BACKGROUND:As the end bearing joint of the human body,the ankle joint bears the top-down pressure of the body,which leads to the ankle joint is easy to be damaged in the movement,can induce functional ankle instability,which negatively affects daily life.The study of lower extremity biomechanics in patients with functional ankle instability during counter movement jump is of great significance for scientific training,prevention of ankle injury,and clinical rehabilitation after injury. OBJECTIVE:To investigate the kinetics and kinematics of lower limbs in the longitudinal jumping of functional ankle instability population. METHODS:From March to September 2023,15 male patients with functional ankle instability and 15 healthy people,aged 22-28 years old,were recruited in Soochow University.All subjects completed counter movement jump experiment.Vicon infrared high-speed motion capture system and Kistler three-dimensional force measuring table were used to simultaneously collect the lower limb kinematics and kinetics indexes of the two groups of subjects at the take-off stage of counter movement jump,the instant off the ground,the initial landing moment and the peak moment of vertical ground reaction force. RESULTS AND CONCLUSION:(1)At the instant off the ground,the affected side of the functional ankle instability group showed smaller knee internal rotation moment(P=0.020)and smaller ankle internal rotation moment(P=0.009)compared with the affected side of the healthy control group.(2)At the moment of landing,the affected side of the functional ankle instability group showed a smaller hip flexion angle than the affected side of the healthy control group(P=0.039).Compared with the healthy control group,functional ankle instability group showed smaller hip abduction angle(P=0.022),smaller knee varus angle(P=0.010),larger knee external rotation angle(P=0.021),smaller ankle varus angle(P=0.004),and smaller external ankle rotation angle(P=0.008).(3)At the peak of vertical ground reaction force,functional ankle instability group showed a smaller ankle varus angle than healthy control group(P=0.044).(4)The results showed that the lower limb biomechanical characteristics of the patients with functional ankle instability were abnormal compared with the healthy people during counter movement jump,which mainly showed the changes of the kinematics and kinetics indexes of the lower limb joints in the sagittal plane and the frontal plane at the moment of lift-off and landing.These changes reflect that people with functional ankle instability adopt rigid take-off and landing patterns when performing counter movement jump,tend to transfer the load of the affected ankle joint to other joints of the lower limb,and show compensatory phenomenon of the healthy lower limb.Therefore,detection and correction of abnormal biomechanical features should be a part of rehabilitation training for those with functional ankle instability.

OBJECTIVE To prepare polyethylene glycol （PEG）-modified flower lactose （FL） loaded Curcumin （Cur） solid lipid nanoparticle （SLN） inhalable micropowder （referred to as “PEG-Cur-FL”）. METHODS PEG-Cur-FL was prepared by the solvent emulsification diffusion low-temperature solidification method， and its encapsulation efficiency， drug loading capacity， powder properties， aerodynamic particle size， in vitro deposition properties， and in vitro release characteristics were characterized. The mice were divided into Cur-SLN-FL （unmodified with PEG） group and PEG-Cur-FL group， with 55 mice in each group. Both groups of mice were given a single inhalation of 5 mg/kg （calculated as Cur） of the corresponding drug micropowder through an air tube. At 0.25， 0.5， 1， 2， 4， 6， 8， 12， 24， 48 and 72 hours after administration， eyeballs were removed to collect blood and tracheal， lung， liver and kidney tissues were separated. The mass concentration of Cur in mouse plasma and various tissue samples was measured， and the tissue distribution and retention of the drug were analyzed. RESULTS The encapsulation efficiency and drug loading capacity of PEG-Cur-FL were （86.2±1.8）% and （4.2±0.2）%， respectively； the bulk density and tap density were （0.24±0.01） g/cm3 and （0.30±0.01） g/cm3， respectively； the aerodynamic particle size was （2.74±0.64） μm； the in vitro effective site deposition rate （secondary drug deposition rate） was （45.07±2.79）%. Compared with Cur raw materials， Cur-SLN- FL and PEG-Cur-FL had sustained release effects under both leakage and non-leakage conditions， and PEG-Cur-FL had a smoother sustained release in artificial lung fluid， with release characteristics consistent with the Weibull model. The results of in vivo distribution showed that the drug concentration in the lung tissue of PEG-Cur-FL group was significantly lower than that of Cur- SLN-FL group during the same period after 1 hour of administration， while the drug concentration in the lung tissue at 4 to 48 hours was significantly higher than that of Cur-SLN-FL group during the same period （P＜0.05）； the plasma drug concentrations of the PEG-Cur-FL group at all time points from 0.25 to 12 hours were significantly lower than those of the Cur-SLN-FL group during the same period （P＜0.05）， and the drug concentrations in liver and kidney tissues were also lower than those of the Cur-SLN-FL group during the same period （P＜0.05）. CONCLUSIONS PEG-Cur-FL is prepared successfully； the inhalable micropowder has good inhalability and release performance； after administration through the trachea， the effective concentration of Cur in lung tissue can be increased， while reducing its plasma drug concentration and drug distribution concentration in non-target organs.

Objective:This report presents the initial outcomes of endoscopic intermuscular dissection (EID), a novel technique introduced by our team for the diagnostic resection of early rectal cancer, focusing on the postoperative status of the vertical margins.Methods:On January 26, 2024, a patient with early rectal cancer (cT1-2N0M0) underwent Endoscopic Intermuscular Dissection. The EID procedure consists of six steps: (1) mucosal incision; (2) submucosal dissection; (3) superficial muscular layer incision; (4) intermuscular dissection; (5) complete tumor removal; (6) wound management.Results:The patient was a 70-year-old male with rectal cancer (cT1-2N0M0). The tumor was located on the left anterior wall of the rectum, approximately 9 cm from the anal margin, and measured 20mm in size. The dissection rate was 2.68 mm2/minute, and the total duration of the surgery was 109 minutes. The patient was successfully discharged on the fifth day after surgery. Pathological examination of the post-endoscopic surgery specimen revealed pT1b, with negative vertical margins. Follow-up after more than one month showed good recovery with no complications such as bleeding, perforation, infection, or stricture occurring. Colonoscopy indicated the presence of a granulation tissue suggestive of inflammation.Conclusion:Endoscopic Intermuscular Dissection for the diagnostic resection of early rectal cancer is potentially safe and may achieve negative vertical margins.

Objective This study investigated lower limb biomechanics and lateral asymmetry during the continuous vertical jump(CVJ)landing process in individuals with unilateral functional ankle instability(FAI)and compared these characteristics with those of healthy individuals.Methods Fourteen males with unilateral FAI were selected as the experimental group,and 14 males without ankle joint injury were matched to the control group.Both the groups performed 30 CVJ landing tasks.Lower limb kinematic and kinetic characteristics during the 1st,15th,and 30th CVJ landings were synchronously collected using Vicon and Kistler equipment,and a 2×3 mixed analysis of variance was adopted for the data.Results In the execution of CVJ landing tasks,patients with FAI demonstrated no significant differences in the kinematic and kinetic characteristics of the affected limbs compared with healthy controls.However,a greater degree of lateral asymmetry was observed in the FAI group,particularly in the symmetry index(SI)of the vGRF peak.Despite the increase in the number of jump landings and consequent increase in fatigue levels,which led to adjustments in lower limb movement patterns,these adjustments did not appear to have a significant impact on the biomechanical characteristics and asymmetry of the affected limb in patients with FAI.Conclusions This study provides a theoretical basis for the prevention of recurrent ankle sprains in patients with FAI,as well as rehabilitation training prior to their return to sports.These findings underscore the importance of addressing lower limb asymmetry in the rehabilitation training of patients with FAI to reduce the risk of potential long-term injuries.When formulating rehabilitation plans for patients with FAI,particular attention should be paid to the correction of lower limb asymmetry with consideration of biomechanical adaptability under different states to achieve a more comprehensive rehabilitation outcome.

Objective:This report presents the initial outcomes of endoscopic intermuscular dissection (EID), a novel technique introduced by our team for the diagnostic resection of early rectal cancer, focusing on the postoperative status of the vertical margins.Methods:On January 26, 2024, a patient with early rectal cancer (cT1-2N0M0) underwent Endoscopic Intermuscular Dissection. The EID procedure consists of six steps: (1) mucosal incision; (2) submucosal dissection; (3) superficial muscular layer incision; (4) intermuscular dissection; (5) complete tumor removal; (6) wound management.Results:The patient was a 70-year-old male with rectal cancer (cT1-2N0M0). The tumor was located on the left anterior wall of the rectum, approximately 9 cm from the anal margin, and measured 20mm in size. The dissection rate was 2.68 mm2/minute, and the total duration of the surgery was 109 minutes. The patient was successfully discharged on the fifth day after surgery. Pathological examination of the post-endoscopic surgery specimen revealed pT1b, with negative vertical margins. Follow-up after more than one month showed good recovery with no complications such as bleeding, perforation, infection, or stricture occurring. Colonoscopy indicated the presence of a granulation tissue suggestive of inflammation.Conclusion:Endoscopic Intermuscular Dissection for the diagnostic resection of early rectal cancer is potentially safe and may achieve negative vertical margins.

OBJECTIVE To prepare the nanoporous flower-shaped lactose （FL）-loaded curcumin （Cur） solid lipid nanoparticles （SLN） inhalation powder （Cur-SLN-FL）， and to investigate its inhibition effect on LPS-induced apoptosis of BEAS- 2B cells. METHODS Using different kinds （lactose， sucrose， mannitol， trehalose） and different amounts （2%， 3%， 5%） of freeze-dried protectants as objects， the suspension of Cur-SLN was micronized by freeze-drying technology into lyophilized powder， which was then mixed with FL and sieved by a 200-mesh sieve to obtain Cur-SLN-FL. The physicochemical properties of Cur-SLN-FL was characterized by scanning electron microscopy and laser particle size analyzer. Using BEAS-2B cells cultured in vitro as objects， LPS-induced apoptosis and the changes of mitochondrial membrane potential after treatment of Cur-SLN-FL were detected by Annexin Ⅴ/PI double staining method and JC-1 kit. RESULTS With 3% trehalose as Cur-SLN freeze-dried protective agent， the freeze-dried powder obtained was compact and full in shape， did not shrink and collapse， and was uniform in color and light-yellow powder， which could be completely dissolved in 30 s. When FL and Cur-SLN freeze-dried powder were mixed at a ratio of 1∶2， it had a higher deposition rate of secondary distribution （[ 40.92±0.02）%]. SEM results showed that Cur-SLN-FL had a flower-shaped appearance with an average particle size of （4.95±0.57） μm and an aerodynamic particle size of （4.03±0.40） μm. The critical relative humidity of Cur-SLN-FL was about 54%， and the evacuation rate was （90.34 ± 1.21）%； the quantity of fine particles that could be inhaled by Cur-SLN-FL in the 2-7 receiving discs was （47.5±0.7）%， and the measured aerodynamic particle size was （4.33±0.08） μm. The LD50 of Cur-SLN-FL to BEAS-2B cells was 5.809 mg/mL. The apoptosis rate of model cells was significantly reduced after treatment of Cur-SLN-FL， and the mitochondrial membrane potential was significantly increased （P＜0.05）. CONCLUSIONS The preparation process of Cur-SLN-FL is simple and feasible. Cur-SLN-FL can improve LPS-induced apoptosis of BEAS-2B cells， and this effect is related to the regulation of mitochondrial membrane potential.

OBJECTIVE To investigate the effects and mechanism of curcumin （Cur） solid lipid nanoparticles （SLN） loaded with flower-shaped lactose （Cur-SLN-FL） for lung inhalation on lung inflammation in chronic obstructive pulmonary disease （COPD） model mice. METHODS Firstly， the irritation of Cur-SLN-FL to lung tissue was investigated， and the local safety of inhalation materials was determined. Then， 10 mice were randomly selected and injected with normal saline through the trachea， and the other 50 mice were all injected with porcine trypsin solution （concentration of 33.3 mg/mL， dosage of 1.0 mL/kg） to induce the COPD model. After normal feeding for 28 days， the mice were divided into sham operation group， model group， budesonide group （20 mg/kg）， Cur-SLN-FL high-dose and low-dose groups （100， 50 mg/kg）， with 10 mice in each group. The corresponding drugs were given to each group， once a day， for 14 consecutive days. Twenty-four hours after the last administration， the bronchoalveolar lavage fluid （BALF） of mice in each group was collected and the differential count of white blood cells was determined. Hematoxylin-eosin （HE） staining was used to observe the histopathology of the trachea and lung tissue in each group. Masson staining was used to detect collagen deposition in the lung tissue of mice in each group. Immunohistochemical method was used to detect the positive expressions of nucleotide-binding oligomerization domains-like receptor protein-3 （NLRP3）， caspase-1 and interleukin-1β （IL-1β） in lung tissue of mice. Western blot assay was used to detect the protein expressions of NLRP3， caspase-1 and nuclear factor of kappa B（NF-κB） in lung tissue. RESULTS Cur-SLN-FL had no obvious pulmonary irritation. Compared with the sham operation group， the total number of white blood cells， neutrophils and eosinophils in BALF of the model group increased significantly， while the number of lymphocytes decreased significantly （P＜0.05）； ciliated columnar epithelium proliferated， thickened and exfoliated in the trachea， mucus accumulated in the cavity and interstitial inflammatory cells infiltrated in the lung tissue；the deposition of collagen fibers in lung tissue increased significantly， the positive expressions of NLRP3， caspase-1 and IL-1β in lung tissue increased significantly， and the expressions of NLRP3， caspase-1 and NF-κB protein in lung tissue all increased significantly （P＜0.05）. After giving Cur-SLN-FL， the above indexes were all improved to certain extent. CONCLUSIONS Cur-SLN-FL can improve the pulmonary inflammatory reaction in COPD model mice，and its mechanism may be through regulating the NLRP3 signaling pathway， inhibiting the expressions of caspase-1， NF-κB and IL-1β， thus alleviating the process of pulmonary fibrosis in COPD model mice.

OBJECTIVE：To preparea novel Curcumin （Cur）dry powder inhalation （DPI）loaded by nanoporous flower-shaped lactose（FL），and to provide a safe and effective intrapulmonary drug delivery method for the therapy of chronic obstructive pulmonary disease with insoluble drugs. METHODS ：FL-loaded Cur （Cur-FL） compound powder was prepared by solution adsorption method. Using drug-loading amount and adsorption rate as indicators ，single-factor experiment was used to optimize Cur concentration，Cur-FL ratio （m/m）and adsorption time so as to determine the optimal preparation technology for Cur-FL compound powder. Fourier transform infrared spectroscopy ，scanning electron microscope and differential scanning calorimetry were used to characterize the physical and chemical properties of Cur-FL compound powder prepared with optimal technology. The water content and aerodynamic properties were determined ；in vitro drug release behavior was investigated by simulating the environment of artificial lung fluid. RESULTS ：The optimal preparation technology of Cur-FL compound powder was Cur concentration of 5 mg/mL，Cur-FL ratio of 1 ∶ 4，adsorption time of 1 h. The drug-loading amount of compound powder was （23.37±0.43）％，the encapsulation rate was （91.64±0.44）％，and the adsorption rate was （30.50±0.72）％. Cur-FL particles were flower shaped ；Cur was physically adsorbed in the pores of FL without chemical changes. The bulk density of Cur-FL compound was （0.21±0.02） g/cm3，tap density was （0.33±0.01）g/cm3，angle of repose was（24.07±0.31）°，average particle size was （3.96±0.80） μm，aerodynamic particle size was （3.33±0.99）μm，water content was （5.63 ±0.24）％，emptying rate was （92.53± 0.87）％，and deposition rate of effective parts in vitro was son- （45.93 ± 1.77）％ . Its 24 h solubility in artificial lung gwen.tan@csu.edu.cn fluid [（358.93±1.67）μg/mL] were 3.28 times of Cur ，48 h cumulative release ratesin in vitro （90.21％）were 1.63 times of Cur ，but Cur+FL physical mixture could not improve the solubility and release of Cur in artificial lung fluid. CONCLUSIONS ：Cur-FL compound powder has good in vitro release property ，and its powder properties ，solubility，water content ，fluidity and aerodynamic properties meet the requirements of DPI in Chinese Pharmacopoeia.

AIM: To investigate the role and possible mechanism of gastrodin combined with dexamethasone in myocardial cell injury induced by oxygen-glucose deprivation. METHODS: Oxygen-glucose deprivation (OGD) model was established. The cells were divided into 5 groups: normal control group, OGD group, DEX group, GAS group and DEX+GAS group. The activity of myocardial cells was detected by CCK-8 test in each group. The activity of LDH was detected by colorimetry in each group. The apoptosis of myocardial cells was detected by TUNEL method in each group. The ELISA assay was used to detect the inflammatory factors in culture medium of myocardial cells in each group. Western blot was used to detect the expression of Notch1, Bax, Bcl-2 and Beclin1 in myocardial cells in each group.RESULTS: The results showed that GAS combined with DEX could significantly increase the activity of myocardial cells and decrease the apoptosis, reduce production of TNF-α, IL-6, IL-1β and promote production of IL-10, decrease the release of LDH significantly of myocardial cells induced by OGD. The results of Western blot showed that GAS combined with DEX increased the expression of Notch1, Bcl-2 and autophagy-related gene Beclin1, but decreased the expression of Bax of myocardial cells induced by OGD. CONCLUSION: The combination of GAS and DEX may promote autophagy and increase cell activity, inhibit apoptosis and inflammatory reaction by activating Notch signaling pathway, thereby reducing OGD-induced myocardial cells damage.

Objective:To analyze the brain functional fluctuation of benign epilepsy in children with central-temporal spikes(BECTS) by using ReHo algorithm based on the resting-state brain functional imaging, and to explore the connection of the brain function and changes of the connection pattern, so as to find the damage of the cognitive function of BECTS children in the early stage.Method:s Perspectiveness and simple random selection of 20 BECTS children and 20 healthy control children admitted to Shenzhen Children′s Hospital from January 2015 to December 2017 were conducted for basic information collection and functional magnetic resonance imaging (fMRI) testing in a resting-state.Result:s Significantly lower ReHo value appeared in the default mode network (DMN) area, and the precuneus (voxel=422, t=-5.085 6), cuneus (voxel=85, t=-4.240 3), angular gyrus (voxel=191, t=-4.681 2), cingulate cortex (voxel=313, t=-5.238 2), anterior central gyrus (voxel=12, t=-3.482 7), and supplementary motor area (voxel=1 356, t-6.596 2). The significantly increased ReHo was found in the bilateral cerebellum (voxel=71, t=5.658 2), right superior temporal gyrus (voxel=24, t= 5.184 0), operculum insulae (voxel=337, t=6.814 9), left parietal lobe (voxel=12, t=4.378 7), and inferior parietal lobule (voxel=11, t=3.433 7). Conclusions:Significant impairment of DMN, Wernicke and angular gyrus functions in BECTS children may be one of the mechanisms of cognitive dysfunction.Enhanced sensorimotor area and cortical brain functions near the operculum insulae and central sulcus lead to seizures with typical clinical symptoms.fMRI has a high specificity and sensitivity for evaluating the brain function of children with BECTS, and it can detect the impairment of cognitive function in children with this type of epilepsy at an early stage.