Breast cancer is one of the most common malignant tumors, and postoperative radiotherapy remains an essential component of its treatment. In recent years, hypofractionated radiotherapy has gradually become the recommended approach for postoperative breast cancer treatment. Compared with conventional fractionated radiotherapy, hypofractionated regimens shorten the overall treatment duration, enhance patient convenience, and reduce treatment costs, while achieving comparable long-term efficacy and maintaining good quality of life. Based on relevant domestic and international studies and clinical experience, this consensus establishes expert recommendations regarding indications, prescribed doses, dose constraints for organs at risk (OAR), implementation methods, and plan evaluation for hypofractionated radiotherapy after breast cancer surgery, with a particular focus on moderately hypofractionated (MHF) and ultrahypofractionated (UHF) regimens. MHF radiotherapy is applicable to whole-breast irradiation, chest wall irradiation, and regional nodal irradiation, and is suitable for most breast cancer patients. UHF radiotherapy, which employs a higher dose per fraction to further shorten the treatment course, is suitable for patients requiring rapid therapy or prioritizing treatment convenience. Although the short-term efficacy of UHF radiotherapyis similar to that of MHF radiotherapy, its long-term efficacy and safety require further clinical validation. Meanwhile, potential adverse effects of UHF, such as breast induration and atrophy, should be carefully assessed. Therefore, radiotherapy dose and fractionation regimen should be individualized according to patient-specific factors, particularly considering OAR dose constraints. Rational selection of radiotherapy regimens can minimize adverse effects while maintaining therapeutic efficacy, ultimately improving patient outcomes and quality of life. This consensus provides scientific guidance for the clinical and research application of hypofractionated radiotherapy in breast cancer.

Objective:To explore patterns of traditional Chinese medicine (TCM) use among patients with inflammatory bowel disease (IBD) in Jiangsu Province, China from 2019 to 2023.Methods:Using data from the IBD health data platform of the National Healthcare Big Data (Eastern) Center, a retrospective cohort study was conducted. We performed descriptive analyses on hospitalised patients diagnosed with IBD between 2019 and 2023, who received TCM treatment.Results:The study included 11 095 case records from 4 760 patients, with TCM diagnoses primarily indicating diarrhoea and abdominal pain. Ulcerative colitis (UC) accounted for 4 782 hospitalizations (3 103 patients), while Crohn's disease (CD) accounted for 6 313 hospitalizations (1 657 patients). Patient demographics showed a trend towards younger age and a higher proportion of males. Treatment utilisation was highest in southern Jiangsu compared with the central and northern regions. In terms of disease burden, all treatment costs showed a downward trend. In terms of external TCM therapies, UC patients tend to prefer plasters and enemas, while CD patients are more inclined to use acupuncture. Regarding herbal medicine, licorice, white atractylodes, and white peony root are commonly used single herbs for IBD patients.Conclusions:The number of IBD patients treated with TCM in Jiangsu Province has steadily increased from 2019 to 2023. It is important to identify effective TCM treatment methods to reduce the burden of patients.

Objective:To observe the tumor control and the degree of radiation-induced lung injury (RILI) between FLASH irradiation and conventional dose rate (CONV) irradiation, and compare the changes in plasma proteomic profiles of mice following whole-lung FLASH and CONV irradiation using proteomics method.Methods:A mouse model with metastatic lung cancer was established. After whole-lung irradiation, changes in normal lung capacity were monitored using CT scans. Then, a RILI model was constructed to examine pathological alterations in lung tissues following whole-lung CONV and FLASH irradiation. Plasma samples were collected from mice receiving whole-lung CONV irradiation ( n = 5) and whole-lung FLASH irradiation ( n = 5), followed by comparison with samples from the control group of healthy mice (also referred to as the healthy control group). These plasma samples were analyzed using isobaric tags for relative and absolute quantification (iTRAQ)-based proteomics, followed by the screening and identification of differentially expressed proteins using high-throughput bioinformatics. Moreover, protein-protein interaction (PPI) network analysis was conducted to identify hub genes using the STRING database and Cytoscape software. Results:Whole-lung FLASH and CONV irradiation produced consistent tumor control, with the former significantly reducing RILI compared to the latter. A total of 609 proteins were identified through proteomic analysis. Among them, 89 differentially expressed proteins were detected in the whole-lung FLASH group. Gene Ontology (GO) enrichment analysis indicated that up-regulated genes were primarily associated with stress and inflammatory responses, whereas down-regulated genes were related to ATP metabolism and angiogenesis regulation. Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analysis revealed that up-regulated genes were predominantly enriched in unfolded protein response pathways, while down-regulated genes were mainly involved in metabolic pathways and oxidative phosphorylation. Integrated PPI analysis and subsequent validation via reverse transcription-polymerase chain reaction (RT-PCR) revealed four key genes.Conclusions:Compared to the whole-lung CONV irradiation, whole-lung FLASH irradiation reduces the RILI of normal lung tissues while maintaining equivalent tumor control in metastatic lung cancer. Proteomic analysis of differentially expressed proteins in plasma after whole-lung FLASH and CONV irradiation provides valuable insights into the molecular mechanisms underlying the FLASH effect.

Objective:To conduct a comparative analysis of the oxygen depletion and oxygen effect of FLASH irradiation and conventional irradiation by direct measurement of oxygen content.Methods:The oxygen content in different tissues and organs of mice was measured using a phosphorescent probe. A subcutaneous xenograft tumor model in mice was established, to receive electron-beam irradiation at different doses and dose rates. The oxygen depletion of tumor and normal tissue was analyzed, and tumor control was evaluated. The oxygen depletion of conventional irradiation and FLASH irradiation was further analyzed using an in vitro model. The survival fraction (SF) of normal cells after conventional irradiation and FLASH irradiation was calculated using colony formation assay under different partial pressures of oxygen, and the data were fitted to the oxygen enhancement ratio (OER) curve. Results:The mean oxygen content of subcutaneous xenograft tumor in mice was 1.28%, suggesting hypoxia. The mean oxygen content of normal tissue ranged from 3.51% to 6.53%, suggesting physioxia. In animal experiments, oxygen depletion was not observed during conventional irradiation. High-dose-rate (20 Gy/s) and ultra-high-dose-rate (FLASH, 40 Gy/s) irradiation produced oxygen depletion. During FLASH irradiation, with the increase of oxygen content, the oxygen depletion was 0.1-0.2 mm Hg/Gy for tumor tissue and 0.19-0.21 mm Hg/Gy for skin tissue, which tended to stabilize. FLASH irradiation maintained equivalent tumor control compared to conventional irradiation. The tumoricidal effect was significantly enhanced with the increase of oxygen content in the tissue ( t=3.46, P<0.01). In in vitro experiments, the mean oxygen depletion rate was about 0.16 mm Hg/Gy for conventional irradiation and 0.16-0.18 mm Hg/Gy for FLASH irradiation, which did not change significantly with the increase of oxygen content. FLASH irradiation was associated with an oxygen effect. When the partial pressure of oxygen decreased from physioxia to hypoxia, the OER value significantly reduced. Conclusions:Normal tissues and organs are in physioxia, which exhibits a lower oxygen content than that in the air. FLASH irradiation can consume a proportion of oxygen, producing an oxygen effect. When oxygen content decreases, the oxygen depletion rate slows down after FLASH irradiation.

In recent years,FLASH radiotherapy(FLASH-RT),as a cutting-edge radiotherapy technology,has developed rapidly in basic research and clinical trials.FLASH-RT can deliver ultra-high dose rate(average dose rate≥40 Gy/s,instantaneous dose rate≥100 Gy/s)irradia-tion in a very short time(usually≤500 ms).Under the premise of maintaining equivalent tumor control rates,the normal tissue injury is less than that of conventional irradiation at the same dose,that is known as the FLASH effect.FLASH-RT has unique advantages and is currently the frontier field of radiation oncology.The research and development of FLASH-RT have progressed rapidly in China,this paper elucidated the new challenges and opportunities of FLASH-RT in China.

BACKGROUND:Basketball shoes are one of the most important pieces of athletic equipment in basketball,helping to improve players'performance and reduce the risk of injury.With the development of basketball,the demand for basketball shoe performance is getting higher and higher.OBJECTIVE:To systematically review and summarize the effects of different functional parameters of basketball shoes on the wearer's biomechanical performance,and to investigate the effects of each functional parameter of basketball shoes on athletic performance and injury risk.METHODS:Relevant literature addressing the effect of basketball shoes'functional parameters on human biomechanics from CNKI,WanFang,Web of Science,ScienceDirect and other databases was searched by computer,with the search terms of"basketball,basketball shoe,shoes,footwear,sports biomechanics,kinematics,kinetics"in Chinese and English.All the retrieved literature was evaluated and screened,and finally 61 articles were included for literature review.RESULTS AND CONCLUSION:Existing studies on functional parameters of basketball shoes include shoe collar height and heel counter-stiffness,midsole hardness,midsole cushioning,midsole thickness,forefoot flexural stiffness,whole shoe mass,and outsole traction.The functional parameters of basketball shoes play a role in improving sports performance and reducing the risk of sports injuries:(1)Compared with low-top shoes,high shoe collars can reduce the risk of ankle sprains,but may affect sports performance,ankle proprioception,and increase the load on the knee.(2)Better midsole cushioning or softer midsoles can effectively reduce vertical impact,and the forefoot cushioning structure can effectively improve the athletic performance of lateral movement.(3)The midsole thickness of 11 mm in the forefoot and 20 mm in the rearfoot can obtain the best ankle stability and sprinting performance.(4)Improving the outsole traction and forefoot bending stiffness can significantly improve the performance of jumping,sprinting,and side-cutting.There are diminishing returns to the improvement of athletic performance by improving outsole traction.(5)Lighter basketball shoes can improve athletic performance,but this effect only occurs when the wearer is aware of the shoes'weight.

Objective:To explore patterns of traditional Chinese medicine (TCM) use among patients with inflammatory bowel disease (IBD) in Jiangsu Province, China from 2019 to 2023.Methods:Using data from the IBD health data platform of the National Healthcare Big Data (Eastern) Center, a retrospective cohort study was conducted. We performed descriptive analyses on hospitalised patients diagnosed with IBD between 2019 and 2023, who received TCM treatment.Results:The study included 11 095 case records from 4 760 patients, with TCM diagnoses primarily indicating diarrhoea and abdominal pain. Ulcerative colitis (UC) accounted for 4 782 hospitalizations (3 103 patients), while Crohn's disease (CD) accounted for 6 313 hospitalizations (1 657 patients). Patient demographics showed a trend towards younger age and a higher proportion of males. Treatment utilisation was highest in southern Jiangsu compared with the central and northern regions. In terms of disease burden, all treatment costs showed a downward trend. In terms of external TCM therapies, UC patients tend to prefer plasters and enemas, while CD patients are more inclined to use acupuncture. Regarding herbal medicine, licorice, white atractylodes, and white peony root are commonly used single herbs for IBD patients.Conclusions:The number of IBD patients treated with TCM in Jiangsu Province has steadily increased from 2019 to 2023. It is important to identify effective TCM treatment methods to reduce the burden of patients.

Objective:To observe the tumor control and the degree of radiation-induced lung injury (RILI) between FLASH irradiation and conventional dose rate (CONV) irradiation, and compare the changes in plasma proteomic profiles of mice following whole-lung FLASH and CONV irradiation using proteomics method.Methods:A mouse model with metastatic lung cancer was established. After whole-lung irradiation, changes in normal lung capacity were monitored using CT scans. Then, a RILI model was constructed to examine pathological alterations in lung tissues following whole-lung CONV and FLASH irradiation. Plasma samples were collected from mice receiving whole-lung CONV irradiation ( n = 5) and whole-lung FLASH irradiation ( n = 5), followed by comparison with samples from the control group of healthy mice (also referred to as the healthy control group). These plasma samples were analyzed using isobaric tags for relative and absolute quantification (iTRAQ)-based proteomics, followed by the screening and identification of differentially expressed proteins using high-throughput bioinformatics. Moreover, protein-protein interaction (PPI) network analysis was conducted to identify hub genes using the STRING database and Cytoscape software. Results:Whole-lung FLASH and CONV irradiation produced consistent tumor control, with the former significantly reducing RILI compared to the latter. A total of 609 proteins were identified through proteomic analysis. Among them, 89 differentially expressed proteins were detected in the whole-lung FLASH group. Gene Ontology (GO) enrichment analysis indicated that up-regulated genes were primarily associated with stress and inflammatory responses, whereas down-regulated genes were related to ATP metabolism and angiogenesis regulation. Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analysis revealed that up-regulated genes were predominantly enriched in unfolded protein response pathways, while down-regulated genes were mainly involved in metabolic pathways and oxidative phosphorylation. Integrated PPI analysis and subsequent validation via reverse transcription-polymerase chain reaction (RT-PCR) revealed four key genes.Conclusions:Compared to the whole-lung CONV irradiation, whole-lung FLASH irradiation reduces the RILI of normal lung tissues while maintaining equivalent tumor control in metastatic lung cancer. Proteomic analysis of differentially expressed proteins in plasma after whole-lung FLASH and CONV irradiation provides valuable insights into the molecular mechanisms underlying the FLASH effect.

Objective:To conduct a comparative analysis of the oxygen depletion and oxygen effect of FLASH irradiation and conventional irradiation by direct measurement of oxygen content.Methods:The oxygen content in different tissues and organs of mice was measured using a phosphorescent probe. A subcutaneous xenograft tumor model in mice was established, to receive electron-beam irradiation at different doses and dose rates. The oxygen depletion of tumor and normal tissue was analyzed, and tumor control was evaluated. The oxygen depletion of conventional irradiation and FLASH irradiation was further analyzed using an in vitro model. The survival fraction (SF) of normal cells after conventional irradiation and FLASH irradiation was calculated using colony formation assay under different partial pressures of oxygen, and the data were fitted to the oxygen enhancement ratio (OER) curve. Results:The mean oxygen content of subcutaneous xenograft tumor in mice was 1.28%, suggesting hypoxia. The mean oxygen content of normal tissue ranged from 3.51% to 6.53%, suggesting physioxia. In animal experiments, oxygen depletion was not observed during conventional irradiation. High-dose-rate (20 Gy/s) and ultra-high-dose-rate (FLASH, 40 Gy/s) irradiation produced oxygen depletion. During FLASH irradiation, with the increase of oxygen content, the oxygen depletion was 0.1-0.2 mm Hg/Gy for tumor tissue and 0.19-0.21 mm Hg/Gy for skin tissue, which tended to stabilize. FLASH irradiation maintained equivalent tumor control compared to conventional irradiation. The tumoricidal effect was significantly enhanced with the increase of oxygen content in the tissue ( t=3.46, P<0.01). In in vitro experiments, the mean oxygen depletion rate was about 0.16 mm Hg/Gy for conventional irradiation and 0.16-0.18 mm Hg/Gy for FLASH irradiation, which did not change significantly with the increase of oxygen content. FLASH irradiation was associated with an oxygen effect. When the partial pressure of oxygen decreased from physioxia to hypoxia, the OER value significantly reduced. Conclusions:Normal tissues and organs are in physioxia, which exhibits a lower oxygen content than that in the air. FLASH irradiation can consume a proportion of oxygen, producing an oxygen effect. When oxygen content decreases, the oxygen depletion rate slows down after FLASH irradiation.

BACKGROUND:Basketball shoes are one of the most important pieces of athletic equipment in basketball,helping to improve players'performance and reduce the risk of injury.With the development of basketball,the demand for basketball shoe performance is getting higher and higher.OBJECTIVE:To systematically review and summarize the effects of different functional parameters of basketball shoes on the wearer's biomechanical performance,and to investigate the effects of each functional parameter of basketball shoes on athletic performance and injury risk.METHODS:Relevant literature addressing the effect of basketball shoes'functional parameters on human biomechanics from CNKI,WanFang,Web of Science,ScienceDirect and other databases was searched by computer,with the search terms of"basketball,basketball shoe,shoes,footwear,sports biomechanics,kinematics,kinetics"in Chinese and English.All the retrieved literature was evaluated and screened,and finally 61 articles were included for literature review.RESULTS AND CONCLUSION:Existing studies on functional parameters of basketball shoes include shoe collar height and heel counter-stiffness,midsole hardness,midsole cushioning,midsole thickness,forefoot flexural stiffness,whole shoe mass,and outsole traction.The functional parameters of basketball shoes play a role in improving sports performance and reducing the risk of sports injuries:(1)Compared with low-top shoes,high shoe collars can reduce the risk of ankle sprains,but may affect sports performance,ankle proprioception,and increase the load on the knee.(2)Better midsole cushioning or softer midsoles can effectively reduce vertical impact,and the forefoot cushioning structure can effectively improve the athletic performance of lateral movement.(3)The midsole thickness of 11 mm in the forefoot and 20 mm in the rearfoot can obtain the best ankle stability and sprinting performance.(4)Improving the outsole traction and forefoot bending stiffness can significantly improve the performance of jumping,sprinting,and side-cutting.There are diminishing returns to the improvement of athletic performance by improving outsole traction.(5)Lighter basketball shoes can improve athletic performance,but this effect only occurs when the wearer is aware of the shoes'weight.