Using hyperspectral reflectance to detect changes in photosynthetic activity in leaves as a function of decreasing soil water content.

Application of hyperspectral reflectance technology to track changes in photosynthetic activity in () remains underexplored. This study aimed to investigate the relationship between hyperspectral reflectance and photosynthetic activity in the leaves of in response to a decrease in soil water content. Results demonstrated that the reflectance in both the visible light and near-infrared bands increased in conjunction with reduced soil water content.

Factors influencing adherence to home based pulmonary rehabilitation programme by high risk patients awaiting lung surgery: mixed methods study.

Objective: Preoperative home based pulmonary rehabilitation (HPR) can reduce postoperative complications in lung surgery patients. This study aimed to investigate the level of adherence to a preoperative HPR programme in high risk patients awaiting lung surgery, and factors influencing adherence.

Design: A mixed methods explanatory sequential design consisting of a quantitative questionnaire survey and a qualitative interview study.

Exploring the role of moxibustion robots in teaching: a cross-sectional study.

Background: Artificial intelligence has gradually been used into various fields of medical education at present. Under the background of moxibustion robot teaching assistance, the study aims to explore the relationship and the internal mechanism between learning engagement and evaluation in three stages, preparation before class, participation in class, and consolidation after class.

Methods: Based on the data investigated in 250 youths in university via multistage cluster sampling following the self-administered questionnaire, structural equation model was built to discussing factors of study process about moxibustion robots.

Integrative analysis of Ewing's sarcoma reveals that the MIF-CD74 axis is a target for immunotherapy.

Background: Ewing's sarcoma (EwS), a common pediatric bone cancer, is associated with poor survival due to a lack of therapeutic targets for immunotherapy or targeted therapy. Therefore, more effective treatment options are urgently needed.

Methods: Since novel immunotherapies may address this need, we performed an integrative analysis involving single-cell RNA sequencing, cell function experiments, and humanized models to dissect the immunoregulatory interactions in EwS and identify strategies for optimizing immunotherapeutic efficacy.

Ferroptosis: A Targetable Vulnerability for Melanoma Treatment.

Melanoma is a devastating form of skin cancer characterized by a high mutational burden, limited treatment success, and dismal prognosis. Although immunotherapy and targeted therapies have significantly revolutionized melanoma treatment, the majority of patients fail to achieve durable responses, highlighting the urgent need for novel therapeutic strategies. Ferroptosis, an iron-dependent form of regulated cell death driven by the overwhelming accumulation of lipid peroxides, has emerged as a promising therapeutic approach in preclinical melanoma models.