Cell–Material Interplay in Focal Adhesion Points
The complex interplay between cells and materials is a key focus of this research, aiming to
develop optimal scaffolds for regenerative medicine. The need for tissue regeneration …
develop optimal scaffolds for regenerative medicine. The need for tissue regeneration …
Harnessing Fungi Signaling in Living Composites
Signaling pathways in fungi offer a profound avenue for harnessing cellular communication
and have garnered considerable interest in biomaterial engineering. Fungi respond to …
and have garnered considerable interest in biomaterial engineering. Fungi respond to …
Label-free pathogen detection based on yttrium-doped carbon nanoparticles up to single-cell resolution
The capability to detect bacteria at a low cell density is critical to prevent the delay in
therapeutic intervention and to avoid the emergence of antibiotic-resistant species. Till date …
therapeutic intervention and to avoid the emergence of antibiotic-resistant species. Till date …
Three‐dimensional imaging and quantification of real‐time cytosolic calcium oscillations in microglial cells cultured on electrospun matrices using laser scanning …
The development of a minimally invasive, robust, and inexpensive technique that permits
real‐time monitoring of cell responses on biomaterial scaffolds can improve the eventual …
real‐time monitoring of cell responses on biomaterial scaffolds can improve the eventual …
The mitochondrial calcium uniporter inhibitor Ru265 increases neuronal excitability and reduces neurotransmission via off‐target effects
Abstract Background and Purpose Excitotoxicity due to mitochondrial calcium (Ca2+)
overloading can trigger neuronal cell death in a variety of pathologies. Inhibiting the …
overloading can trigger neuronal cell death in a variety of pathologies. Inhibiting the …
Mapping of structural arrangement of cells and collective calcium transients: an integrated framework combining live cell imaging using confocal microscopy and …
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 …
activity during in vitro and in vivo preclinical studies. Specially, high-resolution microscopy …
A robust model system for retinal hypoxia: live imaging of calcium dynamics and gene expression studies in primary human mixed retinal culture
The detailed mechanisms underlying oxidative stress that leads to neuroinflammation and
neurodegeneration in retinal vascular conditions, including diabetic retinopathy, retinopathy …
neurodegeneration in retinal vascular conditions, including diabetic retinopathy, retinopathy …
A computational model to uncover the biophysical underpinnings of neural firing heterogeneity in dissociated hippocampal cultures
Abstract Calcium (Ca2+) imaging reveals a variety of correlated firing in cultures of
dissociated hippocampal neurons, pinpointing the non‐synaptic paracrine release of …
dissociated hippocampal neurons, pinpointing the non‐synaptic paracrine release of …
Detection of Specific Templates in Calcium Spiking in HeLa Cells Using Hierarchical DBSCAN: Clustering and Visualization of CellDrug Interaction at Multiple Doses
One of the major challenges in analyzing large scale intracellular calcium spiking data
obtained through fluorescent imaging is to identify various patterns present in time series …
obtained through fluorescent imaging is to identify various patterns present in time series …
Quantitative confocal microscopy for grouping of dose–response data: deciphering calcium sequestration and subsequent cell death in the presence of excess …
Fluorescent calcium (Ca2+) imaging is one of the preferred methods to record cellular
activity during in vitro preclinical studies, high-content drug screening, and toxicity analysis …
activity during in vitro preclinical studies, high-content drug screening, and toxicity analysis …