Patient reported medication-related problems, adherence and waste of oral anticancer medication over time.

Objectives: Patients on oral anticancer therapy regularly experience medication-related problems (MRPs), potentially leading to non-adherence and medication waste. Most studies reporting these experiences have cross-sectional designs. The aim of our study was to explore patient reported MRPs, adherence and waste of oral anticancer medication over time.

Intensification of extraction process through IVDV pretreatment from leaves and stems: Maximizing yields and assessing biological activities.

"Intensification of Vaporization by Decompression to the Vacuum" (IVDV) has initially emerged as a technology primarily employed for expanding and enhancing the texture of biological products. However, its recent applications have showcased significant promise in the realm of extracting bioactive molecules from various plant materials. In this context, optimization using response surface methodology was conducted to investigate the impact of IVDV pretreatment on the extractability of phenolic compounds from leaves and stems, as well as their biological activities.

Lung tumor microphysiological system with 3D endothelium to evaluate modulators of T-cell migration.

Lung cancer is a leading cause of death worldwide, with only a fraction of patients responding to immunotherapy. The correlation between increased T-cell infiltration and positive patient outcomes has motivated the search for therapeutics promoting T-cell infiltration. While transwell and spheroid platforms have been employed, these models lack flow and endothelial barriers, and cannot faithfully model T-cell adhesion, extravasation, and migration through 3D tissue.

Chemical Composition and Biological Activities of Stems Extracts Recovered Using , an Innovative Infrared Technology, Compared to Water Bath and Ultrasound.

Extraction of polyphenols from stems was conducted using ultrasound and infrared techniques, and compared to the conventional water bath method. Response surface methodology was used to analyse the effect of time, temperature, and ethanol percentage, as well as to optimize the three extraction methods. The highest phenolic content (81 mg GAE/g DM) and antioxidant activity (76% DPPH inhibition) were recorded with the extract obtained under the optimal conditions: 55 °C, 127 min, 48% (/) ethanol.