6533b821fe1ef96bd127c234
RESEARCH PRODUCT
Nanotechnology, and scaffold implantation for the effective repair of injured organs: An overview on hard tissue engineering
Parinaz AbdollahiyanMiguel De La GuardiaFatemeh OroojalianMaryam HejaziAhad Mokhtarzadehsubject
Rapid prototyping0303 health sciences3D bioprintingScaffoldTissue EngineeringTissue ScaffoldsComputer scienceCartilageBioprintingPharmaceutical ScienceNanotechnology02 engineering and technology021001 nanoscience & nanotechnologyHard tissuelaw.invention03 medical and health sciencesmedicine.anatomical_structureTissue engineeringlawPrinting Three-DimensionalmedicineNanotechnology0210 nano-technology030304 developmental biologydescription
The tissue engineering of hard organs and tissues containing cartilage, teeth, and bones is a widely used and rapidly progressing field. One of the main features of hard organs and tissues is the mineralization of their extracellular matrices (ECM) to enable them to withstand pressure and weight. Recently, a variety of printing strategies have been developed to facilitate hard organ and tissue regeneration. Fundamentals in three-dimensional (3D) printing techniques are rapid prototyping, additive manufacturing, and layered built-up and solid-free construction. This strategy promises to replicate the multifaceted architecture of natural tissues. Nowadays, 3D bioprinting techniques have proved their potential applications in tissue engineering to construct transplantable hard organs/tissues including bone and cartilage. Though, 3D bioprinting methods still have some uncertainties to fabricate 3D hard organs/tissues. In the present review, most advanced technical improvements, experiments, and future outlooks of hard tissue engineering are discussed, as well as their relevant additive manufacturing techniques.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-10-04 | Journal of Controlled Release |