The precision in the design and manufacturing of scaffolds with ideal properties such as
biocompatibility, biodegradability, mechanical and surface characteristics is very crucial for …

Today, with the salient advancements of modern and smart technologies related to tissue
engineering and regenerative medicine (TE-RM), the use of sustainable and biodegradable …

Annually, millions of patients suffer from irreversible injury owing to the loss or failure of an
organ or tissue caused by accident, aging, or disease. The combination of injectable …

Biomaterials are considered a substantial building block for tissue engineering, regenerative
medicine, and drug delivery. Despite using both organic and inorganic biomaterials in these …

Alloplasts are synthetic, inorganic, biocompatible bone substitutes that function as defect
fillers to repair skeletal defects. The acceptance of these substitutes by host tissues is …

In the last few decades, tissue engineering has become one of the most studied medical
fields. Even if bone shows self-remodeling properties, in some cases, due to injuries or …

Modification of Hyaluronic acid (HA) with Sodium metaperiodate (NaIO 4) results in the
formation of oxidized HA (OHA). OHA containing multiple aldehyde groups can easily react …

Polymers play a vital role as a scaffold in tissue engineering. Polymers, as biomaterials, can
mimic the extracellular matrix (ECM) of cells and improve the biological behavior of cells in …

The introduction of new materials for the production of various types of constructs that can
connect directly to tissues has enabled the development of such fields of science as …

The present work focuses on the evaluation of polymer, metal and ceramic based
biomaterials with particular emphasis on success rate of these materials till date along with …