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Many commercial bone graft substitutes (BGS) and experimental bone tissue engineering scaffolds have been developed for bone repair and regeneration.
In order to overcome these problems, polymer/bioactive ceramic composites have been developed for bone tissue engineering, which ensure the achievement of the above-mentioned properties and performance of the material (Ryszkowska et al. 2010).
Novel porous BG COL HYA PS bioactive composites composed of a sol gel processed bioactive glass (BG), collagen (COL), hyaluronic acid (HYA) and phosphatidylserine (PS) have been developed for bone tissue engineering applications.
Currently, no model has been developed for bone marrow adipose tissue (BMAT), a novel adipose depot that has previously been overlooked as "filler tissue" but has more recently been recognized as endocrine-signaling and systemically relevant.
A novel multifunctional nanodevice based in doxorubicin (DOX -loaded mesoporous silica nanoparticles (MSNs) as nanoplatforms for the assembly of DOX -loadeduilding blocks has been developed for bone cancer treatmesoporous
Immersion of electrospun polycaprolactone (PCL) nanofiber mats in calcium phosphate solutions similar to simulated body fluid resulted in deposition of biomimetic calcium phosphate layer on the nanofibers and thus a highly bioactive novel scaffold has been developed for bone tissue engineering.
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Novel multi-functional P 3HB) microsphere/45S5 Bioglass®-based composite scaffolds exhibiting potential for drug delivery were developed for bone tissue engineering.
PHBV microsphere/45S5 bioactive glass (BG) composite scaffolds with drug release function were developed for bone tissue engineering.
Flexible microporous scaffold membranes of poly l-lactic acid) (poly l-lacticcacidlactone) (PLLA blend were developed for bone regeneration.
In this study, porous scaffolds made of magnesium phosphate (MP /polycaprolactone (PCL) biocomposite were developed for bone tissue engineering applications.
The hydrogel, which was developed for bone healing and tissue engineering, was labelled with a ruthenium complex and implanted into rabbit bone defects in order to investigate its in vivo degradation.
More suggestions(15)
been observed for bone
been developed for computing
been developed for cancer
been submitted for bone
been developed for localization
been targeted for bone
been developed for conformation
been developed for cost
been applied for bone
been developed for use
been developed for sentiment
been demonstrated for bone
been developed for flotation
been employed for bone
been referred for bone
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