Objective To explore the effect of plasma-activated gas(PAG)in promoting wound healing.Methods The pro-healing effect of PAG was explored by testing the effectiveness of PAG in promoting cell proliferation and healing of infected wounds.Cell proliferation assay:five different cells(i.e.,HSF,IHSMC,WPMY-1,HaCaT,and HFF)in logarithmic growth phase were inoculated into culture plates.After the cells grew adherently to the wall,the different cells were each grouped experimentally using a suitable time gradient.After the cells were treated with PAG for different time,their activity was detected by CCK-8 method.Animal infected wound healing assay:a wound of about 1.5 cm × 1.5 cm in size was created on the back of SD rats with sterile tweezers and scissors,and then the wound was infected with P.Aeruginosa with A600nm=6.5.After the infection was completed,the wounds were treated with PAG at regular intervals,and the experiment groups were subdivided according to the different treatment durations.Wound healing photographs and changes in relative wound area were used as indicators of healing performance.Results Cell proliferation assay:PAG treatment was effective in promoting cell proliferation for a reasonable period of time,while overdose led to cell death.Therefore,the dose of cells treated with plasma activation gas was defined as=W/N(J/cell),where W is the work consumed by the activation gas device during the treatment process and N is the number of cells.The three indexes(starting dose,optimal dose and safe dose range)were used to characterize the proliferative effect of PAG.Animal infected wound healing assay:the experimental groups all showed accelerated wound healing,so the optimal treatment time was used to characterize the pro-healing effect of PAG.The sterilization mode played a primary role,with an optimal treatment time of 2 min,and the pro-healing mode played a secondary role.The treatment conditions with the best overall healing effect were 2 min for the sterilization mode and 1 min for the pro-healing mode.Conclusion PAG has the effect of promoting cell proliferation and infected wound healing,and indicators can be summarized to quantitatively describe its effect,which is conducive to further standardization of PAG research and clinical utility.

This review systematically elucidates recent advances in the therapeutic application of Erianin,a natural compound derived from Dendrobium,a traditional Chinese medicine,in the treatment of breast cancer,with particular emphasis on triple-negative breast cancer(TNBC).TNBC is characterized by the absence of estrogen receptor(ER),progesterone receptor(PR),and human epidermal growth factor receptor 2(HER2)expression,which presents significant clinical challenges due to limited therapeutic targets and continued reliance on conventional chemotherapy.Erianin exhibits notable anticancer potential through the induction of apoptosis in breast cancer cells.Its primary mechanisms involve sensitizing cancer cells to apoptotic signals via activation of both intrinsic and extrinsic apoptotic pathways,particularly through mitochondrial dysfunction-mediated cytochrome c release and subsequent activation of caspase-dependent pathways.At the molecular level,Erianin effectively modulates key oncogenic signaling pathways,including PI3K/Akt,MAPK,and NFATc1 cascades,thereby sup-pressing cell proliferation and migration while promoting apoptosis.However,current research priorities center on investigating its synergistic effects with chemotherapeutic agents and assessing its radiosensitization potential to further enhance its clinical utility.Notably,Erianin demonstrates unique advantages in overcoming drug resistance in TNBC by modulating apoptotic regulatory networks,particularly through regulation of the Bax/Bcl-2 protein ratio,positioning it as a promising multi-target therapeutic candidate.Although existing evidence largely stems from in vitro and animal studies,future research should prioritize human clinical trials to validate its efficacy and safety,along-side pharmaceutical optimization strategies such as the development of nanodelivery systems and exploration of structural derivatives.This review systematically clarifies the core mechanism and therapeutic potential of pilanin-induced apoptosis,and provides theoretical basis for developing innovative therapeutic regimens for TNBC.

This review systematically elucidates recent advances in the therapeutic application of Erianin,a natural compound derived from Dendrobium,a traditional Chinese medicine,in the treatment of breast cancer,with particular emphasis on triple-negative breast cancer(TNBC).TNBC is characterized by the absence of estrogen receptor(ER),progesterone receptor(PR),and human epidermal growth factor receptor 2(HER2)expression,which presents significant clinical challenges due to limited therapeutic targets and continued reliance on conventional chemotherapy.Erianin exhibits notable anticancer potential through the induction of apoptosis in breast cancer cells.Its primary mechanisms involve sensitizing cancer cells to apoptotic signals via activation of both intrinsic and extrinsic apoptotic pathways,particularly through mitochondrial dysfunction-mediated cytochrome c release and subsequent activation of caspase-dependent pathways.At the molecular level,Erianin effectively modulates key oncogenic signaling pathways,including PI3K/Akt,MAPK,and NFATc1 cascades,thereby sup-pressing cell proliferation and migration while promoting apoptosis.However,current research priorities center on investigating its synergistic effects with chemotherapeutic agents and assessing its radiosensitization potential to further enhance its clinical utility.Notably,Erianin demonstrates unique advantages in overcoming drug resistance in TNBC by modulating apoptotic regulatory networks,particularly through regulation of the Bax/Bcl-2 protein ratio,positioning it as a promising multi-target therapeutic candidate.Although existing evidence largely stems from in vitro and animal studies,future research should prioritize human clinical trials to validate its efficacy and safety,along-side pharmaceutical optimization strategies such as the development of nanodelivery systems and exploration of structural derivatives.This review systematically clarifies the core mechanism and therapeutic potential of pilanin-induced apoptosis,and provides theoretical basis for developing innovative therapeutic regimens for TNBC.

Objective To explore the effect of plasma-activated gas(PAG)in promoting wound healing.Methods The pro-healing effect of PAG was explored by testing the effectiveness of PAG in promoting cell proliferation and healing of infected wounds.Cell proliferation assay:five different cells(i.e.,HSF,IHSMC,WPMY-1,HaCaT,and HFF)in logarithmic growth phase were inoculated into culture plates.After the cells grew adherently to the wall,the different cells were each grouped experimentally using a suitable time gradient.After the cells were treated with PAG for different time,their activity was detected by CCK-8 method.Animal infected wound healing assay:a wound of about 1.5 cm × 1.5 cm in size was created on the back of SD rats with sterile tweezers and scissors,and then the wound was infected with P.Aeruginosa with A600nm=6.5.After the infection was completed,the wounds were treated with PAG at regular intervals,and the experiment groups were subdivided according to the different treatment durations.Wound healing photographs and changes in relative wound area were used as indicators of healing performance.Results Cell proliferation assay:PAG treatment was effective in promoting cell proliferation for a reasonable period of time,while overdose led to cell death.Therefore,the dose of cells treated with plasma activation gas was defined as=W/N(J/cell),where W is the work consumed by the activation gas device during the treatment process and N is the number of cells.The three indexes(starting dose,optimal dose and safe dose range)were used to characterize the proliferative effect of PAG.Animal infected wound healing assay:the experimental groups all showed accelerated wound healing,so the optimal treatment time was used to characterize the pro-healing effect of PAG.The sterilization mode played a primary role,with an optimal treatment time of 2 min,and the pro-healing mode played a secondary role.The treatment conditions with the best overall healing effect were 2 min for the sterilization mode and 1 min for the pro-healing mode.Conclusion PAG has the effect of promoting cell proliferation and infected wound healing,and indicators can be summarized to quantitatively describe its effect,which is conducive to further standardization of PAG research and clinical utility.

Objective To develop an nomogram model for predicting the lung hemorrhage after CT-guided microwave ablation(MWA)in stage ⅠA non-small cell lung cancer(NSCLC)patients.Methods Stage ⅠA NSCLC patients treated with MWA were randomly divided into a training group and a validation group in a 3∶1 ratio.The risk factors of lung hemorrhage identified by univariable and multivariable logistic regression analysis in the training group were used to develop a nomogram model.The C-statistic was used to evaluate the predictive accuracy in both the training and validation groups.Results A total of 208 patients(training group,156 cases;validation group,52 cases)were included in this study.The risk factors of lung hemorrhage after MWA were the number of vessels passing through the lung parenchyma[odds ratio(OR)=3.815;95％confidence interval(CI)1.485-9.800;P=0.005],number of focal blood supplies(OR=2.922;95％CI 1.198-7.126;P=0.018)and number of punctures(OR=2.802;95％CI 1.792-4.381;P＜0.001).The C-statistic in training group was 0.928(95％CI 0.875-0.963)and the C-statistic in validation group was 0.906(95％CI 0.793-0.969).The optimal cut-off value for lung hemorrhage was 0.14.Conclusion The nomogram model can effectively predict the lung hemorrhage after MWA.Patients showing a high risk(＞0.14)on the nomogram model should be monitored for lung hemorrhage.

Objective To explore the correction of beam trajectories in the presence of fringe fields in magnetic resonance imaging-guided proton therapy and dose changes in the body before and after correction.Methods The open-source treatment planning software matRad was used to design plans for brain tumor,liver tumor,and prostate cancer cases,and simulation studies were conducted in the Monte Carlo simulation toolkit TOPAS to calculate proton dose distribution.A proton beam trajectory correction model suitable for three-dimensional magnetic fields was established,and a beam trajectory correction algorithm was developed.The deflection of the proton Bragg peak in the presence of fringe fields was analyzed.Furthermore,3 treatment plans were simulated and dose correction was carried out when the fringe field existed.Gamma analysis method is used to evaluate the correction effect;and the dose changes in the target area and organs-at-risk after correction were quantitatively analyzed.Results The perturbation of the magnetic field would cause lateral deflection of the proton beam trajectory,and the presence of fringe fields would significantly increase this effect,which increased with the increasing of beam energy.When the fringe field existed,the treatment plans for brain tumor,liver tumor,and prostate cancer were corrected.Under the 3%/3 mm criterion,the gamma passing rates for target area were 94.844%,92.054%,and 97.863%,respectively,and after correction,the total dose in the body was increased by 2.8%,2.5%,and 1.5%,respectively.The increased dose was mainly contributed by incident protons.Conclusion In magnetic resonance imaging-guided proton therapy,the effects of fringe fields should be considered.The increase in incident proton beam energy after correction will lead to an increase in the total dose in the body.Since the beam trajectory still has curvature,the dose changes differently in different organs-at-risk.

Objective·To compare the effects and complications of carbon dioxide laser laryngectomy and open partial laryngectomy in the treatment of laryngeal carcinoma.Methods·Clinical data of 101 patients with stage Ⅰ-Ⅲ laryngeal squamous cell carcinoma admitted to Renji Hospital,Shanghai Jiao Tong University School of Medicine from January 2013 to January 2018 were selected and divided into open surgery group and minimally invasive group according to different surgical methods.The open surgery group received open partial laryngectomy(57 cases),and the minimally invasive group received carbon dioxide laser laryngectomy(44 cases).Follow-up visits were made by telephone and outpatient visits,and the operation time,postoperative laryngeal mucosa edema time,length of stay,5-year survival rate,complication rate and recurrence rate of the two groups were compared in the different clinical stages(stage Ⅰ,stage Ⅱ,and stage Ⅲ)and tumor locations(glottic type and non-glottic type).Results·The operation time,postoperative laryngeal mucosa edema time and length of stay of the minimally invasive group were shorter than those of the open surgery group(P＜0.05).Comparison of the 5-year survival rates of patients with the same clinical stage and glottic type between the two groups showed no statistically significant difference(both P＞0.05);while comparison of the 5-year survival rates of patients with non-glottic type between the two groups(62.5％in the open surgery group vs 0 in the minimally invasive group)showed a statistically significant difference(P＜0.05).In the minimally invasive group,there were 3 cases of complications,including 1 case of fever and 2 cases of lung infection;in the open surgery group,there were 14 cases of complications,including 5 cases of fever,7 cases of lung infection and 2 cases of pharyngeal fistula.The complication rate of patients in the minimally invasive group(6.82％,3/44)was lower than that in the open surgery group(24.60％,14/57),and the difference was statistically significant(P＜0.05);the complication rate of patients with stage Ⅱ and glottic type in the minimally invasive group was significantly lower than that in the open surgery group(P＜0.05).Comparing the recurrence rate of patients in the two groups(10.53％in the open surgery group vs 2.27％in the minimally invasive group),the difference was not statistically significant(P＞0.05).Conclusion·Compared with open partial laryngectomy,carbon dioxide laser laryngectomy has faster postoperative recovery and lower complication rate in the treatment of early and middle laryngeal malignant tumors,so it is worth promoting.