Gynura procumbensin vitro adventitious root nanohydrogel improves inflammation-proliferation transition in second-degree burn healing.

Inflammation-proliferation transition plays a key role in the successful healing of a common burn type, second-degree burn. Gynura procumbens in vitro adventitious root nanohydrogel is currently being studied for its immunomodulatory to improve reparative environment. Root production and nanohydrogel preparation was done respectively by in vitro propagation and emulsion/ solvent diffusion with carbomer as a polymer.

The lipoteichoic acid of Lactobacillus plantarum effect on lymphocyte, VEGF-A and TGF-β expression in male rat dental pulp.

Objective: Lipoteichoic acid from Lactobacillus plantarum (L. plantarum) is a significant virulence factor that exacerbates pulp inflammation. Lipoteichoic acid plays a role in modulating the inflammatory to proliferative phase transition is crucial in determining the outcome of pulp healing or necrosis.

Transportation infrastructure planning in supporting disaster mitigation: Case study in Mount Gamalama.

Effective mitigation planning is needed for communities living in areas prone to disasters, including natural calamities such as volcanic eruptions. The development of disaster evacuation routes in disaster-prone areas, including the area where this study was conducted, requires proper planning in transportation infrastructure. Ternate city in Indonesia is a disaster-prone area because of the presence of an active volcanic mountain and an area traversed by the Pacific ring of fire.

Unexpected Role of Nonimmune Cells: Amateur Phagocytes.

Effective and efficient efferocytosis of dead cells and associated cellular debris are critical to tissue homeostasis and healing of injured tissues. This important task was previously thought to be restricted to professional phagocytes (PPs). However, accumulating evidence has revealed another type of phagocyte, the amateur phagocyte (AP), which can also participate in efferocytosis.

Downregulation of G3BP2 reduces atherosclerotic lesions in ApoE mice.

Background And Aims: Atherosclerosis is mainly caused by stress in arterial microenvironments, which results in the formation of stress granules as a consequence of the stress response. As the core protein of stress granules, GTPase-activating protein (SH3 domain)-binding protein 2 (G3BP2) is known to play pivotal roles in tumour initiation, viral infection and Alzheimer's disease, but the role of G3BP2 in atherosclerosis development is poorly understood. Previous studies have shown that vaccination with epitopes from self-antigens could reduce atherosclerotic lesions.