Repair of load-bearing defects resulting from disease or trauma remains a critical barrier for
bone tissue engineering. Calcium phosphate (CaP) scaffolds are among the most …

Current strategies of tissue engineering are focused on the reconstruction and regeneration
of damaged or deformed tissues by grafting of cells with scaffolds and biomolecules …

A great deal of research is ongoing in the area of tissue engineering (TE) for bone
regeneration. A possible improvement in restoring damaged tissues involves the loading of …

A fine-tuned combination of scaffolds, biomolecules, and mesenchymal stem cells (MSCs) is
used in tissue engineering to restore the function of injured bone tissue and overcome the …

Sodium chloride and polyethylene glycol (PEG) were used as water‐soluble porogens for
the formation of porous polycaprolactone (PCL) scaffolds. The main purpose was to prepare …

Tissue repair and regeneration is an interdisciplinary field focusing on develo** bioactive
substitutes aimed at restoring pristine functions of damaged, diseased tissues. Biomaterials …

The creation of scaffolds for cartilage tissue engineering has faced significant challenges in
develo** constructs that can provide sufficient biomechanical support and offer suitable …

Controllable pore size and architecture are essential properties for tissue‐engineering
scaffolds to support cell ingrowth colonization. To investigate the effect of polyethylene …

Neurotrophin-3 (NT-3) has shown promise in regenerative strategies after spinal cord injury;
however, sustained local delivery is difficult to achieve by conventional methods. Controlled …

This study investigated the influence of pore sizes of poly (lactic‐co‐glycolic acid)(PLGA)
scaffolds on the compressive strength of tissue‐engineered biodiscs and selection of the …