Tigecycline(TGC)is a recently developed broad-spectrum and highly effective glycylcy-cline antibiotic that overcomes traditional tetracycline resistance mechanisms.It is widely used in the treatment of complex skin and intra-abdominal infections.However,the emergence of TGC re-sistance in recent years poses a significant challenge,and its underlying resistance mechanisms re-main incompletely understood,warranting further investigation.This study induced TGC resistance in Klebsiella aerogenes(ATCC-43864)under in vitro conditions and evaluated phenotypic chan-ges,including growth curves,motility,multidrug susceptibility,and ultrastructural alterations,be-fore and after induction.Whole-genome sequencing(WGS)and transcriptome sequencing(RNA-seq)were employed to analyze resistance-related genetic changes,which were further validated.Ef-flux pump inhibition assays and Red homologous recombination were used to investigate the roles of efflux pumps,lon deletion,and rpsM mutation in TGC resistance.A stable resistant strain,CF-T-32,was obtained,with a 32-fold increase in TGC minimum inhibitory concentration(MIC).CF-T-32 exhibited an enlarged periplasmic space between the cell wall and membrane,reduced growth and motility,and no significant changes in susceptibility to 28 antimicrobial agents,including doxy-cycline,gentamicin,and ciprofloxacin.Genomic analysis revealed no significant differences in ge-nome composition or interference from exogenous plasmids between the parental and induced strains.However,two missense mutations were identified in rpsM and lon.Transcriptomic analysis and qPCR validation showed significant upregulation of efflux pump genes(acrA and acrB)in the AcrAB-TolC system and downregulation of ribosomal protein genes(rpsM,rpsJ,and rpsC).Ef-flux pump inhibition and Red homologous recombination experiments demonstrated that the rpsM C287T missense mutation,leading to a Pro96Leu substitution and reduced expression,is likely the primary factor contributing to TGC resistance in the induced strain.

Objective To study the technological innovation efficiency of the pharmaceutical manufacturing industry and its relationship with industrial development.Methods The data from the China Statistical Yearbook,China High Tech Statistical Yearbook,the statistical yearbook data of regional statistical bureaus was collected to evaluate the technological innovation efficiency of the pharmaceutical manufacturing industry in 29 provinces and cities in China based on the super-efficiency three-stage SBM model.And then,the spatial econometric model and panel quantile regression model were used to conduct empirical research.Results The average technological innovation efficiency of the pharmaceutical manufacturing industry in 29 provinces was 0.49,with the east greater than the central region,and the central region greater than the west.The technological innovation efficiency of pharmaceutical manufacturing industry has a significant positive correlation with its industrial development,and the marginal effect of this effect shows a law of diminishing in regions with low to high development level,and there is a significant positive spatial spillover effect of pharmaceutical manufacturing industry development between regions.Conclusions The central and western provinces,which have relatively weak pharmaceutical manufacturing industries,should improve the innovation environment and talent supply to enhance the efficiency of technological innovation.Concerted efforts should be made to vigorously promote exchanges,connections,and cooperation between regions with strong technological innovation efficiency and their surrounding areas.And it is imperative to encourage top domestic pharmaceutical companies to significantly increase their investment in the research and development of innovative drugs and to actively engage in international competition.

There is controversy over the specific and non-specific components in the efficacy evaluation of acupuncture therapy.The placebo effect,as a key non-specific factor,needs to be clarified in terms of its mechanism and clinical value.This article reviewed the research progress in the placebo effect of acupuncture from three aspects:cognitive process,influencing factors,and mechanism.It focused on the regulatory effects of patient expectations,doctor-patient interaction,and individual differences on the effect,summarized key mechanisms such as endogenous opioid system,dopamine reward pathway,and neural projection of rostral anterior cingulate cortex to pontine nucleus,and pointed out the methodological limitations of current comfort acupuncture designs,in order to provide theoretical basis for the optimization of acupuncture clinical research models and the deepening of the effect mechanism.

Objective:To compare the active respiratory circulation technique (ACBT) with the oscillatory positive pressure expiration technique (OPEP) in terms of their ability to improve pulmonary function and minimize complications after cardiac surgery, seeking to define an airway management strategy for such patients.Methods:A total of 101 patients who had undergone cardiac surgery were randomly divided into an ACBT group ( n=50) and an OPEP group ( n=51). On the 1st day after the operation, in addition to conventional medical treatment and early rehabilitation, the subjects were additionally provided with daily 20-minute sessions of ACBT or OPEP training for seven consecutive days. Before the operation, and on the 3rd and 7th day afterward, lung function was assessed using a pulmonary edema imaging assessment system (RALE), computed tomography and pulmonary function indexes. Any complications were also noted. Six-minute walking distance and the Barthel index quantified exercise endurance and ability in the activities of daily living, respectively. Turbidimetry was used to determine the levels of C-reactive protein in the blood. The duration of mechanical ventilation required, ICU stay time, length of postoperative and total hospital stays were also recorded. Results:On day seven after the operation, the average RALE scores of the ACBT and OPEP groups were (12.40±4.37) and (10.20±4.66), respectively—a significant difference. At the same time point, the incidence of atelectasis in the OPEP group was significantly lower than in the ACBT group. The OPEP group′s average maximum inspiratory pressure was a greater percentage of the predicted value, and its average 6-minute walk and BI score were also better. On the 3rd day after the operation, the incidence of lung consolidation in the ACBT group was significantly lower than that in the OPEP group, on average.Conclusions:The curative effect of ACBT is better than that of OPEP in the first few days after such an operation, but after a week OPEP more effectively restores respiratory muscle strength and relieves pulmonary complications. It is recommended to apply these two techniques in stages to optimize postoperative airway management. RALE scoring is an ideal tool for dynamic monitoring of pulmonary complications after cardiac surgery.

Objective To investigate the protective effects and mechanisms of sulodexide on renal fibrosis induced by prolonged warm ischemia. Methods An in vivo ischemia-reperfusion injury (IRI) model was established in rats, which were randomly divided into Sham group, IRI 60 min group (IRI group), and IRI 60 min + sulodexide group (IRI+SDX group), with 20 rats in each group. Pathological examination was used to evaluate renal tissue injury and fibrosis levels in each group. Immunohistochemistry was performed to detect the expression levels of kidney injury molecule (KIM)-1, intercellular adhesion molecule (ICAM)-1, von Willebrand factor (vWF), transforming growth factor (TGF)-β, α-smooth muscle actin (SMA), and type I collagen (COL-1). Immunofluorescence staining was used to detect CD31 expression. Real-time quantitative polymerase chain reaction was employed to measure the expression of KIM-1, ICAM-1, tumor necrosis factor (TNF)-α, interleukin (IL)-1β, and IL-6 in renal tissues. Transmission electron microscopy was used to observe the structure of the renal glycocalyx. Evans blue dye was injected to assess renal vascular permeability. Rat survival was recorded, and serum levels of syndecan (SDC)-1, heparan sulfate (HS) and serum creatinine were measured. An ex vivo perfusion model was also established, with rats randomly assigned to either the hypothermic oxygenated machine perfusion (HOPE) group or the HOPE+SDX group (five rats per group). Perfusion parameters were recorded after 2 hours of ex vivo perfusion. Results One day after reperfusion, compared with the Sham group, the IRI group exhibited more severe renal tissue injury, higher tubular injury scores, increased expression of KIM-1, ICAM-1 and vWF, decreased CD31 expression, elevated serum levels of SDC-1 and HS, increased vascular permeability, and higher expression of TNF-α, IL-1β and IL-6. Compared with the IRI group, the IRI+SDX group showed reduced renal tissue injury, lower tubular injury scores, decreased expression of KIM-1, ICAM-1 and vWF, increased CD31 expression, lower serum levels of SDC-1 and HS, decreased vascular permeability, and reduced expression of TNF-α, IL-1β and IL-6 (all P < 0.05). Ten days after reperfusion, renal tissue injury was further alleviated in the IRI+SDX group. Twenty-five days after reperfusion, the IRI+SDX group exhibited decreased expression of TGF-β, α-SMA, and COL-1, as well as reduced collagen deposition area (all P < 0.05). Compared with the HOPE group, the HOPE+SDX group showed increased renal perfusion flow and decreased intrarenal vascular resistance (both P < 0.01). Conclusions Sulodexide may alleviates renal IRI and fibrosis caused by prolonged warm ischemia by inhibiting inflammatory responses and protecting vascular endothelial glycocalyx.

ObjectiveTo explore the application value of probe-based confocal laser endomicroscopy (pCLE) in rapidly detecting and evaluating the morphological characteristics of digestive tract tissues in mice. MethodsTwelve male SPF Kunming mice aged 6 weeks were randomly divided into two groups. Six mice were subjected to gastric gavage with 52% Red Star Erguotou to establish the model, and six were given saline by gastric gavage as a control. After 28 days of modeling, 3 mice were randomly selected from each group. After deep anesthesia induced by inhalation of 3% isoflurane, the mice were sacrificed by cervical dislocation. The stomach, duodenum, jejunum, and rectum tissues were excised and immersed in 1% fluorescein sodium solution for staining. The microstructure of the mucosal surface of each tissue was observed using pCLE. The remaining mice in the model group and the control group were deeply anesthetized by inhaling 3% isoflurane, then cardiac perfusion was performed successively with saline and 4% paraformaldehyde. The stomach, duodenum, jejunum, and rectum tissues were excised for dehydration, section and hematoxylin-eosin (HE) staining, and the morphological changes of the tissues were observed under a microscope. ResultsUnder pCLE imaging, fluorescence staining on the surface of the gastrointestinal mucosa was uniform in the control group; the morphology of gastric pits, intestinal villi, and intestinal crypts was intact, arranged compactly, and had distinct boundaries. In the model group, the gastrointestinal mucosa exhibited mucosal swelling and deformation, with uneven fluorescence staining and fluorescein leakage. Furthermore, some tissues showed defects or cell shedding, and the boundaries between adjacent characteristic structures (e.g., gastric pits, intestinal crypts) were blurred. HE staining showed that the gastrointestinal tissue structure of the control group mice was normal and well-organized, with no structural defects. Moreover, submucosal glands were uniform in size, with no hyperplasia observed, and no obvious inflammatory cell infiltration. In the model group, some gastrointestinal mucosal structures were defective and sparsely arranged; submucosal glands showed atrophy, accompanied by obvious inflammatory cell infiltration. The histological characteristics detected by pCLE were consistent with those of HE staining. ConclusionpCLE can be used to obtain rapid, real-time, large-scale, and high-resolution microscopic imaging of the gastrointestinal mucosa, realistically and comprehensively displaying its physiological and microstructural characteristics. It shows promising prospects and practical utility in the histological evaluation of digestive system injuries in small animals.

Tigecycline(TGC)is a recently developed broad-spectrum and highly effective glycylcy-cline antibiotic that overcomes traditional tetracycline resistance mechanisms.It is widely used in the treatment of complex skin and intra-abdominal infections.However,the emergence of TGC re-sistance in recent years poses a significant challenge,and its underlying resistance mechanisms re-main incompletely understood,warranting further investigation.This study induced TGC resistance in Klebsiella aerogenes(ATCC-43864)under in vitro conditions and evaluated phenotypic chan-ges,including growth curves,motility,multidrug susceptibility,and ultrastructural alterations,be-fore and after induction.Whole-genome sequencing(WGS)and transcriptome sequencing(RNA-seq)were employed to analyze resistance-related genetic changes,which were further validated.Ef-flux pump inhibition assays and Red homologous recombination were used to investigate the roles of efflux pumps,lon deletion,and rpsM mutation in TGC resistance.A stable resistant strain,CF-T-32,was obtained,with a 32-fold increase in TGC minimum inhibitory concentration(MIC).CF-T-32 exhibited an enlarged periplasmic space between the cell wall and membrane,reduced growth and motility,and no significant changes in susceptibility to 28 antimicrobial agents,including doxy-cycline,gentamicin,and ciprofloxacin.Genomic analysis revealed no significant differences in ge-nome composition or interference from exogenous plasmids between the parental and induced strains.However,two missense mutations were identified in rpsM and lon.Transcriptomic analysis and qPCR validation showed significant upregulation of efflux pump genes(acrA and acrB)in the AcrAB-TolC system and downregulation of ribosomal protein genes(rpsM,rpsJ,and rpsC).Ef-flux pump inhibition and Red homologous recombination experiments demonstrated that the rpsM C287T missense mutation,leading to a Pro96Leu substitution and reduced expression,is likely the primary factor contributing to TGC resistance in the induced strain.

Objective To study the technological innovation efficiency of the pharmaceutical manufacturing industry and its relationship with industrial development.Methods The data from the China Statistical Yearbook,China High Tech Statistical Yearbook,the statistical yearbook data of regional statistical bureaus was collected to evaluate the technological innovation efficiency of the pharmaceutical manufacturing industry in 29 provinces and cities in China based on the super-efficiency three-stage SBM model.And then,the spatial econometric model and panel quantile regression model were used to conduct empirical research.Results The average technological innovation efficiency of the pharmaceutical manufacturing industry in 29 provinces was 0.49,with the east greater than the central region,and the central region greater than the west.The technological innovation efficiency of pharmaceutical manufacturing industry has a significant positive correlation with its industrial development,and the marginal effect of this effect shows a law of diminishing in regions with low to high development level,and there is a significant positive spatial spillover effect of pharmaceutical manufacturing industry development between regions.Conclusions The central and western provinces,which have relatively weak pharmaceutical manufacturing industries,should improve the innovation environment and talent supply to enhance the efficiency of technological innovation.Concerted efforts should be made to vigorously promote exchanges,connections,and cooperation between regions with strong technological innovation efficiency and their surrounding areas.And it is imperative to encourage top domestic pharmaceutical companies to significantly increase their investment in the research and development of innovative drugs and to actively engage in international competition.

There is controversy over the specific and non-specific components in the efficacy evaluation of acupuncture therapy.The placebo effect,as a key non-specific factor,needs to be clarified in terms of its mechanism and clinical value.This article reviewed the research progress in the placebo effect of acupuncture from three aspects:cognitive process,influencing factors,and mechanism.It focused on the regulatory effects of patient expectations,doctor-patient interaction,and individual differences on the effect,summarized key mechanisms such as endogenous opioid system,dopamine reward pathway,and neural projection of rostral anterior cingulate cortex to pontine nucleus,and pointed out the methodological limitations of current comfort acupuncture designs,in order to provide theoretical basis for the optimization of acupuncture clinical research models and the deepening of the effect mechanism.

Objective:To compare the active respiratory circulation technique (ACBT) with the oscillatory positive pressure expiration technique (OPEP) in terms of their ability to improve pulmonary function and minimize complications after cardiac surgery, seeking to define an airway management strategy for such patients.Methods:A total of 101 patients who had undergone cardiac surgery were randomly divided into an ACBT group ( n=50) and an OPEP group ( n=51). On the 1st day after the operation, in addition to conventional medical treatment and early rehabilitation, the subjects were additionally provided with daily 20-minute sessions of ACBT or OPEP training for seven consecutive days. Before the operation, and on the 3rd and 7th day afterward, lung function was assessed using a pulmonary edema imaging assessment system (RALE), computed tomography and pulmonary function indexes. Any complications were also noted. Six-minute walking distance and the Barthel index quantified exercise endurance and ability in the activities of daily living, respectively. Turbidimetry was used to determine the levels of C-reactive protein in the blood. The duration of mechanical ventilation required, ICU stay time, length of postoperative and total hospital stays were also recorded. Results:On day seven after the operation, the average RALE scores of the ACBT and OPEP groups were (12.40±4.37) and (10.20±4.66), respectively—a significant difference. At the same time point, the incidence of atelectasis in the OPEP group was significantly lower than in the ACBT group. The OPEP group′s average maximum inspiratory pressure was a greater percentage of the predicted value, and its average 6-minute walk and BI score were also better. On the 3rd day after the operation, the incidence of lung consolidation in the ACBT group was significantly lower than that in the OPEP group, on average.Conclusions:The curative effect of ACBT is better than that of OPEP in the first few days after such an operation, but after a week OPEP more effectively restores respiratory muscle strength and relieves pulmonary complications. It is recommended to apply these two techniques in stages to optimize postoperative airway management. RALE scoring is an ideal tool for dynamic monitoring of pulmonary complications after cardiac surgery.