Shortening the Saturation Time of PBAT Sheet Foaming via the Pre-Introducing of Microporous Structures.

Poly (butylene adipate-co-terephthalate) (PBAT) foam sheets prepared by foaming supercritical fluids are characterized by high resilience, homogeneous cellular structure, and well-defined biodegradability. However, the inert chemical structure and the rigid hard segments restrict the diffusion of CO within the PBAT matrix, resulting in extremely long gas saturation times as long as 9 h at a thickness of 12 mm. In this study, microporous structures were pre-introduced into the PBAT matrix to provide a fast gas diffusion pathway during the saturation process.

Dual-Gradient Silk-Based Hydrogel for Spatially Targeted Delivery and Osteochondral Regeneration.

Contemporary clinical interventions for cartilage injuries focus on symptom management through pharmaceuticals and surgical procedures. Recent research has aimed at developing innovative scaffolds with biochemical elements, yet challenges like inadequate targeted delivery and reduced load-bearing capacity hinder their adoption. Inspired by the spatial gradients of biophysical and biochemical cues in native osteochondral tissues, a silk-based hydrogel that facilitates spontaneous dual-gradient formation, including mechanical gradients and growth factor gradients, for tissue regeneration, is presented.

One pot synthesis of SeTe-ZnO nanoparticles for antibacterial and wound healing applications.

Bacterial infections, particularly those involving biofilms, pose significant treatment challenges due to their resistance to traditional antibiotics. Herein, this research explores the integration of selenium-tellurium nanoparticles (SeTe NP) and zinc oxide (ZnO) NP to create hybrid NP with dual photodynamic and photothermal properties. The synthesized SeTe-ZnO NP demonstrated significant efficacy against both Gram-positive (), () and Gram-negative (), () bacteria, effectively disrupting biofilm formation and promoting wound healing.

Impact of Emergency Warning Nursing on CRP, PCT, TNF-α and Clinical Indicators in Patients with Acute Stress Disorder under Hierarchical Analysis.

Background: In emergency warning nursing, the pre-alert system significantly influences the biochemical markers and clinical outcomes of patients with Acute Stress Disorder. Therefore, this study applies hierarchical analysis to explore the impact of early warning nursing on crucial indicators such as C-reactive protein (CRP), procalcitonin (PCT), tumor necrosis factor-alpha (TNF-α), interleukin-6 (IL-6), and assess their clinical efficacy.

Methods: The study selected patients with acute stress disorder who were hospitalized in Southwest Hospital of Chongqing from December 2021 to December 2022, and collected data from 250 patients.

Living plastics from plasticizer-assisted thermal molding of silk protein.

The pursuit of materials, particularly plastics, with a minimal ecological footprint throughout their circular lifecycle, is crucial for advancing sustainable materials development. Living materials composed of embedded yet active organisms can leverage endogenous biotic resources to achieve functional materials that align with sustainability goals. However, current living material systems face challenges such as weak mechanical properties, limited environmental adaptability, and restricted cellular functionality.

A Novel Tensile Fracture Location of Friction Plug Welding (FPW) Joints.

The fracture position of a friction plug welding (FPW) joint is typically located at or near the thermo-mechanically affected zone (TMAZ). Here, we found that microcracks in all FPW specimens initiate at the deformed plug center (DPC) zone and then propagate through the plug center along 45° shear surfaces, because the lowest hardness occurs at the DPC zone rather than the TMAZ or other zones, and the DPC zone presents a tilt fiber-like microstructure. Such a tilt microstructure stimulates formations and deformations of microvoids and propagation of microcracks along 45° shear surfaces.

Fabrication of a transforming growth factor β1 functionalized silk sericin hydrogel through genetical engineering to repair alveolar bone defects in rabbit.

Cleft palate is one of the most prevalent congenital craniofacial birth defects in human congenital facial anomaly. Severe cleft palate is usually accompanied by alveolar bone defects (ABDs). Growth factors (GFs) are considered as desirable opportunity to promote the craniofacial healing post the surgery.

Honey-fried licorice in the treatment of arrhythmia: Structure elucidation and the mechanism of antiarrhythmic activity.

Aim Of The Study: To evaluate the therapeutic mechanism of Honey-fried licorice on arrhythmia, to explore the distribution of main components of Honey-fried licorice in vivo before and after processing, and to elucidate the active ingredient of Honey-fried licorice on arrhythmia.

Materials And Methods: UPLC-Q-TOF/MS were used to analyze the common and different components of raw and honey-fried licorice before and after processing. Yin deficiency syndrome was established by continuous irritability and water platform sleep deprivation, and then ventricular arrhythmia model was established by injection of calcium chloride into the tail vein.

Fiber-based biomaterial scaffolds for cell support towards the production of cultivated meat.

The in vitro production of animal-derived foods via cellular agriculture is emerging as a key solution to global food security challenges. Here, the potential for fiber-based scaffolds, including silk and cotton, in the cultivation of muscle cells for tissue formation was pursued. Mechanical properties and cytocompatibility with the mouse myoblast cell line C2C12 and immortalized bovine muscle satellite cells (iBSCs) were assessed, as well as pre-digestion options for the materials due to their resilience within the human digestive track.

Effect of sodium selenite on the synthesis of glucosinolates and antioxidant capacity in Chinese cabbage ( L.ssp.).

Chinese cabbage ( ssp. ) is a globally cultivated and consumed leafy vegetable due to its abundant plant secondary metabolites and antioxidant compounds, including flavonoids, ascorbic acids, glucosinolates, and vitamins, which have been reported to confer health-promoting effects. Glucosinolates components in leaves of Chinese cabbage plantlets under different concentrations of sodium selenite (0, 30, and 50 μmol/L) were analyzed.

A stimulus responsive microneedle-based drug delivery system for cancer therapy.

The intricate nature of the tumor microenvironment (TME) results in the inefficient delivery of anticancer drugs within tumor tissues, significantly compromising the therapeutic effect of cancer treatment. To address this issue, transdermal drug delivery microneedles (MNs) with high mechanical strength have emerged. Such MNs penetrate the skin barrier, enabling efficient drug delivery to tumor tissues.

Remodeling the tumor immune microenvironment through hydrogel encapsulated G-Rh2 vaccine and systemic immunotherapy.

Ginsenoside Rh2 (G-Rh2) is a vital bioactive compound in Traditional Chinese Medicine, celebrated for its strong pharmacological properties, particularly its potent antitumor effects. However, its poor water solubility and limited bioavailability have necessitated the development of a novel drug delivery method. In this study, we utilized an indocyanine green carboxylic acid-hydroxypropyl cellulose-abietic acid-bovine serum albumin hydrogel (ICG-HPC-AA/BSA hydrogel) as a tumor vaccine to enhance the permeability, retention, and tumor-targeted therapeutic efficacy of G-Rh2.

A Camel-Fur-Inspired Micro-Extrusion Foaming Porous Elastic Fiber for All-Weather Dual-Mode Human Thermal Regulation.

Maintaining the stability of human body temperature is the basis of ensuring the normal life activities of witness, and the emergence of various functional clothing is committed to assisting the human body temperature in thermal comfort range in the changeable environment. However, achieve dual-mode thermal regulation for cooling and insulation on an integrated material without energy input and addition of functional particles has thus far been a huge challenge. Herein, a biomimetic camel-fur designed micro-extruded physically foamed porous elastic fiber (MEPF) using thermoplastic polyurethane (TPU) elastomer as raw material is reported, and its dual-layered fabric (MEPFT-d) for effective personal thermal comfortable management at extreme temperature differences.

High-nitrogen-induced γ-aminobutyric acid triggers host immunity and pathogen oxidative stress tolerance in tomato and Ralstonia solanacearum interaction.

Soil nitrogen (N) significantly influences the interaction between plants and pathogens, yet its impact on host defenses and pathogen strategies via alterations in plant metabolism remains unclear. Through metabolic and genetic studies, this research demonstrates that high-N-input exacerbates tomato bacterial wilt by altering γ-aminobutyric acid (GABA) metabolism of host plants. Under high-N conditions, the nitrate sensor NIN-like protein 7 (SlNLP7) promotes the glutamate decarboxylase 2/4 (SlGAD2/4) transcription and GABA synthesis by directly binding to the promoters of SlGAD2/4.

Protocol for in vivo nucleic acid delivery utilizing the rolling microneedle electrode array.

Electroporation temporarily enhances cell membrane permeability and promotes the absorption of external molecules. We have developed a device termed the rolling microneedle electrode array (RoMEA) that combines a densely arranged microneedle array of electrodes with rolling structures. Use RoMEA to create uniform skin micropores for efficient, low-damage transfection of nucleic acids over extended areas of the body.

Effect of Licorice polysaccharides before and after honey-processing on improving chronic fatigue syndrome and its mechanism.

Honey-processed Licorice, a type of Glycyrrhizae Radix et Rhizome processed with honey, is renowned for its superior effectiveness in tonifying the spleen and invigorating Qi compared to the raw product. Our previous research showed that flavonoids and saponins in licorice changed after processing. Therefore, the purpose of this study was to investigate the changes of chemical composition and biological activity of polysaccharides after processing.

Engineering cyanobacteria as a new platform for producing taxol precursors directly from carbon dioxide.

Taxol serves as an efficient natural anticancer agent with extensive applications in the treatment of diverse malignancies. Although advances in synthetic biology have enabled the de novo synthesis of taxol precursors in various microbial chassis, the total biosynthesis of taxol remains challengable owing to the restricted oxidation efficiency in heterotrophic microbes. Here, we engineered Synechocystis sp.

Booster vaccines dose reduced mortality in hospitalized COVID-19 patients requiring oxygen supplementation: Evidence from the Beijing Omicron outbreak.

To assess the impact of vaccines on clinical outcomes among hospitalized COVID-19-infected patients requiring oxygen supplementation during the Beijing Omicron outbreak. We conducted a retrospective cohort study at Beijing Chaoyang Hospital, Capital Medical University, from November 15, 2022, to March 31, 2023. Vaccination statuses were categorized into 3 doses, 2 doses, and unvaccinated (0 dose).

Silver incorporated SeTe nanoparticles with enhanced photothermal and photodynamic properties for synergistic effects on anti-bacterial activity and wound healing.

Bacteria invade the host's immune system, thereby inducing serious infections. Current treatments for bacterial infections mostly rely on single modalities, which cannot completely inhibit bacteria. This study evaluates the therapeutic potential of SeTe-Ag NPs, designed with excellent photo responsiveness, with a particular focus on their dual-action antibacterial effect and wound healing properties.

NIR light-activated nanocomposites combat biofilm formation and enhance antibacterial efficacy for improved wound healing.

Nanoparticle-based therapies are emerging as a pivotal frontier in biomedical research, showing their potential in combating infections and facilitating wound recovery. Herein, selenium-tellurium dopped copper oxide nanoparticles (SeTe-CuO NPs) with dual photodynamic and photothermal properties were synthesized, presenting an efficient strategy for combating bacterial infections. In vitro evaluations revealed robust antibacterial activity of SeTe-CuO NPs, achieving up to 99% eradication of bacteria and significant biofilm inhibition upon near-infrared (NIR) irradiation.

Adherence and recommended optimal treatment to Azvudine application for the treatment of outpatient COVID-19 patients: A real-world retrospective study.

Background: Azvudine was approved for the treatment of coronavirus disease 2019 (COVID-19) in China and has been widely used since the outbreak in December 2022. However, real-world research on the adherence of Azvudine is lacking. Additionally, limited research exists on determining the optimal duration for Azvudine treatment.

Healthcare workers perceptions of patient safety culture in selected Ghanaian regional hospitals: a qualitative study.

Background: Patient safety culture is an integral part of healthcare delivery both in Ghana and globally. Therefore, understanding how frontline health workers perceive patient safety culture and the factors that influence it is very important. This qualitative study examined the health workers' perceptions of patient safety culture in selected regional hospitals in Ghana.