3d printed bone grafts
TRANSCRIPT
3D PRINTED ARTIFICIAL BONE GRAFTS AS SILICON
REPLACEMENT
OUR IDEA: • TO REPLACE EXISTING GOLD STANDARD METHOD OF SILICON
IMPLANTS IN FACIAL ESTETIC AND RECONSTRUCTION SURDGERY BY INTRODUCING NOVEL MATERIAL AND NOVEL METHOD OF IMPLENTATION VIA 3D BIOPRINTING
PROJECTIONS OF GLOBAL COSMETIC IMPLANTS MARKET SIZE
• "Global Cosmetic Implants Market Size, Share And Trends Report Up To 2020 : Radiant Insights To 2020“ made projection of 9,29 Billion by 2020. • According to estimates published by the American Society of Plastic
Surgeons in 2013, residents of the U.S. spent nearly USD 7.0 billion in cosmetic surgical procedures • Facial Implants are expected grow at a lucrative rate during the
forecast period owing to increasing popularity of celebrities, who in turn motivate younger generation to look aesthetically appealing.
“GOLD STANDARD” OF FACIAL SURDGERY
• SILICONE IMPLANTS MOST POPULAR IMPLEMENTATION IN ESTETIC PLASTIC SURDGERY IS CHEEK, CHIN AND MANDIBULAR IMPLANTS:
Mandibular and male cheek silicon implants
Screw attachment of silicon implants and lose attachment to the bone makes them impact and stress sensible
Facial reconstruction and asymmetry correction
Attachment to the bone without osteointegration
Because of drawbacks of silicone material properties and technique of implantation many complications may occur • Rate of rejection of silicone implants is estimated from 1:7 to 1:9 in
different works • Problems can also occur after impact in region of implant
Silicone implants replacement with hydroxyapatite based scaffold • Aim of our project is to replace silicone implants in facial surgery with
hydroxyapatite (artificial bone) scaffold• For that purpose we have tested novel material, ALBO-OS, that is proven
better than current gold standard artificial bone Bio-Oss®: • Jokanović V., ČolovićB., Marković D., Petrović M., Jokanović M., Milosavljević P., Sopta
J.,In Vivo Investigation of ALBO-OS Scaffold Based on Hydroxyapatite and PLGA, 2016 (2016),Article ID 3948768, 10 pages, http://dx.doi.org/10.1155/2016/3948768.
• Jokanović V, Čolović B, Marković D, Petrović M, Soldatović I, Antonijević Dj., Milosavljević P, Sjerobabin N, Sopta J., Extraordinary biological properties of a new calcium hydroxyapatite/poly(lactide-co- glycolide)-based scaffold confirmed by in vivo investigation, doi: 10.1515/bmt-2015- 0164.
• Sjerobabin N. , Čolović B. , Petrović M. , Marković D. , Živković S. , Jokanović V., Cytotoxicity investigation of a new hydroxyapatite scaffold with improved structural design, 144, (2016), (5-6), 280-287.
Main advantages: our material / silicone implants • Practically no rejection / 1:8 or worse rejection rate• Osteointegration and osteoinductivity / osteoresorption • High stability and impact resistance / lower stability and low impact
resistance • Vascularization and remodeling (complete integration of graft in to
organism) / can not integrate and have to be replaced in time
Our team: • Prof. Marija Djuric and Anthropology Lab Belgrade (http://
www.anthropologylab-bg.com/research/index.html ) • Prof. Vukoman Jokanovic, Institute for Nuclear Sciences Vinca (https://
www.researchgate.net/publication/299483559_In_vivo_investigations_of_ALBO-OS_scaffold_based_on_hydroxyapatite_and_PLGA ) • Miroslav Gasic and Milutin Micic, Tesla Design
• As you can see in the links on the previous page our team has top results on the SCI index list. Laboratory for anthropology is the best ranking laboratory in our University and results of prof. Vukoman are visible both in Laboratory for materials of Institute for Nuclear Sciences Vinca and in private enterprise through cooperation with top ranking companies.
• Equipment in our possession in worth around 400.000 E and includes micro CT for estimating bone microstructure, CT, CBTC and so on.