Carbon is one of the most abundant elements on Earth. In addition to the well-known
crystallographic modifications such as graphite and diamond, other allotropic carbon …

Hydrogels are versatile biomaterials characterized by three-dimensional, cross-linked,
highly hydrated polymeric networks. These polymers exhibit a great variety of biochemical …

Recently, nanotechnology has significantly influenced nanomedicine and drug
development, and conveyance. From the polymeric nanoarchitectural and …

Chitosan holds great promise for demanding applications such as functional packing and
biomedical uses. There has been a notable increase in interest in combining chitosan or its …

Cells in vivo are situated in a complicated microenvironment composed of diverse
biochemical and biophysical cues. To regulate biological functions of cells, tissues and …

Cell-free and cell-loaded constructs are used to bridge the critical-sized bone defect.
Oxidative stress at the site of the bone defects is a major interference that slows bone …

Nanotechnology in recent times has remarkably changed the narrative in nanomedical and
drug conveying applications. Researches emanating from the stables of polymeric …

A biomimetic-based approaches, especially with artificial scaffolding, have established great
potential to provide tissue regeneration capacity and an effective way to bridge the gap …

The concept of theranostics is ground breaking in the area of cancer remedy due to its
capability to integrate both therapeutic and diagnostic elements in a single approach. This …

In this short review, drug delivery systems, formed by polysaccharide-based (ie, agarose,
alginate, and chitosan) aerogels, are analyzed. In particular, the main papers, published in …