七十年代,联合国环境规划署(UNEP)建立了全球环境监测系统(GEMS),世界卫生组织(WHO)主持了与健康有关的监测活动(HEALTH RELATED MONITORING),开展了全球大气、水质、食品、生物(人血中铅、镉;人乳中有机氯)以及呼吸气个体接触量监测....七十年代,联合国环境规划署(UNEP)建立了全球环境监测系统(GEMS),世界卫生组织(WHO)主持了与健康有关的监测活动(HEALTH RELATED MONITORING),开展了全球大气、水质、食品、生物(人血中铅、镉;人乳中有机氯)以及呼吸气个体接触量监测.八十年代初,我国参加全部上述监测的合作规化,江苏省的无锡以及南京、常州等城市,分别参加了全球水质及生物监测点的工作.展开更多
Neuromuscular electrical stimulation(NMES)is a well-established therapeutic approach for chronic wounds.Conventionally,NMES involves direct electrode contact with wounds or adjacent healthy skin;however,it is limited ...Neuromuscular electrical stimulation(NMES)is a well-established therapeutic approach for chronic wounds.Conventionally,NMES involves direct electrode contact with wounds or adjacent healthy skin;however,it is limited by the need for wound exposure and by increased pain.Our preliminary study demonstrated the innovative application of remote NMES(rNMES)to the skeletal muscle of the distal calf,which showed the potential to accelerate wound healing in remote areas.rNMES was effective in human clinical trials in our previous work,although the underlying mechanisms remain unclear.As rNMES is often used to stimulate muscle contraction in long-term bedridden patients,we analyzed data from the Gene Expression Omnibus(GEO)database and found that exercise promotes midkine(MDK)expression in muscle.MDK is a small secreted heparin-binding protein that interacts with multiple cell surface receptors to promote growth.In the present study,we found that MDK significantly enhanced macrophage efferocytosis in a low-density lipoprotein receptor-related protein 1(LRP1)-dependent manner.Our findings demonstrate that rNMES upregulates MDK expression in skeletal muscles through the AMPK-ERK axis,facilitating its delivery to wounds through the circulatory system and promoting LRP1-mediated efferocytosis of apoptotic cells,thereby expediting wound healing.展开更多
Diabetes mellitus is an escalating global health issue,with 463 million adults affected in 2019.Without intervention,this number is projected to increase to 578 million by 2030 and 700 million by 2045[1].Diabetic woun...Diabetes mellitus is an escalating global health issue,with 463 million adults affected in 2019.Without intervention,this number is projected to increase to 578 million by 2030 and 700 million by 2045[1].Diabetic wound,a significant complication,is characterized by delayed healing,high disability rates,and elevated mortality[2].The challenges of wound healing in diabetic patients,compounded by their high morbidity and mortality rates,have drawn growing attention in biomedical research.展开更多
Wound management continues to present major clinical challenges,often necessitating therapeutic strategies that extend beyond conventional dressings,which provide only passive protection.Magnesium(Mg),a biologically i...Wound management continues to present major clinical challenges,often necessitating therapeutic strategies that extend beyond conventional dressings,which provide only passive protection.Magnesium(Mg),a biologically indispensable element,has attracted considerable attention for its multifaceted role in wound repair,including modulation of inflammatory responses,stimulation of fibroblast and keratinocyte proliferation,promotion of angiogenesis,and enhancement of collagen synthesis.However,the direct application of Mg formulations is limited by uncontrolled Mg ion(Mg^(2+))release,localized cytotoxicity at elevated concentrations,and inadequate mechanical stability at the wound site.To address these challenges,Mg-incorporated polymeric scaffolds have been developed as advanced delivery platforms.These systems integrate the regenerative capacity of Mg with the tunable properties of polymers,enabling controlled degradation,mechanical reinforcement,and sustained Mg^(2+)release to establish a favorable microenvironment for tissue repair.This review critically examines the role of Mg in wound healing and the effectiveness of polymeric matrices for controlled Mg^(2+)delivery.It further provides a comprehensive evaluation of recent advances in Mg-incorporated polymeric scaffolds,including nanofibers,hydrogels,and sponges,with emphasis on fabrication strategies,structural characteristics,and therapeutic efficacy.Key challenges,such as optimizing ion release kinetics,enhancing scaffold stability,and facilitating clinical translation,are also discussed.Collectively,this work underscores the potential of Mg-polymeric scaffolds as a next-generation platform for advanced wound care and highlights perspectives for future research and development.展开更多
The development of highly efficient and multifunctional nanozymes holds promise for addressing the challenges posed by drugresistant bacteria.Here,copper single-atom-loaded MoS_(2) nanozymes(CuSAs/MoS_(2))were develop...The development of highly efficient and multifunctional nanozymes holds promise for addressing the challenges posed by drugresistant bacteria.Here,copper single-atom-loaded MoS_(2) nanozymes(CuSAs/MoS_(2))were developed to effectively combat drug-resistant bacteria by synergistically integrating the triple strategies of oxidative damage,cuproptosis-like death and disruption of cell wall synthesis.Density functional theory revealed that each Cu center coordinated with three sulfur ligands,enhancing the adsorption of H_(2)O_(2),which reduced the activation energy of the key step by 17%,thereby improving peroxidase-like(PODlike)activity.The generation of reactive oxygen species in combination with CuSAs/MoS_(2) glutathione peroxidase-like(GSH-Px-like)for glutathione scavenging resulted in an imbalance in redox homeostasis within bacteria.CuSAs/MoS_(2),which act as nanopioneers,drive oxidative stress to initiate the process of cuproptosis-like death,leading to abnormal aggregation of lipoylated proteins and inactivation of iron-sulfur cluster proteins.Moreover,CuSAs/MoS_(2) inhibited the biosynthesis of the peptidoglycan synthesis precursors D-glutamate and m-diaminopimelic acid and disrupted the peptidoglycan cross-linking process mediated by penicillin-binding proteins,effectively blocking the compensatory cell wall remodeling pathway ofβ-lactam-resistant bacteria.Overall,CuSAs/MoS_(2) with multiple functions can not only efficiently kill bacteria but also decelerate the development of bacterial resistance to combat drug-resistant bacterial infections.展开更多
Methicillin-resistant Staphylococcus aureus(MRSA) causes widespread infections and poses serious public health concerns. Its high level of resistance to multiple antibiotics has garnered growing interest in identifyin...Methicillin-resistant Staphylococcus aureus(MRSA) causes widespread infections and poses serious public health concerns. Its high level of resistance to multiple antibiotics has garnered growing interest in identifying and applying novel antibacterial compounds derived from natural sources. In this study, we purified a biosurfactant(BS) from Bacillus rugosus HH2 to develop a natural antibacterial agent. This agent was then reinforced with chitooligosaccharide(COS) and polyvinyl alcohol(PVA) to create a hydrogel that promoted healing in MRSA-infected wounds. The COS/PVA/BS hydrogel was readily fabricated via the freeze-thaw method and demonstrated excellent mechanical strength, biological activity,and biocompatibility. In vitro assays confirmed that the hydrogel significantly enhanced the proliferation, migration, angiogenesis, and extracellular matrix deposition of fibroblasts,keratinocytes, and endothelial cells. Moreover, it exhibited strong bacteriostatic and bactericidal activities against MRSA, along with potent antibiofilm activity and inhibition of virulence factors relevant to MRSA-induced wound infections. Its anti-virulence effects have been linked to the downregulation of quorum sensing and virulence-related genes in MRSA. In an in vivo model of MRSA-induced infection, the COS/PVA/BS hydrogel significantly accelerated wound healing and markedly reduced the MRSA burden. Immunofluorescence staining confirmed enhanced neovascularization and regulated macrophage responses,underscoring the angiogenic and immunomodulatory effects of the hydrogel. Overall,the COS/PVA/BS hydrogel represents a promising therapeutic strategy for addressing antibiotic-resistant bacterial infections and promoting wound repair, supported by the use of common raw materials, a simple fabrication process, and high-yield production of natural antibacterial agents.展开更多
Burn infection is one of the most common and severe complications in burn patients and a major factor contributing to high mortality rates.The loss of skin barrier function and the immunosuppressive state following bu...Burn infection is one of the most common and severe complications in burn patients and a major factor contributing to high mortality rates.The loss of skin barrier function and the immunosuppressive state following burns make patients highly susceptible to wound infections,which can progress to systemic sepsis.Although burn wounds are initially sterile,they are rapidly colonized by Gram-positive bacteria(e.g.,Staphylococcus aureus)within a short period,followed by colonization with Gram-negative bacteria(e.g.,Pseudomonas aeruginosa),thereby increasing therapeutic challenges.Current clinical management relies on a multidisciplinary collaborative approach,combining conventional antibiotics,emerging therapies,and comprehensive care strategies.Among these methods,early intervention,precise treatment administration,and prevention and control are critical to improving patient survival and prognosis.In recent years,drug-loaded hydrogels,as a class of wound repair materials characterized by biocompatibility,controlled drug release,and multifunctional integration,have demonstrated significant advantages in the treatment of burn infections.They can effectively inhibit pathogenic microorganisms,alleviate inflammation,and promote tissue regeneration.This review systematically summarizes recent research advances in the application of drug-loaded hydrogels for the treatment of infected burn wounds,aiming to provide a reference for their further development and clinical translation.展开更多
Debate over the benefits and harms of icing acute muscle injuries remains unresolved.Some contend that ice is ineffective or even harmful,while others promote cryotherapy as a universal remedy.Centrists,often academic...Debate over the benefits and harms of icing acute muscle injuries remains unresolved.Some contend that ice is ineffective or even harmful,while others promote cryotherapy as a universal remedy.Centrists,often academics,call for more high-quality randomized controlled trials(RCTs)to resolve the issue.This viewpoint reframes the debate around 3 key points:first,although ice produces analgesia,evidence for sustained pain relief,beyond the immediate post-treatment period.展开更多
Objective:To evaluate the effects of a piceatannol-loaded self-nanoemulsifying drug delivery system(PIC-SNEDDS)on wound healing in diabetic rats and its mechanisms of wound healing action.Methods:Diabetes was induced ...Objective:To evaluate the effects of a piceatannol-loaded self-nanoemulsifying drug delivery system(PIC-SNEDDS)on wound healing in diabetic rats and its mechanisms of wound healing action.Methods:Diabetes was induced in rats using streptozotocin,after which full-thickness excisional wounds were created.Piceatannol was administered topically either as a raw hydrogel or formulated into a PIC-SNEDDS,which was prepared using an optimized oil-surfactant mixture and incorporated into a hydrogel for application.Wound healing activity was assessed through measurements of wound contraction,oxidative stress biomarkers,and collagen content,along with histological and immunohistochemical evaluation of inflammatory,angiogenic,and remodeling markers.Results:PIC-SNEDDS markedly enhanced diabetic wound healing by promoting epithelial regeneration,granulation tissue formation,epidermal proliferation,and keratinization.The formulation also reduced the expression of pro-inflammatory markers(interleukin-6,nuclear factor-kappa B,and tumor necrosis factor-α)while increasingα-smooth muscle actin,transforming growth factor-β1,vascular endothelial growth factor-A,and hydroxyproline levels.Additionally,it improved antioxidant status by lowering malondialdehyde levels and boosting superoxide dismutase and catalase activity,along with upregulation of COL1A1 mRNA expression.Conclusions:PIC-SNEDDS promotes the healing of diabetic wounds and exhibits anti-inflammatory,antioxidant,pro-collagen,and angiogenic properties.展开更多
Delayed wound healing following radical gastrectomy remains an important yet underappreciated complication that prolongs hospitalization,increases costs,and undermines patient recovery.In An et al’s recent study,the ...Delayed wound healing following radical gastrectomy remains an important yet underappreciated complication that prolongs hospitalization,increases costs,and undermines patient recovery.In An et al’s recent study,the authors present a machine learning-based risk prediction approach using routinely available clinical and laboratory parameters.Among the evaluated algorithms,a decision tree model demonstrated excellent discrimination,achieving an area under the curve of 0.951 in the validation set and notably identifying all true cases of delayed wound healing at the Youden index threshold.The inclusion of variables such as drainage duration,preoperative white blood cell and neutrophil counts,alongside age and sex,highlights the pragmatic appeal of the model for early postoperative monitoring.Nevertheless,several aspects warrant critical reflection,including the reliance on a postoperative variable(drainage duration),internal validation only,and certain reporting inconsistencies.This letter underscores both the promise and the limitations of adopting interpretable machine learning models in perioperative care.We advocate for transparent reporting,external validation,and careful consideration of clinically actionable timepoints before integration into practice.Ultimately,this work represents a valuable step toward precision risk stratification in gastric cancer surgery,and sets the stage for multicenter,prospective evaluations.展开更多
The inherent oxygen sensitivity of hydrogenases has limited their biomedical use.We report a hybrid peptide-nanocluster hydrogel that establishes a self-sustained anaerobic microenvironment,enabling hydrogenase-cataly...The inherent oxygen sensitivity of hydrogenases has limited their biomedical use.We report a hybrid peptide-nanocluster hydrogel that establishes a self-sustained anaerobic microenvironment,enabling hydrogenase-catalyzed hydrogen therapy under aerobic conditions.The Fmoc-KYF peptide network traps O_(2) in hydrophobic pockets,while photoexcited silver nanoclusters rapidly scavenge residual oxygen,ensuring stable hydrogen evolution.In vitro,the generated hydrogen mitigates oxidative stress and inflammation.In diabetic mice,the light-activated system accelerates wound closure,promotes angiogenesis,and drives macrophage polarization toward a reparative phenotype.This study introduces a bioengineering strategy that integrates material design,enzyme catalysis,and photodynamics to overcome oxygen limitation and advance hydrogenase-based therapeutic applications.展开更多
International patients are flocking to Hainan for healing through the ancient technique of traditional Chinese medicine.SAREN,a traditional Chinese medicine(TCM)doctor,keeps vipbooks filled with warm messages in var...International patients are flocking to Hainan for healing through the ancient technique of traditional Chinese medicine.SAREN,a traditional Chinese medicine(TCM)doctor,keeps vipbooks filled with warm messages in various languages in her consulting room at Sanya International Friendship Sanatorium of TCM.These expressions of gratitude not only document a long medical career,but also vividly testify to how a Chinese doctor has used acupuncture to cure patients from around the world.展开更多
Objective:To analyze the clinical application value of autologous periosteum graft combined with platelet-rich plasma(PRP)in the treatment of long bone fractures in the extremities.Methods:A total of 40 patients with ...Objective:To analyze the clinical application value of autologous periosteum graft combined with platelet-rich plasma(PRP)in the treatment of long bone fractures in the extremities.Methods:A total of 40 patients with long bone fractures in the extremities admitted to Santai Hospital Affiliated to North Sichuan Medical College from January 2023 to January 2025 were included,including cases of upper extremity forearm fractures and lower extremity femoral and tibial fractures.The patients were evenly divided using a random number table,with the control group undergoing open reduction and internal fixation(ORIF)combined with autologous periosteum graft,and the observation group undergoing ORIF,autologous periosteum graft,and PRP injection.Surgical indicators,complication rates,excellent fracture healing rates,functional satisfaction,and joint range of motion were compared between the two groups.Results:The surgical indicators in the observation group were similar to those in the control group(p>0.05).The complication rate in the observation group was lower than that in the control group,while the excellent fracture healing rate and functional satisfaction were higher in the observation group(p<0.05).Conclusion:Autologous periosteum graft combined with PRP technology is safe and reliable for the treatment of long bone fractures in the extremities,with satisfactory clinical outcomes.展开更多
This study presents a physics-informed modelling framework that combines finite element method(FEM)simulations and supervised machine learning(ML)to predict the self-healing performance of microbial concrete.A FEniCS-...This study presents a physics-informed modelling framework that combines finite element method(FEM)simulations and supervised machine learning(ML)to predict the self-healing performance of microbial concrete.A FEniCS-based FEM platform resolves multiphysics phenomena including nutrient diffusion,microbial CaCO_(3) precipitation,and stiffness recovery.These simulations,together with experimental data,are used to train ML models(Random Forest yielding normalized RMSE≈0.10)capable of predicting performance over a wide range of design parameters.Feature importance analysis identifies curing temperature,calcium carbonate precipitation rate,crack width,bacterial strain,and encapsulation method as the most influential parameters.The coupled FEM-ML approach enables sensitivity analysis,design optimization,and prediction beyond the training dataset(consistently exceeding 90%healing efficiency).Experimental validation confirms model robustness in both crack closure and strength recovery.This FEM–ML pipeline thus offers a generalizable,interpretable,and scalable strategy for the design of intelligent,self-adaptive construction materials.展开更多
文摘七十年代,联合国环境规划署(UNEP)建立了全球环境监测系统(GEMS),世界卫生组织(WHO)主持了与健康有关的监测活动(HEALTH RELATED MONITORING),开展了全球大气、水质、食品、生物(人血中铅、镉;人乳中有机氯)以及呼吸气个体接触量监测.八十年代初,我国参加全部上述监测的合作规化,江苏省的无锡以及南京、常州等城市,分别参加了全球水质及生物监测点的工作.
基金supported by the National Natural Science Foundation of China(Grant No.82271252 to W.L.,No.8217091029 to T.W.and No.82204542 to L.H.)the Key Medical Research Projects of Jiangsu Health and Health Commission(Grant No.K2023066 to L.Z.)the Taishan Industrial Talent Project(Grant No.2020-371722-73-03-097290 to W.L.).
文摘Neuromuscular electrical stimulation(NMES)is a well-established therapeutic approach for chronic wounds.Conventionally,NMES involves direct electrode contact with wounds or adjacent healthy skin;however,it is limited by the need for wound exposure and by increased pain.Our preliminary study demonstrated the innovative application of remote NMES(rNMES)to the skeletal muscle of the distal calf,which showed the potential to accelerate wound healing in remote areas.rNMES was effective in human clinical trials in our previous work,although the underlying mechanisms remain unclear.As rNMES is often used to stimulate muscle contraction in long-term bedridden patients,we analyzed data from the Gene Expression Omnibus(GEO)database and found that exercise promotes midkine(MDK)expression in muscle.MDK is a small secreted heparin-binding protein that interacts with multiple cell surface receptors to promote growth.In the present study,we found that MDK significantly enhanced macrophage efferocytosis in a low-density lipoprotein receptor-related protein 1(LRP1)-dependent manner.Our findings demonstrate that rNMES upregulates MDK expression in skeletal muscles through the AMPK-ERK axis,facilitating its delivery to wounds through the circulatory system and promoting LRP1-mediated efferocytosis of apoptotic cells,thereby expediting wound healing.
基金supported by a grant from General Scientific Research Project of Zhejiang Provincial Department of Education(No.Y202455614).
文摘Diabetes mellitus is an escalating global health issue,with 463 million adults affected in 2019.Without intervention,this number is projected to increase to 578 million by 2030 and 700 million by 2045[1].Diabetic wound,a significant complication,is characterized by delayed healing,high disability rates,and elevated mortality[2].The challenges of wound healing in diabetic patients,compounded by their high morbidity and mortality rates,have drawn growing attention in biomedical research.
文摘Wound management continues to present major clinical challenges,often necessitating therapeutic strategies that extend beyond conventional dressings,which provide only passive protection.Magnesium(Mg),a biologically indispensable element,has attracted considerable attention for its multifaceted role in wound repair,including modulation of inflammatory responses,stimulation of fibroblast and keratinocyte proliferation,promotion of angiogenesis,and enhancement of collagen synthesis.However,the direct application of Mg formulations is limited by uncontrolled Mg ion(Mg^(2+))release,localized cytotoxicity at elevated concentrations,and inadequate mechanical stability at the wound site.To address these challenges,Mg-incorporated polymeric scaffolds have been developed as advanced delivery platforms.These systems integrate the regenerative capacity of Mg with the tunable properties of polymers,enabling controlled degradation,mechanical reinforcement,and sustained Mg^(2+)release to establish a favorable microenvironment for tissue repair.This review critically examines the role of Mg in wound healing and the effectiveness of polymeric matrices for controlled Mg^(2+)delivery.It further provides a comprehensive evaluation of recent advances in Mg-incorporated polymeric scaffolds,including nanofibers,hydrogels,and sponges,with emphasis on fabrication strategies,structural characteristics,and therapeutic efficacy.Key challenges,such as optimizing ion release kinetics,enhancing scaffold stability,and facilitating clinical translation,are also discussed.Collectively,this work underscores the potential of Mg-polymeric scaffolds as a next-generation platform for advanced wound care and highlights perspectives for future research and development.
基金supported by the National Natural Science Foundation of China(82372552)the Excellent Youth of Natural Science Research Projects in Anhui Province Universities(2023AH030060)+1 种基金Anhui Provincial Natural Science Foundation(2408085Y016)Anhui Province Excellent Research and Innovation Team Project(2024AH010013)。
文摘The development of highly efficient and multifunctional nanozymes holds promise for addressing the challenges posed by drugresistant bacteria.Here,copper single-atom-loaded MoS_(2) nanozymes(CuSAs/MoS_(2))were developed to effectively combat drug-resistant bacteria by synergistically integrating the triple strategies of oxidative damage,cuproptosis-like death and disruption of cell wall synthesis.Density functional theory revealed that each Cu center coordinated with three sulfur ligands,enhancing the adsorption of H_(2)O_(2),which reduced the activation energy of the key step by 17%,thereby improving peroxidase-like(PODlike)activity.The generation of reactive oxygen species in combination with CuSAs/MoS_(2) glutathione peroxidase-like(GSH-Px-like)for glutathione scavenging resulted in an imbalance in redox homeostasis within bacteria.CuSAs/MoS_(2),which act as nanopioneers,drive oxidative stress to initiate the process of cuproptosis-like death,leading to abnormal aggregation of lipoylated proteins and inactivation of iron-sulfur cluster proteins.Moreover,CuSAs/MoS_(2) inhibited the biosynthesis of the peptidoglycan synthesis precursors D-glutamate and m-diaminopimelic acid and disrupted the peptidoglycan cross-linking process mediated by penicillin-binding proteins,effectively blocking the compensatory cell wall remodeling pathway ofβ-lactam-resistant bacteria.Overall,CuSAs/MoS_(2) with multiple functions can not only efficiently kill bacteria but also decelerate the development of bacterial resistance to combat drug-resistant bacterial infections.
基金supported by the Basic Science Research Program through the National Research Foundation of Korea(NRF) funded by the Ministry of Education (RS-2021-NR060118,RS-2024-00408404, and RS-2025-00555808)supported by the Korea Institute of Marine Science&Technology Promotion (KIMST)funded by the Ministry of Oceans and Fisheries (RS-2024-00404977)。
文摘Methicillin-resistant Staphylococcus aureus(MRSA) causes widespread infections and poses serious public health concerns. Its high level of resistance to multiple antibiotics has garnered growing interest in identifying and applying novel antibacterial compounds derived from natural sources. In this study, we purified a biosurfactant(BS) from Bacillus rugosus HH2 to develop a natural antibacterial agent. This agent was then reinforced with chitooligosaccharide(COS) and polyvinyl alcohol(PVA) to create a hydrogel that promoted healing in MRSA-infected wounds. The COS/PVA/BS hydrogel was readily fabricated via the freeze-thaw method and demonstrated excellent mechanical strength, biological activity,and biocompatibility. In vitro assays confirmed that the hydrogel significantly enhanced the proliferation, migration, angiogenesis, and extracellular matrix deposition of fibroblasts,keratinocytes, and endothelial cells. Moreover, it exhibited strong bacteriostatic and bactericidal activities against MRSA, along with potent antibiofilm activity and inhibition of virulence factors relevant to MRSA-induced wound infections. Its anti-virulence effects have been linked to the downregulation of quorum sensing and virulence-related genes in MRSA. In an in vivo model of MRSA-induced infection, the COS/PVA/BS hydrogel significantly accelerated wound healing and markedly reduced the MRSA burden. Immunofluorescence staining confirmed enhanced neovascularization and regulated macrophage responses,underscoring the angiogenic and immunomodulatory effects of the hydrogel. Overall,the COS/PVA/BS hydrogel represents a promising therapeutic strategy for addressing antibiotic-resistant bacterial infections and promoting wound repair, supported by the use of common raw materials, a simple fabrication process, and high-yield production of natural antibacterial agents.
基金Supported by Natural Science Foundation of Guangxi(2025GXNSFHA069111,2020GXNSFAA159033,2019GXNSFAA245078)National Undergraduate Innovation and Entrepreneurship Training Program(202410601054).
文摘Burn infection is one of the most common and severe complications in burn patients and a major factor contributing to high mortality rates.The loss of skin barrier function and the immunosuppressive state following burns make patients highly susceptible to wound infections,which can progress to systemic sepsis.Although burn wounds are initially sterile,they are rapidly colonized by Gram-positive bacteria(e.g.,Staphylococcus aureus)within a short period,followed by colonization with Gram-negative bacteria(e.g.,Pseudomonas aeruginosa),thereby increasing therapeutic challenges.Current clinical management relies on a multidisciplinary collaborative approach,combining conventional antibiotics,emerging therapies,and comprehensive care strategies.Among these methods,early intervention,precise treatment administration,and prevention and control are critical to improving patient survival and prognosis.In recent years,drug-loaded hydrogels,as a class of wound repair materials characterized by biocompatibility,controlled drug release,and multifunctional integration,have demonstrated significant advantages in the treatment of burn infections.They can effectively inhibit pathogenic microorganisms,alleviate inflammation,and promote tissue regeneration.This review systematically summarizes recent research advances in the application of drug-loaded hydrogels for the treatment of infected burn wounds,aiming to provide a reference for their further development and clinical translation.
文摘Debate over the benefits and harms of icing acute muscle injuries remains unresolved.Some contend that ice is ineffective or even harmful,while others promote cryotherapy as a universal remedy.Centrists,often academics,call for more high-quality randomized controlled trials(RCTs)to resolve the issue.This viewpoint reframes the debate around 3 key points:first,although ice produces analgesia,evidence for sustained pain relief,beyond the immediate post-treatment period.
基金funded by the Deanship of Scientific Research at King Abdulaziz University,Jeddah,under Grant No.G:534-140-1443.
文摘Objective:To evaluate the effects of a piceatannol-loaded self-nanoemulsifying drug delivery system(PIC-SNEDDS)on wound healing in diabetic rats and its mechanisms of wound healing action.Methods:Diabetes was induced in rats using streptozotocin,after which full-thickness excisional wounds were created.Piceatannol was administered topically either as a raw hydrogel or formulated into a PIC-SNEDDS,which was prepared using an optimized oil-surfactant mixture and incorporated into a hydrogel for application.Wound healing activity was assessed through measurements of wound contraction,oxidative stress biomarkers,and collagen content,along with histological and immunohistochemical evaluation of inflammatory,angiogenic,and remodeling markers.Results:PIC-SNEDDS markedly enhanced diabetic wound healing by promoting epithelial regeneration,granulation tissue formation,epidermal proliferation,and keratinization.The formulation also reduced the expression of pro-inflammatory markers(interleukin-6,nuclear factor-kappa B,and tumor necrosis factor-α)while increasingα-smooth muscle actin,transforming growth factor-β1,vascular endothelial growth factor-A,and hydroxyproline levels.Additionally,it improved antioxidant status by lowering malondialdehyde levels and boosting superoxide dismutase and catalase activity,along with upregulation of COL1A1 mRNA expression.Conclusions:PIC-SNEDDS promotes the healing of diabetic wounds and exhibits anti-inflammatory,antioxidant,pro-collagen,and angiogenic properties.
文摘Delayed wound healing following radical gastrectomy remains an important yet underappreciated complication that prolongs hospitalization,increases costs,and undermines patient recovery.In An et al’s recent study,the authors present a machine learning-based risk prediction approach using routinely available clinical and laboratory parameters.Among the evaluated algorithms,a decision tree model demonstrated excellent discrimination,achieving an area under the curve of 0.951 in the validation set and notably identifying all true cases of delayed wound healing at the Youden index threshold.The inclusion of variables such as drainage duration,preoperative white blood cell and neutrophil counts,alongside age and sex,highlights the pragmatic appeal of the model for early postoperative monitoring.Nevertheless,several aspects warrant critical reflection,including the reliance on a postoperative variable(drainage duration),internal validation only,and certain reporting inconsistencies.This letter underscores both the promise and the limitations of adopting interpretable machine learning models in perioperative care.We advocate for transparent reporting,external validation,and careful consideration of clinically actionable timepoints before integration into practice.Ultimately,this work represents a valuable step toward precision risk stratification in gastric cancer surgery,and sets the stage for multicenter,prospective evaluations.
文摘International patients are flocking to Hainan for healing through the ancient technique of traditional Chinese medicine.SAREN,a traditional Chinese medicine(TCM)doctor,keeps vipbooks filled with warm messages in various languages in her consulting room at Sanya International Friendship Sanatorium of TCM.These expressions of gratitude not only document a long medical career,but also vividly testify to how a Chinese doctor has used acupuncture to cure patients from around the world.
文摘Objective:To analyze the clinical application value of autologous periosteum graft combined with platelet-rich plasma(PRP)in the treatment of long bone fractures in the extremities.Methods:A total of 40 patients with long bone fractures in the extremities admitted to Santai Hospital Affiliated to North Sichuan Medical College from January 2023 to January 2025 were included,including cases of upper extremity forearm fractures and lower extremity femoral and tibial fractures.The patients were evenly divided using a random number table,with the control group undergoing open reduction and internal fixation(ORIF)combined with autologous periosteum graft,and the observation group undergoing ORIF,autologous periosteum graft,and PRP injection.Surgical indicators,complication rates,excellent fracture healing rates,functional satisfaction,and joint range of motion were compared between the two groups.Results:The surgical indicators in the observation group were similar to those in the control group(p>0.05).The complication rate in the observation group was lower than that in the control group,while the excellent fracture healing rate and functional satisfaction were higher in the observation group(p<0.05).Conclusion:Autologous periosteum graft combined with PRP technology is safe and reliable for the treatment of long bone fractures in the extremities,with satisfactory clinical outcomes.
基金funding from the European Union’s Horizon 2020 Research and Innovation Programme under the Marie Skłodowska-Curie Grant Agreement No.945478(SASPRO2)supported by the ReBuilt project:Circular and Digital Renewal of Central Europe Construction and Building Sector CE0100390 ReBuiltthe Slovak Research and Development Agency under APVV-23-0383 and the Slovak Grant Agency VEGA No.2/0080/24.
文摘This study presents a physics-informed modelling framework that combines finite element method(FEM)simulations and supervised machine learning(ML)to predict the self-healing performance of microbial concrete.A FEniCS-based FEM platform resolves multiphysics phenomena including nutrient diffusion,microbial CaCO_(3) precipitation,and stiffness recovery.These simulations,together with experimental data,are used to train ML models(Random Forest yielding normalized RMSE≈0.10)capable of predicting performance over a wide range of design parameters.Feature importance analysis identifies curing temperature,calcium carbonate precipitation rate,crack width,bacterial strain,and encapsulation method as the most influential parameters.The coupled FEM-ML approach enables sensitivity analysis,design optimization,and prediction beyond the training dataset(consistently exceeding 90%healing efficiency).Experimental validation confirms model robustness in both crack closure and strength recovery.This FEM–ML pipeline thus offers a generalizable,interpretable,and scalable strategy for the design of intelligent,self-adaptive construction materials.
