Quality marker (Q-Marker) is an innovative concept and model for quality control of Traditional Chinese medicines (TCMs), which will navigate the new direction of quality development of TCMs. Yet, how to characterize the overall quality attributes of TCMs and their biological effects is still debating. In view of this key scientific issue, this paper proposes a research method based on mass spectrometry imaging (MSI) technology for the discovery and confirmation of TCMs Q-Marker. MSI is powerful in investigating the spatial distribution of molecules in a variety of samples, and visualizing the information obtained from MS. On this basis, combine with the five principles of TCMs Q-Marker validation, i.e., specificity, transmission and traceability, testability, prescription compatibility, and validity, were applied to confirm the finalized Q-Marker. It will lead the new direction of quality development of TCMs.

With the rapid development of radiotherapy technology, the therapeutic outcomes of tumor patients have improved significantly, enabling effective disease control. However, during radiotherapy, the skin as the first barrier of the human body is inevitably exposed to radiation, leading to superficial skin injury. This injury often manifests as blistering, cracking, bleeding, and ulceration, resulting in wounds that are difficult to heal and potentially affecting the effectiveness of the treatment. At present, the therapeutic effect of drugs on radiation-induced skin injury remains limited, and the development of new drugs depends on the elucidation of the mechanisms. Therefore, it is crucial to investigate the mechanisms of radiation-induced skin injury. This article reviews these mechanisms, including DNA damage, oxidative stress, inflammatory response, and vascular damage and fibrosis, and summarizes the therapeutic drugs and targeted proteins in recent years, aiming to provide a reference for the further development and clinical application of drugs for radiation-induced skin injury.

With the rapid development of radiotherapy technology, the therapeutic outcomes of tumor patients have improved significantly, enabling effective disease control. However, during radiotherapy, the skin as the first barrier of the human body is inevitably exposed to radiation, leading to superficial skin injury. This injury often manifests as blistering, cracking, bleeding, and ulceration, resulting in wounds that are difficult to heal and potentially affecting the effectiveness of the treatment. At present, the therapeutic effect of drugs on radiation-induced skin injury remains limited, and the development of new drugs depends on the elucidation of the mechanisms. Therefore, it is crucial to investigate the mechanisms of radiation-induced skin injury. This article reviews these mechanisms, including DNA damage, oxidative stress, inflammatory response, and vascular damage and fibrosis, and summarizes the therapeutic drugs and targeted proteins in recent years, aiming to provide a reference for the further development and clinical application of drugs for radiation-induced skin injury.

[This corrects the article DOI: 10.1016/j.apsb.2022.09.003.].

Radiation protection drugs are often accompanied by toxicity, even amifostine, which has been the dominant radio-protecting drug for nearly 30 years. Furthermore, there is no therapeutic drug for radiation-induced intestinal injury (RIII). This paper intends to find a safe and effective radio-protecting ingredient from natural sources. The radio-protecting effect of Ecliptae Herba (EHE) was discovered preliminarily by antioxidant experiments and the mouse survival rate after ¹³⁷Cs irradiation. EHE components and blood substances in vivo were identified through UPLC‒Q-TOF. The correlation network of "natural components in EHE-constituents migrating to blood-targets-pathways" was established to predict the active components and pathways. The binding force between potential active components and targets was studied by molecular docking, and the mechanism was further analyzed by Western blotting, cellular thermal shift assay (CETSA), and ChIP. Additionally, the expression levels of Lgr5, Axin2, Ki67, lysozyme, caspase-3, caspase-8,8-OHdG, and p53 in the small intestine of mice were detected. It was found for the first time that EHE is active in radiation protection and that luteolin is the material basis of this protection. Luteolin is a promising candidate for RⅢ. Luteolin can inhibit the p53 signaling pathway and regulate the BAX/BCL2 ratio in the process of apoptosis. Luteolin could also regulate the expression of multitarget proteins related to the same cell cycle.

BACKGROUND: LY01005 (Goserelin acetate sustained-release microsphere injection) is a modified gonadotropin-releasing hormone (GnRH) agonist injected monthly. This phase III trial study aimed to evaluated the efficacy and safety of LY01005 in Chinese patients with prostate cancer. METHODS: We conducted a randomized controlled, open-label, non-inferiority trial across 49 sites in China. This study included 290 patients with prostate cancer who received either LY01005 or goserelin implants every 28 days for three injections. The primary efficacy endpoints were the percentage of patients with testosterone suppression ≤50 ng/dL at day 29 and the cumulative probability of testosterone ≤50 ng/dL from day 29 to 85. Non-inferiority was prespecified at a margin of -10%. Secondary endpoints included significant castration (≤20 ng/dL), testosterone surge within 72 h following repeated dosing, and changes in luteinizing hormone, follicle-stimulating hormone, and prostate specific antigen levels. RESULTS: On day 29, in the LY01005 and goserelin implant groups, testosterone concentrations fell below medical-castration levels in 99.3% (142/143) and 100% (140/140) of patients, respectively, with a difference of -0.7% (95% confidence interval [CI], -3.9% to 2.0%) between the two groups. The cumulative probabilities of maintaining castration from days 29 to 85 were 99.3% and 97.8%, respectively, with a between-group difference of 1.5% (95% CI, -1.3% to 4.4%). Both results met the criterion for non-inferiority. Secondary endpoints were similar between groups. Both treatments were well-tolerated. LY01005 was associated with fewer injection-site reactions than the goserelin implant (0% vs . 1.4% [2/145]). CONCLUSION: LY01005 is as effective as goserelin implants in reducing testosterone to castration levels, with a similar safety profile. TRIAL REGISTRATION ClinicalTrials.gov, NCT04563936.
Humans ; Male ; Antineoplastic Agents, Hormonal/therapeutic use* ; East Asian People ; Gonadotropin-Releasing Hormone/agonists* ; Goserelin/therapeutic use* ; Prostate-Specific Antigen ; Prostatic Neoplasms/drug therapy* ; Testosterone

ObjectiveTo explore the current status of academic stress， self-control and mobile game addiction among middle school students， and to test the mediating role of self-control. MethodsA total of 750 middle school students were enrolled by convenient sampling method， and were assessed using Academic Pressure Questionnaire， Self-Control Scale （SCS） and Mobile Game Addiction Scale. Thereafter， the mediating effect of self-control on the association between academic stress and mobile game addiction was analyzed with PROCESS mediating effect test. ResultsA total of 682 middle school students completed the survey. The scores of Academic Pressure Questionnaire， SCS and Mobile Game Addiction Scale of the selected middle school students were （58.56±11.34）， （38.42±6.94） and （34.23±12.14）， respectively. The total score and each dimension score of Academic Pressure Questionnaire were positively correlated with the total score of Mobile Game Addiction Scale （r=0.189~0.259， P<0.01）， and negatively correlated with the SCS score （r=-0.348~-0.196， P<0.01）. The total score and each dimension score of Mobile Game Addiction Scale were negatively correlated with SCS score （r=-0.336~-0.252， P<0.01）. Academic stress could predict self-control negatively （β=-0.205， t=-9.288， P<0.01） and predict mobile game addiction positively （β=0.281， t=7.084， P<0.01）. Meantime， self-control could predict mobile game addiction negatively （β=-0.480， t=-7.238， P<0.01）. With self-control as a mediator variable， academic stress still significantly predicted the mobile game addiction （β=0.182， t=4.492， P<0.01）. ConclusionThe academic pressure， self-control and mobile game addiction of middle school students are all at the lower middle level， moreover， self-control has a partial mediating effect between academic pressure and mobile game addiction.

Puerarin (Pue), known as a phytoestrogen, has salient bioactivities and is promising against cardiovascular diseases. This article summarizes the underlying molecular mechanisms of Pue in treating cardiovascular diseases, especially regulating the intracellular signal transduction, influencing ion channels, modulating the expression of microRNA, and impacting on the autophagy, which are mainly involved in the inflammatory signaling pathways, fatty acid/lipid metabolism, oxidative stress, apoptosis, and the like. The protective effect of Pue against cardiovascular diseases mainly involves attenuating the myocardial injury and decreasing the myocardial fibrosis, improving the myocardial ischemia/reperfusion injury, as well as inhibiting the myocardial hypertrophy and atherosclerosis. The molecular mechanisms of Pue's cardiovascular protective effects for the first time and comment on the state-of-the-art research methods and principles of Pue's regulation of small molecules were reviewed, so as to provide the rationale for its basic research and clinical applications.

ObjectiveTo discuss the relationship between general self-efficacy and mobile game addiction among middle school students， and to analyse the mediating role of time management disposition. MethodsFrom November 2020 to February 2021， a sample of 667 students were recruited from three middle schools in Jiangxi and Sichuan provinces using cluster sampling method. All selected students were assessed using General Self-Efficacy Scale （GSES）， Mobile Game Addiction Scale and Adolescence Time Management Disposition Inventory （ATMD）. Further， Bootstrap method was used to test the mediating effect. Results①The total score of Mobile Game Addiction Scale was negatively correlated with the total scores of GSES and ATMD （r=-0.122， -0.333， P<0.01）. The total score of ATMD was positively correlated with the total score of GSES （r=0.536， P<0.01）. ②General self-efficacy and time management disposition could predict the mobile game addiction negatively （β=-0.333， -0.122， P<0.01）， and general self-efficacy could predict the time management disposition positively （β=0.536， P<0.01）. ③Time management disposition played a full mediating role between general self-efficacy and mobile game addiction， with a mediating effect size of -0.159 （95% CI： -0.213~-0.112， P<0.01）， accounting for 70.38% of the total effect. ConclusionGeneral self-efficacy indirectly affects mobile game addiction via time management disposition.

Objective:To evaluate the skin development and repair process of X-ray radiation damage in rat with non-invasive two-photon excitation fluorescence (TPEF) imaging technology in vivo. Methods:Totally 24 SD rats were randomly divided into four groups including X-ray irradiated group (25, 35 and 45 Gy) and non-irradiation control group. At different times after irradiation, the degree of skin injury was evaluated, and the pathological changes of nicotinamide adenine dinucleotide (phosphate) [NAD(P)H] and collagen fiber fluorescence signals in epidermal cells were detected in vivo by TPEF imaging technology. Results:At 10 d post-irradiation, the skin of irradiation groups showed erythema and desquamation. At 15-20 d post-irradiation, the skin of radiation groups developed progressive exudation, edema and ulcers with increasing radiation dose. On day 25, the skin began to repair in the 25 Gy group, however, the skin of other groups still had exudation and ulcers. On day 10, NAD(P)H fluorescence signal in epidermal cells of irradiation groups decreased and the fluorescence signal of collagen fibers in papillary layer and reticular layer of irradiation groups reduced, which were significantly lower than that of normal control group ( t=24.145, 28.303, 26.989, 6.654, 7.510, 7.997, P<0.05). On day 30, fluorescence signal of NAD(P)H and collagen fibers in epidermal cells and dermis began to repair, the cell from stratum granulosum, stratum spinosum, and stratum basale in the 25 Gy group showed fluorescence signal, the other groups did not show. The fluorescence signal of collagen fibers in the 25 Gy group were gradually increased in papillary layer and reticular layer, however, they were significantly lower than normal control group ( t=115.133, 17.431, P<0.05), the skin of 45 Gy group did not show fluorescence signal of collagen fibers. Conclusions:The damage and repair process of epidermal cells and dermal collagen fiber can be detected noninvasively by TPEF imaging technology after X-ray irradiation in vivo.