Electrospun fibrous meshes are widely used for tissue repair due to their ability to guide a
host of cell responses including phenotypic differentiation and tissue maturation. A critical …

Electrospinning is a fabrication technique used to produce nano-or micro-diameter fibers to
generate biocompatible, biodegradable scaffolds for tissue engineering applications …

In a human host, bacterial Staphylococcus aureus and fungal Candida albicans pathogens
form a mixed biofilm that causes severe mortality and morbidity. However, research on the …

Investigations on nanomedicine involve conventional two dimensional (2D) imaging
techniques for observing the nanoparticle internalization at a single time point where various …

Functionalization of electrospun meshes with growth factors (GFs) is a common strategy for
guiding specific cell responses in tissue engineering. GFs can exert their intended biological …

Real-time three-dimensional (3-D) imaging is crucial for quantifying correlations among
various molecules under acute ischemic stroke. Insights into such correlations may be …

Abstract Live cell calcium (Ca2+) imaging is one of the important tools to record cellular
activity during in vitro and in vivo preclinical studies. Specially, high-resolution microscopy …

Cellular hypoxia is a major cause of oxidative stress, culminating in neuronal damage in
neurodegenerative diseases. Numerous ex vivo studies have implicated that hypoxia …

Abstract Calcium (Ca2+) imaging reveals a variety of correlated firing in cultures of
dissociated hippocampal neurons, pinpointing the non‐synaptic paracrine release of …

Gelatin is a product obtained through partial hydrolysis and thermal denaturation of
collagen, belonging to natural biopeptides. With irreplaceable biological functions in the …