The present study evaluated the effect of non-thermal plasma on skin wound healing in BalB/c mice.Two 6-mm wounds along the both sides of the spine were created on the back of each mouse(n=80) by using a punch biops...The present study evaluated the effect of non-thermal plasma on skin wound healing in BalB/c mice.Two 6-mm wounds along the both sides of the spine were created on the back of each mouse(n=80) by using a punch biopsy.The mice were assigned randomly into two groups,with 40 animals in each group:a non-thermal plasma group in which the mice were treated with the non-thermal plasma;a control group in which the mice were left to heal naturally.Wound healing was evaluated on postoperative days(POD) 4,7,10 and 14(n=5 per group in each POD) by percentage of wound closure.The mice was euthanized on POD 1,4,7,10,14,21,28 and 35(n=1 in each POD).The wounds were removed,routinely fixed,paraffin-embedded,sectioned and HE-stained.A modified scoring system was used to evaluate the wounds.The results showed that acute inflammation peaked on POD 4 in non-thermal plasma group,earlier than in control group in which acute inflammation reached a peak on POD 7,and the acute inflammation scores were much lower in non-thermal group than in control group on POD 7(P0.05).The amount of granular tissue was greater on POD 4 and 7 in non-thermal group than in control group(P0.05).The re-epithelialization score and the neovasularization score were increased significantly in non-thermal group when compared with control group on POD 7 and 10(P0.05 for all).The count of bacterial colonies was 103 CFU/mL on POD 4 and 20 CFU/mL on POD 7,significantly lower than that in control group(109 CFU/mL on POD 4 and 1012 CFU/mL on the POD 7)(P0.05).It was suggested that the non-thermal plasma facilitates the wound healing by suppressing bacterial colo-nization.展开更多
To investigate the bacterial colonization on zirconium oxide and titanium surfaces in vivo quantitatively using a confocal laser scanning microscope (CLSM). Ten samples of zirconium oxide ceramic and commercially pu...To investigate the bacterial colonization on zirconium oxide and titanium surfaces in vivo quantitatively using a confocal laser scanning microscope (CLSM). Ten samples of zirconium oxide ceramic and commercially pure titanium were fabricated and polished using silicon carbide abrasive paper. One sample from each group was evaluated topographic pattern under a scanning electron microscope. One sample from each group was to evaluate roughness using a profilometer. Eight volunteers were selected. The samples were cemented at the buccal surfaces of upper first molars. All samples were removed after 48 hours, immersed in SYTO-9 and propidium iodide fluorescent to stain for adherent bacteria and obseIved with CLSM. Fewer bacteria were observed in zirconia group than titanium group. However, there was no statistical difference between two groups. The experimental results demonstrate that zirconium oxide may be considered as a promising material for dental implant abutments.展开更多
Sixty six water samples were collected from inlets, inside and outlets of cooling towers (22 samples each, once a week). Samples were screened for bacterial colonization with special focus on Legionella. Percentage ...Sixty six water samples were collected from inlets, inside and outlets of cooling towers (22 samples each, once a week). Samples were screened for bacterial colonization with special focus on Legionella. Percentage occurrence of predominant bacteria present in water samples collected from inlets included: Klebsiella (95.45%), Enterobacter (90.9%), Pseudomonas (86.36%), Escherichia coli (81.81%), and Legionella (72.72%). While those predominant in water inside cooling towers were: Pseudomonas (100%), Staphylococci (81.81%), Legionella (81.81%) and Bacillus (72.72%). Incidence of Legionella recovered from inside and outlets of cooling towers sites was similar. Four species of Legionella were identified in water samples collected from inlets, inside and outlets of cooling towers, in the following consecutive frequencies L. pneumophila (72.72%, 81.81% and 81.81%), L. jordans (18.18%, 36.36% and 27.27%), L. dumffii (9.09%, 22.72% and 22.72%) and L. oekidegenes (4.54%, 13.63% and 18.18%). The increased percentage occurrence of Legionella in water collected from inlets and inside cooling towers, as well as those of Pseudomonas and Staphylococci suggest that Legionella is also a hardy organism, being potentially survive as free organism despite water disinfection.展开更多
Bronchodilator reversibility, a response of airway to bronchodilator, occurred in 64% of stable patients with chronic obstructive pulmonary disease (COPD). In patients with COPD who have a significant response to br...Bronchodilator reversibility, a response of airway to bronchodilator, occurred in 64% of stable patients with chronic obstructive pulmonary disease (COPD). In patients with COPD who have a significant response to bronchodilators, a clinical and functional response to inhaled corticosteroids is similar to that in asthmatics.展开更多
Biofilm-producing bacteria can decrease Cd uptake in vegetables, but mechanisms underlying this effect are poorly characterized. In this study, two mutant strains B12ΔYwcc and B12ΔSlr R were constructed from a biofi...Biofilm-producing bacteria can decrease Cd uptake in vegetables, but mechanisms underlying this effect are poorly characterized. In this study, two mutant strains B12ΔYwcc and B12ΔSlr R were constructed from a biofilm-producing Bacillus subtilis strain B12. Then, the impacts of strain B12 and its high biofilm-producing mutant strain B12ΔYwcc and low biofilmproducing mutant strain B12ΔSlr R on Cd availability and uptake in Chinese cabbage and the related mechanisms were investigated in the Cd-polluted soil. Strain B12 and its mutants B12ΔYwcc and B12ΔSlr R increased the dry biomasses of edible tissues by 54%–130% compared with the controls. Strain B12 and its mutant B12ΔYwcc reduced the soil available Cd content by 36%–50% and root and edible tissue Cd contents by 23%–50% compared with the controls. Furthermore, the mutant strain B12ΔYwcc reduced the edible tissue Cd content by40% and increased the polysaccharide content by 23%, invertase activity by 139%, and gene copies of the cum A by 4.5-fold, eps A by 7.1-fold, and cad A by 4.3-fold, which were involved in Cd adsorption in the rhizosphere soils, respectively, compared with strain B12. The polysaccharide content and cum A, eps A, and cad A gene copy numbers showed significantly reverse correlations with the available Cd content. Notably, the mutant strain B12ΔYwcc showed better ability to colonize the vegetable root surface than strain B12. These findings demonstrated that the biofilm-overproducing mutant strain B12ΔYwcc increased the polysaccharide production and Cd-immobilizing related cum A, eps A, and cad A gene copies, resulting in lower Cd availability and accumulation in Chinese cabbage in the Cd-polluted soil.展开更多
Proanthocyanidins and flavanoids, both subfamilies of the polyphenols, are highly concentrated in different fruits and berries as well as in fruit pomace. They have shown to exhibit anti-cancer, anti-microbial, anti-o...Proanthocyanidins and flavanoids, both subfamilies of the polyphenols, are highly concentrated in different fruits and berries as well as in fruit pomace. They have shown to exhibit anti-cancer, anti-microbial, anti-oxidative, and im- mune-modulatory effects in vertebrates. Herein the effect of additional apple pomace or red-grape pomace in conven- tional piglet starter feeds were investigated in 36 young growing piglets. Immunological marker gene expression was quantified by quantitative real-time RT-PCR in white blood cells, and intestinal bacterial flora was investigated from weaning to three weeks post weaning. Polyphenol content in red-grape pomace, gut content and tissues were analyzed with HPLC. Flavan-3-ols (epicatechin and catechin) and proanthocyanidins (B1, B2 and C1) were identified in the gas- tro-intestinal tract content, whereas only traces could be detected in various piglet organs. The blood parameters, he- moglobin and hematocrit, were affected and down-regulated in all groups over testing period. In both pomace treated groups more thrombocytes were present compared to the standard feeding group. It turns out, that the pomace diets had greatest impact on the bacterial content in the colon. Results demonstrate that feeding apple pomace and red- grape pomace tended to increase the number of total colonic bacteria. Steptococci/Enterococci increased in the red- grape pomace. C. perfringens was not detectable at the second time point. The number of lactobacilli increased in both applied diets. The number of Clostridium perfringens decreased with the age of the piglets. Trends of mRNA expression changes were found in white blood cell (WBC) between different feeding regimens, since the expression variability in the groups was very high. Between the different time points there were significant differences within the apple pomace group, where TNF? (p = 0.033), NF?B (p = 0.024) and Caspase 3 (p = 0.019) mRNA expression increased signifi- cantly during treatment. We conclude that both polyphenol rich feedings have the potential to positively influence the intestinal flora, blood parameters, and WBC mRNA gene expression pattern of immunological marker genes.展开更多
Pneumonia is a disease associated with significant healthcare burden with over 1.5 million hospitalizations annually and is the eighth leading cause of death in the United States.While community-acquired pneumonia(CAP...Pneumonia is a disease associated with significant healthcare burden with over 1.5 million hospitalizations annually and is the eighth leading cause of death in the United States.While community-acquired pneumonia(CAP)is generally considered an acute time-limited illness,it is associated with high long-term mortality,with nearly one-third of patients requiring hospitalization dying within one year.An increasing trend of detecting multidrug-resistant(MDR)organisms causing CAP has been observed,especially in the Western world.In this editorial,we discuss about a publication by Jatteppanavar et al which reported that a case of a MDR organism was the culprit in developing pneumonia,bacteremia,and infective endocarditis that led to the patient’s death.The early detection of these resistant organisms helps improve patient outcomes.Significant advances have been made in the biotechnological and research space,but preventive measures,diagnostic techniques,and treatment strategies need to be developed.展开更多
Background Pneumonia has become the predominant cause of death for the elderly. It is critical to determine the status of oropharyngeal pathogen colonization in the elderly when treating pneumonia. To explore the effi...Background Pneumonia has become the predominant cause of death for the elderly. It is critical to determine the status of oropharyngeal pathogen colonization in the elderly when treating pneumonia. To explore the efficient approaches to treat age-related pneumonia, we determined the status of oropharyngeal pathogenic colonization in the elderly community. Methods Throat swab cultures were used to isolate oropharyngeal pathogens from 706 residents older than 65 years living in the community of Shenyang City. Characteristics of bacterial strains were sorted and identified using drug sensitivity tests. Results Results of bacterial identification showed that 265 out of 706 samples were positive, thereby exhibiting a 37.5% positive rate. There were 290 bacterial strains isolated from the elderly community in total, of which 248 strains were gram-negative bacilli (GNB) and 42 strains were gram-positive cocci (GNC), accounting for 85.5% and 14.5%, respectively. There were 158 Klebsiella pneumoniae strains, representing 54.4% of the all GNB. Conclusion The rate of oropharyngeal GNB colonization in the elderly community increases and Klebsiella pneumoniae is the most common strain.展开更多
Hyperglycemia and bacterial colonization in diabetic wounds aberrantly activate Nod-like receptor protein 3(NLRP3)in macrophages,resulting in extensive inflammatory infiltration and impaired wound healing.Targeted sup...Hyperglycemia and bacterial colonization in diabetic wounds aberrantly activate Nod-like receptor protein 3(NLRP3)in macrophages,resulting in extensive inflammatory infiltration and impaired wound healing.Targeted suppression of the NLRP3 inflammasome shows promise in reducing macrophage inflammatory disruptions.However,challenges such as drug off-target effects and degradation via lysosomal capture remain during treatment.In this study,engineered apoptotic bodies(BHB-dABs)derived from adipose stem cells loaded with β-hydroxybutyric acid(BHB)were synthesized via biosynthesis.These vesicles target M1-type macrophages,which highly express the folic acid receptor in the inflammatory microenvironment,and facilitate lysosomal escape through 1,2-distearoyl-sn-propyltriyl-3-phosphatidylethanolaminepolyethylene glycol functionalization,which may enhance the efficacy of NLRP3 inhibition for managing diabetic wounds.Invitro studies demonstrated the biocompatibility of BHB-dABs,their selective targeting of M1-type macrophages,and their ability to release BHB within the inflammatory microenvironment via folic acid and folic acid receptor signaling.These nanovesicles exhibited lysosomal escape,antiinflammatory,mitochondrial protection,and endothelial cell vascularization properties.Invivo experiments demonstrated that BHB-dABs enhance the recovery of diabetic wound inflammation and angiogenesis,accelerating wound healing.These functionalized apoptotic bodies efficiently deliver NLRP3 inflammasome inhibitors using a dual strategy of targeting macrophages and promoting lysosomal escape.This approach represents a novel therapeutic strategy for effectively treating chronic diabetic wounds.展开更多
基金supported by grants from the National Natural Sciences Foundation of China(Nos.10875048,30700717)
文摘The present study evaluated the effect of non-thermal plasma on skin wound healing in BalB/c mice.Two 6-mm wounds along the both sides of the spine were created on the back of each mouse(n=80) by using a punch biopsy.The mice were assigned randomly into two groups,with 40 animals in each group:a non-thermal plasma group in which the mice were treated with the non-thermal plasma;a control group in which the mice were left to heal naturally.Wound healing was evaluated on postoperative days(POD) 4,7,10 and 14(n=5 per group in each POD) by percentage of wound closure.The mice was euthanized on POD 1,4,7,10,14,21,28 and 35(n=1 in each POD).The wounds were removed,routinely fixed,paraffin-embedded,sectioned and HE-stained.A modified scoring system was used to evaluate the wounds.The results showed that acute inflammation peaked on POD 4 in non-thermal plasma group,earlier than in control group in which acute inflammation reached a peak on POD 7,and the acute inflammation scores were much lower in non-thermal group than in control group on POD 7(P0.05).The amount of granular tissue was greater on POD 4 and 7 in non-thermal group than in control group(P0.05).The re-epithelialization score and the neovasularization score were increased significantly in non-thermal group when compared with control group on POD 7 and 10(P0.05 for all).The count of bacterial colonies was 103 CFU/mL on POD 4 and 20 CFU/mL on POD 7,significantly lower than that in control group(109 CFU/mL on POD 4 and 1012 CFU/mL on the POD 7)(P0.05).It was suggested that the non-thermal plasma facilitates the wound healing by suppressing bacterial colo-nization.
基金Funded by the National Natural Science Foundation of China(No.81271179)the Scientific Research Foundation for Returned Scholars,Ministry of Education of China(No.(2011)1568)the Science and Technology Program of Shanghai Pudong New Area Health Bureau(No.PW2010A-14)
文摘To investigate the bacterial colonization on zirconium oxide and titanium surfaces in vivo quantitatively using a confocal laser scanning microscope (CLSM). Ten samples of zirconium oxide ceramic and commercially pure titanium were fabricated and polished using silicon carbide abrasive paper. One sample from each group was evaluated topographic pattern under a scanning electron microscope. One sample from each group was to evaluate roughness using a profilometer. Eight volunteers were selected. The samples were cemented at the buccal surfaces of upper first molars. All samples were removed after 48 hours, immersed in SYTO-9 and propidium iodide fluorescent to stain for adherent bacteria and obseIved with CLSM. Fewer bacteria were observed in zirconia group than titanium group. However, there was no statistical difference between two groups. The experimental results demonstrate that zirconium oxide may be considered as a promising material for dental implant abutments.
文摘Sixty six water samples were collected from inlets, inside and outlets of cooling towers (22 samples each, once a week). Samples were screened for bacterial colonization with special focus on Legionella. Percentage occurrence of predominant bacteria present in water samples collected from inlets included: Klebsiella (95.45%), Enterobacter (90.9%), Pseudomonas (86.36%), Escherichia coli (81.81%), and Legionella (72.72%). While those predominant in water inside cooling towers were: Pseudomonas (100%), Staphylococci (81.81%), Legionella (81.81%) and Bacillus (72.72%). Incidence of Legionella recovered from inside and outlets of cooling towers sites was similar. Four species of Legionella were identified in water samples collected from inlets, inside and outlets of cooling towers, in the following consecutive frequencies L. pneumophila (72.72%, 81.81% and 81.81%), L. jordans (18.18%, 36.36% and 27.27%), L. dumffii (9.09%, 22.72% and 22.72%) and L. oekidegenes (4.54%, 13.63% and 18.18%). The increased percentage occurrence of Legionella in water collected from inlets and inside cooling towers, as well as those of Pseudomonas and Staphylococci suggest that Legionella is also a hardy organism, being potentially survive as free organism despite water disinfection.
文摘Bronchodilator reversibility, a response of airway to bronchodilator, occurred in 64% of stable patients with chronic obstructive pulmonary disease (COPD). In patients with COPD who have a significant response to bronchodilators, a clinical and functional response to inhaled corticosteroids is similar to that in asthmatics.
基金supported by the National Natural Science Foundation of China (No. 41977199)the Social Development Program of Jiangsu Province (No. BE2016744)。
文摘Biofilm-producing bacteria can decrease Cd uptake in vegetables, but mechanisms underlying this effect are poorly characterized. In this study, two mutant strains B12ΔYwcc and B12ΔSlr R were constructed from a biofilm-producing Bacillus subtilis strain B12. Then, the impacts of strain B12 and its high biofilm-producing mutant strain B12ΔYwcc and low biofilmproducing mutant strain B12ΔSlr R on Cd availability and uptake in Chinese cabbage and the related mechanisms were investigated in the Cd-polluted soil. Strain B12 and its mutants B12ΔYwcc and B12ΔSlr R increased the dry biomasses of edible tissues by 54%–130% compared with the controls. Strain B12 and its mutant B12ΔYwcc reduced the soil available Cd content by 36%–50% and root and edible tissue Cd contents by 23%–50% compared with the controls. Furthermore, the mutant strain B12ΔYwcc reduced the edible tissue Cd content by40% and increased the polysaccharide content by 23%, invertase activity by 139%, and gene copies of the cum A by 4.5-fold, eps A by 7.1-fold, and cad A by 4.3-fold, which were involved in Cd adsorption in the rhizosphere soils, respectively, compared with strain B12. The polysaccharide content and cum A, eps A, and cad A gene copy numbers showed significantly reverse correlations with the available Cd content. Notably, the mutant strain B12ΔYwcc showed better ability to colonize the vegetable root surface than strain B12. These findings demonstrated that the biofilm-overproducing mutant strain B12ΔYwcc increased the polysaccharide production and Cd-immobilizing related cum A, eps A, and cad A gene copies, resulting in lower Cd availability and accumulation in Chinese cabbage in the Cd-polluted soil.
基金This study was supported by the Bayerisches Staatsmin-isterium für Landwirtschaft und Forsten,L/a-7606.2-494.
文摘Proanthocyanidins and flavanoids, both subfamilies of the polyphenols, are highly concentrated in different fruits and berries as well as in fruit pomace. They have shown to exhibit anti-cancer, anti-microbial, anti-oxidative, and im- mune-modulatory effects in vertebrates. Herein the effect of additional apple pomace or red-grape pomace in conven- tional piglet starter feeds were investigated in 36 young growing piglets. Immunological marker gene expression was quantified by quantitative real-time RT-PCR in white blood cells, and intestinal bacterial flora was investigated from weaning to three weeks post weaning. Polyphenol content in red-grape pomace, gut content and tissues were analyzed with HPLC. Flavan-3-ols (epicatechin and catechin) and proanthocyanidins (B1, B2 and C1) were identified in the gas- tro-intestinal tract content, whereas only traces could be detected in various piglet organs. The blood parameters, he- moglobin and hematocrit, were affected and down-regulated in all groups over testing period. In both pomace treated groups more thrombocytes were present compared to the standard feeding group. It turns out, that the pomace diets had greatest impact on the bacterial content in the colon. Results demonstrate that feeding apple pomace and red- grape pomace tended to increase the number of total colonic bacteria. Steptococci/Enterococci increased in the red- grape pomace. C. perfringens was not detectable at the second time point. The number of lactobacilli increased in both applied diets. The number of Clostridium perfringens decreased with the age of the piglets. Trends of mRNA expression changes were found in white blood cell (WBC) between different feeding regimens, since the expression variability in the groups was very high. Between the different time points there were significant differences within the apple pomace group, where TNF? (p = 0.033), NF?B (p = 0.024) and Caspase 3 (p = 0.019) mRNA expression increased signifi- cantly during treatment. We conclude that both polyphenol rich feedings have the potential to positively influence the intestinal flora, blood parameters, and WBC mRNA gene expression pattern of immunological marker genes.
文摘Pneumonia is a disease associated with significant healthcare burden with over 1.5 million hospitalizations annually and is the eighth leading cause of death in the United States.While community-acquired pneumonia(CAP)is generally considered an acute time-limited illness,it is associated with high long-term mortality,with nearly one-third of patients requiring hospitalization dying within one year.An increasing trend of detecting multidrug-resistant(MDR)organisms causing CAP has been observed,especially in the Western world.In this editorial,we discuss about a publication by Jatteppanavar et al which reported that a case of a MDR organism was the culprit in developing pneumonia,bacteremia,and infective endocarditis that led to the patient’s death.The early detection of these resistant organisms helps improve patient outcomes.Significant advances have been made in the biotechnological and research space,but preventive measures,diagnostic techniques,and treatment strategies need to be developed.
文摘Background Pneumonia has become the predominant cause of death for the elderly. It is critical to determine the status of oropharyngeal pathogen colonization in the elderly when treating pneumonia. To explore the efficient approaches to treat age-related pneumonia, we determined the status of oropharyngeal pathogenic colonization in the elderly community. Methods Throat swab cultures were used to isolate oropharyngeal pathogens from 706 residents older than 65 years living in the community of Shenyang City. Characteristics of bacterial strains were sorted and identified using drug sensitivity tests. Results Results of bacterial identification showed that 265 out of 706 samples were positive, thereby exhibiting a 37.5% positive rate. There were 290 bacterial strains isolated from the elderly community in total, of which 248 strains were gram-negative bacilli (GNB) and 42 strains were gram-positive cocci (GNC), accounting for 85.5% and 14.5%, respectively. There were 158 Klebsiella pneumoniae strains, representing 54.4% of the all GNB. Conclusion The rate of oropharyngeal GNB colonization in the elderly community increases and Klebsiella pneumoniae is the most common strain.
基金supported by grants from the National Key Research and Development Program of China(2020YFA0908200)the National Natural Science Foundation of China(82072177,82272263,and 82272264)+2 种基金the“Two Hundred Talent”Program and the first Continuous Outstanding Special Technology Supporting Project and Shanghai Municipal Key Clinical Specialty(shslczdzk00901)the Shanghai“Rising Stars of Medical Talents”Youth Development Program,Shanghai Clinical Research Center of Plastic and Reconstructive Surgery supported by Science and Technology Commission of Shanghai Municipality(grant 22MC1940300)the Science and Technology Commission of Shanghai Municipality(23015820800).
文摘Hyperglycemia and bacterial colonization in diabetic wounds aberrantly activate Nod-like receptor protein 3(NLRP3)in macrophages,resulting in extensive inflammatory infiltration and impaired wound healing.Targeted suppression of the NLRP3 inflammasome shows promise in reducing macrophage inflammatory disruptions.However,challenges such as drug off-target effects and degradation via lysosomal capture remain during treatment.In this study,engineered apoptotic bodies(BHB-dABs)derived from adipose stem cells loaded with β-hydroxybutyric acid(BHB)were synthesized via biosynthesis.These vesicles target M1-type macrophages,which highly express the folic acid receptor in the inflammatory microenvironment,and facilitate lysosomal escape through 1,2-distearoyl-sn-propyltriyl-3-phosphatidylethanolaminepolyethylene glycol functionalization,which may enhance the efficacy of NLRP3 inhibition for managing diabetic wounds.Invitro studies demonstrated the biocompatibility of BHB-dABs,their selective targeting of M1-type macrophages,and their ability to release BHB within the inflammatory microenvironment via folic acid and folic acid receptor signaling.These nanovesicles exhibited lysosomal escape,antiinflammatory,mitochondrial protection,and endothelial cell vascularization properties.Invivo experiments demonstrated that BHB-dABs enhance the recovery of diabetic wound inflammation and angiogenesis,accelerating wound healing.These functionalized apoptotic bodies efficiently deliver NLRP3 inflammasome inhibitors using a dual strategy of targeting macrophages and promoting lysosomal escape.This approach represents a novel therapeutic strategy for effectively treating chronic diabetic wounds.
