Biphasic calcium phosphate nanocomposite porous scaffolds for load-bearing bone tissue engineering

## Abstract Modified Portland cement porous scaffolds with suitable characteristics for load‐bearing bone tissue engineering applications were manufactured by combining the particulate leaching and foaming methods. Non‐crosslinked polydimethylsiloxane was evaluated as a potential reinforcing materi

## Abstract Uniform distribution of cells and their extracellular matrix is essential for the __in vivo__ success of bone tissue engineering constructs produced __in vitro__. In this study, the effects of biphasic calcium phosphate (BCP) granules embedded into chitosan scaffolds on the distribution

We investigated the fabrication of highly porous scaffolds made of three different materials [poly(propylene fumarate) (PPF) polymer, an ultra-short single-walled carbon nanotube (US-tube) nanocomposite, and a dodecylated US-tube (F-US-tube) nanocomposite] in order to evaluate the effects of materia

## Abstract In this work, the fabrication and __in vitro__ degradation of porous fumarate‐based/alumoxane nanocomposites were evaluated for their potential as bone tissue engineering scaffolds. The biodegradable polymer poly (propylene fumarate)/propylene fumarate‐diacrylate (PPF/PF‐DA), a macrocom

## Abstract Macroporous beta tricalcium phosphate (β‐TCP) scaffolds were evaluated as potential carriers and delivery systems for bone morphogenetic protein‐2 (BMP‐2). Chemical etching was performed to increase the available surface and thus the protein loading. X‐ray diffraction and infrared spect