The cells as a tissue component need to viscoelastic, biocompatible, biodegradable, and
wettable extracellular matrix for their biological activity. In this study, in order to prepare …

Biodegradable polyester polyol was synthesized from oleochemical glycerol monostearate
(GMS) and glutaric acid under a non-catalyzed and solvent-free polycondensation method …

To meet the needs of clinical medicine, bone tissue engineering is developing dynamically.
Scaffolds for bone healing might be used as solid, preformed scaffolding materials, or …

Elastomeric polyurethanes with tunable biodegradation properties and suitable for
numerous biomedical applications were synthesized via reaction of epoxy‐terminated …

Polyurethane networks based on castor oil (CO) as a renewable resource polyol and poly
(ethylene glycol)(PEG) with tunable biodegradation rates as potential candidates for …

Bio-based high elastic polyurethanes were prepared from hexamethylene diisocyanate and
various ratios of isosorbide to poly (tetramethylene glycol) as a diol by a simple one-shot …

Biodegradable polyurethanes (PUs) were synthesized from methylene di-p-phenyl-
diisocyanate (MDI), polycaprolactone diol (PCL-diol) and N, N-bis (2-hydorxyethyl)-2 …

Two series (random and block) poly (glycolide‐co‐ε‐caprolactone) macrodiols with various
glycolide to ε‐caprolactone ratios (50/50 and 30/70, R‐PG50C, R‐PG30C, B‐PG50C, and B …

In the engineering of soft tissues, scaffolds with high elastance and strength coupled with
controllable biodegradable properties are necessary. To fulfill such design criteria we have …

This paper reviews biodegradable synthetic polymers focusing on their potential in tissue
engineering applications. The major classes of polymers are briefly discussed with regard to …