Abstract Search

ba0003pp38 | Bone development/growth and fracture repair | ECTS2014

Development and characterization of novel biodegradable scaffold materials

Fowler Tristan , Kampleitner Carina , Poocza Leander , Markus Andrea , Dullin Christian , Hildebrand Gerhard , Alves Frauke , Liefeith Klaus , Hoffmann Oskar

The development of optimally performing biomaterials mimicking the natural physiological processes underlying bone repair is essential for non-healing large bone lesions. We sought to develop scaffolds that fill the lesions and improve bone healing. We tested three scaffolds comprised of varying percentages of lactide (LA), caprolactone (CL), and methacrylate produced by two-photon photopolymerization; LCM 3 (8:2; 85%), 4 (9:1; 90%), and 6 (9:1; 40%). We hypothesized that the ...

0 shares

ba0005p73 | Bone development/growth and fracture repair | ECTS2016

Combination of novel two-photon photopolymerised scaffolds and bioactive elastin-like-recombinamers induce bone regeneration

Kampleitner Carina , Hildebrand Gerhard , Liefeith Klaus , Gonzalez Constancio , Rodriguez-Cabello Jose Carlos , Markus Andrea , Dullin Christian , Alves Frauke , Hoffmann Oskar

Non-healing fractures caused by trauma, disease or tumour resection demand the use of bone grafts to support and stimulate the healing process. We sought to develop and evaluate the effect of a novel bioactive biodegradable biomaterial designed to fill large bone lesions and to improve bone healing. We used two-photon polymerised synthetic polymer scaffolds composed of lactide (LA), caprolactone (CL), and methacrylate (MA) with varying LA: CL ratio and percentage of methacryla...

0 shares

Bone Abstracts

Development and characterization of novel biodegradable scaffold materials

Combination of novel two-photon photopolymerised scaffolds and bioactive elastin-like-recombinamers induce bone regeneration

BiosciAbstracts