:A total of 90 patients with chronic refractory wounds treated from May 2022 to May 2023 w...Objective:To analyze the effect of simplified vacuum sealing drainage(VSD)in the treatment of chronic refractory wounds.Methods:A total of 90 patients with chronic refractory wounds treated from May 2022 to May 2023 were randomly divided into groups.The simplified VSD treatment was employed in group A,and conventional treatment was employed in group B,and the wound healing of both groups were compared.Results:Group A showed better wound healing compared to group B,P<0.05;the wound healing rate,wound healing duration,visual analog scale(VAS)score,wound dressing times and other indicators in group A were better than those in group B,P<0.05.The SF-36 score of group A was higher than that of group B,P<0.05;the complication rate of chronic refractory wounds in group A was no different from that in group B,P>0.05.Conclusion:Simplified VSD treatment is effective in treating patients with chronic refractory wounds,and it reduces the number of wound dressing changes and promote wound healing.展开更多
Simultaneously adjusting the surface,crystallographic and electronic structures of nanomaterials provide a new avenue for rational design of advanced photocatalyst yet it is challenging.In this work,a surface and stru...Simultaneously adjusting the surface,crystallographic and electronic structures of nanomaterials provide a new avenue for rational design of advanced photocatalyst yet it is challenging.In this work,a surface and structural engineering strategy is developed to simultaneously realize the 2D amorphous structure and oxygen(O)-doping in graphitic carbon nitride(g–C_(3)N_(4))via the assistance of supercritical carbon dioxide(SCCO_(2)).The 2D O-doped amorphous g-C_(3)N_(4)nanosheets display greatly enhanced photocatalytic CO_(2)reduction and methylene blue degradation performances.The synthesis method as well as the mechanism of the enhanced photocatalytic activity was investigated,wherein the introduction of 2D amorphous structure and O dopant in the g-C_(3)N_(4)contributes to the increased surface area,abundant active sites,wider visible-light absorption range and efficient charge separation property,and thus the outstanding photocatalytic activities can be obtained.Its photocatalytic CH_(4)evolution rate and MB degradation rete are 5.1 and 7.0 times enhancement over bulk crystalline g-C_(3)N_(4),respectively.This work presents a great promising way for designing and developing advanced photocatalysts.展开更多
We develop a dual porous (DP) TiO2 film for the electron transporting layer (ETL) in carbon cathode based perovskite solar cells (C-PSCs). The DP TiO2 film was synthesized via a facile PS-templated method with t...We develop a dual porous (DP) TiO2 film for the electron transporting layer (ETL) in carbon cathode based perovskite solar cells (C-PSCs). The DP TiO2 film was synthesized via a facile PS-templated method with the thickness being controlled by the spin-coating speed. It was found that there is an optimum DP TiO2 film thickness for achieving an effective ETL, a suitable perovskite]TiO2 interface, an efficient light harvester and thus a high performance C-PSC. In particular, such a DP TiO2 film can act as a scaffold for complete-filling of the pores with perovskite and for forming high-quality perovskite crystals that are seamlessly interfaced with Ti02 to enhance interracial charge injection. Leveraging the unique advantages of DP TiO2 ETL, together with a dense-packed and pinhole-free TiO2 compact layer, PCE of the C-PSCs has reached 9.81% with good stability.展开更多
With the rapid development of the social economy,people are paying more and more attention to environmental issues.If society wants sustainable development,it must put energy conservation and emission reduction on the...With the rapid development of the social economy,people are paying more and more attention to environmental issues.If society wants sustainable development,it must put energy conservation and emission reduction on the agenda.At this stage,China has vigorously promoted energy conservation and emission reduction,and all walks of life have gradually embarked on the green road of energy conservation.In recent years,energy saving measures has been widely used in China's oilfield electrical engineering.The author explores and analyzes the basic principles of energy saving measures applied in oilfield electrical engineering,and proposes an effective way to apply energy saving measures in oilfield electrical engineering,hoping to contribute to the energy saving effect of oilfield electrical engineering.展开更多
This paper discusses the use of GIS in oilfield power system,combined with the basic concept and advantages of GIS,combined with the characteristics of the oilfield power system,put forward the overall design system o...This paper discusses the use of GIS in oilfield power system,combined with the basic concept and advantages of GIS,combined with the characteristics of the oilfield power system,put forward the overall design system of the oilfield power system,ensure the stability of the power system operation,give full play to the role of GIS.展开更多
No clinically available biomarkers can predict pathological complete response(pCR)for esophageal squamous cell carcinomas(ESCCs)with neoadjuvant chemoradiotherapy(nCRT).Considering that antitumor immunity status is an...No clinically available biomarkers can predict pathological complete response(pCR)for esophageal squamous cell carcinomas(ESCCs)with neoadjuvant chemoradiotherapy(nCRT).Considering that antitumor immunity status is an important determinant for nCRT,we performed an integrative analysis of immune-related gene profiles from pretreatment biopsies and constructed the first individualized immune signature for pCR and outcome prediction of ESCCs through a multicenter analysis.During the discovery phase,14 differentially expressed immune-related genes(DEIGs)with greater than a twofold change between pCRs and less than pCRs(<pCRs)were revealed from 28 pretreatment tumors in a Guangzhou cohort using microarray data.Ten DEIGs were verified by qPCR from 30 cases in a Beijing discovery cohort.Then,a four-gene-based immune signature(SERPINE1,MMP12,PLAUR,and EPS8)was built based on the verified DEIGs from 71 cases in a Beijing training cohort,and achieved a high accuracy with an area under the receiver operating characteristic curve(AUC)of 0.970.The signature was further validated in an internal validation cohort and an integrated external cohort(Zhengzhou and Anyang cohorts)with AUCs of 0.890 and 0.859,respectively.Importantly,a multivariate analysis showed that the signature was the only independent predictor for pCR.In addition,patients with high predictive scores showed significantly longer overall and relapse-free survival across multiple centers(P<0.05).This is the first,validated,and clinically applicable individualized immune signature of pCR and outcome prediction for ESCCs with nCRT.Further prospective validation may facilitate the combination of nCRT and immunotherapy.展开更多
Severe aplastic anemia II(SAA-II)progresses from non-severe aplastic anemia(NSAA).The unavailability of efficacious treatment has prompted the need for haploidentical bone marrow transplantation(haplo-BMT)in patients ...Severe aplastic anemia II(SAA-II)progresses from non-severe aplastic anemia(NSAA).The unavailability of efficacious treatment has prompted the need for haploidentical bone marrow transplantation(haplo-BMT)in patients lacking a human leukocyte antigen(HLA)-matched donor.This study aimed to investigate the efficacy of haplo-BMT for patients with SAA-II.Twenty-two patients were included and followed up,and FLU/BU/CY/ATG was used as conditioning regimen.Among these patients,21 were successfully engrafted,19 of whom survived after haplo-BMT.Four patients experienced grade II–IV aGvHD,including two with grade III–IV aGvHD.Six patients experienced chronic GvHD,among whom four were mild and two were moderate.Twelve patients experienced infections during BMT.One was diagnosed with post-transplant lymphoproliferative disorder and one with probable EBV disease,and both recovered after rituximab infusion.Haplo-BMT achieved 3-year overall survival and disease-free survival rate of 86.4%±0.73%after a median follow-up of 42 months,indicating its effectiveness as a salvage therapy.These promising outcomes may support haplo-BMT as an alternative treatment strategy for patients with SAA-II lacking HLA-matched donors.展开更多
We present an improved geometric model of faulted detachment folding with pure shear that is characterized by core thickening and a ramp-discordant backlimb. The model includes a two-stage evolution: 1) detachment f...We present an improved geometric model of faulted detachment folding with pure shear that is characterized by core thickening and a ramp-discordant backlimb. The model includes a two-stage evolution: 1) detachment folding involving pure shear with fixed hinges, and 2) faulted detachment folding, in which the core of anticline thrusts above a break-through fault in forelimb by limb rotation. The growth strata patterns of the model are also discussed with respect to factors such as limb rotation, tectonic uplift rate, and sedimentation rate. A thrust-related fold, called a TBE thrust fold, in the Tarim Basin in NW China, is analyzed as an example of the theoretical model. The result indicates that the TBE thrust fold has undergone a two-stage evolution with shortening of a few hundred meters. Both the theoretical model and the actual example indicate that the shortening in the detachment folding stage takes up a large proportion of the total shortening. The structural restoration of the TBE thrust fold also provides new evidence that the formation of a series of thin-skinned structures in the SE Tarim Basin initiated in the Late Ordovician. The model may be applicable to low-amplitude faulted detachment folds.展开更多
This work explores the use of poly(3- hexylthiophene) (P3HT) modified carbon nanotubes (CNTs@P3HT) for the cathodes of hole transporter free, mesoscopic perovskite (CH3NH3PbI3) solar cells (PSCs), simultaneo...This work explores the use of poly(3- hexylthiophene) (P3HT) modified carbon nanotubes (CNTs@P3HT) for the cathodes of hole transporter free, mesoscopic perovskite (CH3NH3PbI3) solar cells (PSCs), simultaneously achieving high-performance, high stability and low-cost PSCs. Here the thin P3HT modifier acts as an electron blocker to inhibit electron transfer into CNTs and a hydrophobic polymer binder to tightly cross-link the CNTs together to compact the carbon electrode film and greatly stabilize the solar cell. On the other hand, the presence of CNTs greatly improve the conductivity of P3HT. By optimizing the concentration of the P3HT modifier (2 mg/mL), we have improved the power conversion efficiencies (PCEs) of CNTs@P3HT based PSCs up to 13.43% with an average efficiency of 12.54%, which is much higher than the pure CNTs based PSCs (best PCE 10.59%) and the sandwich-type P3HT/CNTs based PSCs (best PCE 9.50%). In addition, the hysteresis of the CNTs@P3HT based PSCs is remarkably reduced due to the intimate interface between the perovskite and CNTs@P3HT electrodes. Degradation of the CNTs@ P3HT based PSCs is also strongly retarded as compared to cells employing the pure CNTs electrode when exposed to the ambient condition of 20%- 40% humidity.展开更多
Combining the physical advantages of two-dimensional(2D)inorganic nanosheets and the modular design and programmed structure of metal-organic frameworks(MOFs),2D MOFs remain at the forefront of functional material res...Combining the physical advantages of two-dimensional(2D)inorganic nanosheets and the modular design and programmed structure of metal-organic frameworks(MOFs),2D MOFs remain at the forefront of functional material research.Despite tremendous efforts,precise control in the synthesis of 2D nonlayered MOFs with predesigned topology for desired applications remains challenging.Success in the bottom-up synthesis of 2D nonlayered MOFs via ligand exchange motivated us to incorporate partial BTC(BTC=1,3,5-benzenetricarboxylate)ligand dissociation and CO_(2) capped coordination into the top-down treatment of bulk Cu-BTC MOF,leading to successful conversion of a 3D nonlayered network to a 2D Cu-based topological structure.Notably,a supercritical CO_(2)-containing solvent mixture is employed to provide the desired defect and coordination engineering.Thus,our work introduces a new top-down concept based on modulated synthesis to fabricate high-quality 2D nonlayered MOFs for the first time.展开更多
文摘Objective:To analyze the effect of simplified vacuum sealing drainage(VSD)in the treatment of chronic refractory wounds.Methods:A total of 90 patients with chronic refractory wounds treated from May 2022 to May 2023 were randomly divided into groups.The simplified VSD treatment was employed in group A,and conventional treatment was employed in group B,and the wound healing of both groups were compared.Results:Group A showed better wound healing compared to group B,P<0.05;the wound healing rate,wound healing duration,visual analog scale(VAS)score,wound dressing times and other indicators in group A were better than those in group B,P<0.05.The SF-36 score of group A was higher than that of group B,P<0.05;the complication rate of chronic refractory wounds in group A was no different from that in group B,P>0.05.Conclusion:Simplified VSD treatment is effective in treating patients with chronic refractory wounds,and it reduces the number of wound dressing changes and promote wound healing.
基金financially supported by the National Natural Science Foundation of China(No.21773216,51173170,21703207)the financial support from the Innovation Talents Award of Henan Province(114200510019)+1 种基金Science and Technology Program from Henan province(152102410010)the China Postdoctoral Science Foundation(No.2018T110738)。
文摘Simultaneously adjusting the surface,crystallographic and electronic structures of nanomaterials provide a new avenue for rational design of advanced photocatalyst yet it is challenging.In this work,a surface and structural engineering strategy is developed to simultaneously realize the 2D amorphous structure and oxygen(O)-doping in graphitic carbon nitride(g–C_(3)N_(4))via the assistance of supercritical carbon dioxide(SCCO_(2)).The 2D O-doped amorphous g-C_(3)N_(4)nanosheets display greatly enhanced photocatalytic CO_(2)reduction and methylene blue degradation performances.The synthesis method as well as the mechanism of the enhanced photocatalytic activity was investigated,wherein the introduction of 2D amorphous structure and O dopant in the g-C_(3)N_(4)contributes to the increased surface area,abundant active sites,wider visible-light absorption range and efficient charge separation property,and thus the outstanding photocatalytic activities can be obtained.Its photocatalytic CH_(4)evolution rate and MB degradation rete are 5.1 and 7.0 times enhancement over bulk crystalline g-C_(3)N_(4),respectively.This work presents a great promising way for designing and developing advanced photocatalysts.
基金supported by the HK Innovation and Technology Fund (ITS/004/14)the HK-RGC General Research Funds (GRE No. HKUST 606511)
文摘We develop a dual porous (DP) TiO2 film for the electron transporting layer (ETL) in carbon cathode based perovskite solar cells (C-PSCs). The DP TiO2 film was synthesized via a facile PS-templated method with the thickness being controlled by the spin-coating speed. It was found that there is an optimum DP TiO2 film thickness for achieving an effective ETL, a suitable perovskite]TiO2 interface, an efficient light harvester and thus a high performance C-PSC. In particular, such a DP TiO2 film can act as a scaffold for complete-filling of the pores with perovskite and for forming high-quality perovskite crystals that are seamlessly interfaced with Ti02 to enhance interracial charge injection. Leveraging the unique advantages of DP TiO2 ETL, together with a dense-packed and pinhole-free TiO2 compact layer, PCE of the C-PSCs has reached 9.81% with good stability.
文摘With the rapid development of the social economy,people are paying more and more attention to environmental issues.If society wants sustainable development,it must put energy conservation and emission reduction on the agenda.At this stage,China has vigorously promoted energy conservation and emission reduction,and all walks of life have gradually embarked on the green road of energy conservation.In recent years,energy saving measures has been widely used in China's oilfield electrical engineering.The author explores and analyzes the basic principles of energy saving measures applied in oilfield electrical engineering,and proposes an effective way to apply energy saving measures in oilfield electrical engineering,hoping to contribute to the energy saving effect of oilfield electrical engineering.
文摘This paper discusses the use of GIS in oilfield power system,combined with the basic concept and advantages of GIS,combined with the characteristics of the oilfield power system,put forward the overall design system of the oilfield power system,ensure the stability of the power system operation,give full play to the role of GIS.
基金supported by the CAMS Innovation Fund for Medical Sciences(2017-I2M-1-005,2016-I2M-1-001)the National Key R&D Program of China(2016YFC1303201)+2 种基金the National Natural Science Foundation of China(81802299,81502514)the Fundamental Research Funds for the Central Universities(3332018070)the National Key Basic Research Development Plan(2018YFC1312105).
文摘No clinically available biomarkers can predict pathological complete response(pCR)for esophageal squamous cell carcinomas(ESCCs)with neoadjuvant chemoradiotherapy(nCRT).Considering that antitumor immunity status is an important determinant for nCRT,we performed an integrative analysis of immune-related gene profiles from pretreatment biopsies and constructed the first individualized immune signature for pCR and outcome prediction of ESCCs through a multicenter analysis.During the discovery phase,14 differentially expressed immune-related genes(DEIGs)with greater than a twofold change between pCRs and less than pCRs(<pCRs)were revealed from 28 pretreatment tumors in a Guangzhou cohort using microarray data.Ten DEIGs were verified by qPCR from 30 cases in a Beijing discovery cohort.Then,a four-gene-based immune signature(SERPINE1,MMP12,PLAUR,and EPS8)was built based on the verified DEIGs from 71 cases in a Beijing training cohort,and achieved a high accuracy with an area under the receiver operating characteristic curve(AUC)of 0.970.The signature was further validated in an internal validation cohort and an integrated external cohort(Zhengzhou and Anyang cohorts)with AUCs of 0.890 and 0.859,respectively.Importantly,a multivariate analysis showed that the signature was the only independent predictor for pCR.In addition,patients with high predictive scores showed significantly longer overall and relapse-free survival across multiple centers(P<0.05).This is the first,validated,and clinically applicable individualized immune signature of pCR and outcome prediction for ESCCs with nCRT.Further prospective validation may facilitate the combination of nCRT and immunotherapy.
基金This work was supported by grants from the National Natural Science Foundation of China(No.81570124 to Jinsong Yan,No.81702683 to Jiajun Xie,No.81773389 to Jing Shao)Science and Technology Innovation Leading Talent Program of Liaoning Province(No.XLYC1902036 to Jinsong Yan)+5 种基金Basic Research on the Application of Dalian Innovation Fund(No.2019J12SN56 to Jinsong Yan)Key R&D projects in Liaoning Province(No.2019JH8/10300027 to Jinsong Yan)Key Project of the Educational Department of Liaoning Province(No.LZ2020003 to Jinsong Yan)the Capital Health Research and Development of Special Project(No.2014-2-5122 to Hengxiang Wang)the Beijing Municipal Science and Technology Project(No.Z151100004015016 to Hengxiang Wang)the Dalian Medical Scientific Research Project(No.1712040 to Yan Yang)。
文摘Severe aplastic anemia II(SAA-II)progresses from non-severe aplastic anemia(NSAA).The unavailability of efficacious treatment has prompted the need for haploidentical bone marrow transplantation(haplo-BMT)in patients lacking a human leukocyte antigen(HLA)-matched donor.This study aimed to investigate the efficacy of haplo-BMT for patients with SAA-II.Twenty-two patients were included and followed up,and FLU/BU/CY/ATG was used as conditioning regimen.Among these patients,21 were successfully engrafted,19 of whom survived after haplo-BMT.Four patients experienced grade II–IV aGvHD,including two with grade III–IV aGvHD.Six patients experienced chronic GvHD,among whom four were mild and two were moderate.Twelve patients experienced infections during BMT.One was diagnosed with post-transplant lymphoproliferative disorder and one with probable EBV disease,and both recovered after rituximab infusion.Haplo-BMT achieved 3-year overall survival and disease-free survival rate of 86.4%±0.73%after a median follow-up of 42 months,indicating its effectiveness as a salvage therapy.These promising outcomes may support haplo-BMT as an alternative treatment strategy for patients with SAA-II lacking HLA-matched donors.
文摘We present an improved geometric model of faulted detachment folding with pure shear that is characterized by core thickening and a ramp-discordant backlimb. The model includes a two-stage evolution: 1) detachment folding involving pure shear with fixed hinges, and 2) faulted detachment folding, in which the core of anticline thrusts above a break-through fault in forelimb by limb rotation. The growth strata patterns of the model are also discussed with respect to factors such as limb rotation, tectonic uplift rate, and sedimentation rate. A thrust-related fold, called a TBE thrust fold, in the Tarim Basin in NW China, is analyzed as an example of the theoretical model. The result indicates that the TBE thrust fold has undergone a two-stage evolution with shortening of a few hundred meters. Both the theoretical model and the actual example indicate that the shortening in the detachment folding stage takes up a large proportion of the total shortening. The structural restoration of the TBE thrust fold also provides new evidence that the formation of a series of thin-skinned structures in the SE Tarim Basin initiated in the Late Ordovician. The model may be applicable to low-amplitude faulted detachment folds.
文摘This work explores the use of poly(3- hexylthiophene) (P3HT) modified carbon nanotubes (CNTs@P3HT) for the cathodes of hole transporter free, mesoscopic perovskite (CH3NH3PbI3) solar cells (PSCs), simultaneously achieving high-performance, high stability and low-cost PSCs. Here the thin P3HT modifier acts as an electron blocker to inhibit electron transfer into CNTs and a hydrophobic polymer binder to tightly cross-link the CNTs together to compact the carbon electrode film and greatly stabilize the solar cell. On the other hand, the presence of CNTs greatly improve the conductivity of P3HT. By optimizing the concentration of the P3HT modifier (2 mg/mL), we have improved the power conversion efficiencies (PCEs) of CNTs@P3HT based PSCs up to 13.43% with an average efficiency of 12.54%, which is much higher than the pure CNTs based PSCs (best PCE 10.59%) and the sandwich-type P3HT/CNTs based PSCs (best PCE 9.50%). In addition, the hysteresis of the CNTs@P3HT based PSCs is remarkably reduced due to the intimate interface between the perovskite and CNTs@P3HT electrodes. Degradation of the CNTs@ P3HT based PSCs is also strongly retarded as compared to cells employing the pure CNTs electrode when exposed to the ambient condition of 20%- 40% humidity.
基金the National Natural Science Foundation of China(Grants No.51173170,21571157,21703207,21773216,21903070,and U2004208).
文摘Combining the physical advantages of two-dimensional(2D)inorganic nanosheets and the modular design and programmed structure of metal-organic frameworks(MOFs),2D MOFs remain at the forefront of functional material research.Despite tremendous efforts,precise control in the synthesis of 2D nonlayered MOFs with predesigned topology for desired applications remains challenging.Success in the bottom-up synthesis of 2D nonlayered MOFs via ligand exchange motivated us to incorporate partial BTC(BTC=1,3,5-benzenetricarboxylate)ligand dissociation and CO_(2) capped coordination into the top-down treatment of bulk Cu-BTC MOF,leading to successful conversion of a 3D nonlayered network to a 2D Cu-based topological structure.Notably,a supercritical CO_(2)-containing solvent mixture is employed to provide the desired defect and coordination engineering.Thus,our work introduces a new top-down concept based on modulated synthesis to fabricate high-quality 2D nonlayered MOFs for the first time.
