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Bone Regeneration Articles & Analysis
13 articles found
l Osteoconductivity: bioglass promotes the growth of new bone tissue, making it an ideal material for bone grafts and other orthopedic applications. ...
ByMatexcel
Its unique properties, such as biocompatibility, bioactivity, and structural similarity to human bone and teeth, make it indispensable in fields like biomedical engineering, environmental science, and advanced materials. ...
ByMatexcel
Posterolateral Rabbit Spinal Fusion Study I. Introduction Autologous bone has long been the gold standard for bone graft substitute in spinal fusion procedures. The limited supply and morbidity associated with using autologous graft material led to the development of alternative bone grafting materials. Bioactive glass has a long history of biomedical use and has been shown to facilitate mineral ...
These ceramics are designed to mimic the structure and properties of natural bones, promoting their integration with the surrounding tissues. Key examples of biocompatible ceramics include hydroxyapatite (HA) and zirconia. Hydroxyapatite, the main mineral component of human bones, exhibits excellent biocompatibility and osteoconductivity. It is commonly used in ...
H2020 WIDESPREAD-05-2020: Twinning project GA No 952347 Click here for the News on the project implementation General information Project coordinator: Professor Dr.sc.ing. Janis Locs Project period: 1.01.2021.-31.12.2023. Project Partners: AO Research Institute Davos, Switzerland (ARI), Institute National Polytechnique de Toulouse CIRIMAT, France (INPUT-CIRIMAT), FORM-Lab Frankfurt Orofacial ...
What happens when you bring 90+ expert dentistry and maxillofacial surgeon’s together in a room to unpack the burgeoning world of collagen membrane technology and digital dentistry? There are plenty of reasons to smile, that’s what. On Tuesday 7 August 2018, Australian regenerative medicine company Orthocell (ASX:OCC) sponsored and participated in an industry forum, Advances in ...
This dual approach was observed to provide higher level of vascularization and new bone formation in vivo. While applied in this case for bone regeneration, this technique could be easily adapted to prevascularise scaffolds to target regeneration of any tissue and organs. ...
ByRegenhu
Mesenchymal stem cells (MSC) differentiate towards multiple lineages that participate in bone formation and are often utilized for bone regeneration therapy. ...
Osteogenesis, or new bone formation, begins in the early stages of embryonic development and continues postnatally until skeletal maturity is reached in early adulthood. Osteogenesis reoccurs in the event of bone trauma, such as a fracture or surgically created defect. Bone mass can also increase in response to chronic weight bearing from daily ...
«Clinical Performance of Moldable Bioceramics for Bone Regeneration in Maxillofacial Surgery», Journal of Biomimetics, Biomaterials and Biomedical Engineering, Vol. 25, pp. 69-72, 2015 ...
A localised and release–controlled carrier is essential to enhance the effectiveness of bone morphogenetic protein in bone regeneration and repair. In this work, TiO2 nanotubes with diameter larger than 350 nm were successfully fabricated for the first time by electrochemical method using diethylene glycol electrolyte. The diameter of the ...
It is hypothesised that the use of naturally–sourced raw materials for the synthesis of hydroxyapatite (HA), as a component of a hard tissue constructs, enables enhanced bone remodelling due to the biomimetic physical–chemical characteristics of the HA. The aim of this study was to convert coccolith rich chalk to HA with the potential application of aiding bone ...
This powder could be used in regeneration of bone defects, fabrication of medical implants and as a vector for pharmaceuticals and biological materials such as genes.Keywords: hydroxyapatite, phospahatse, serratia, biomineralisation, nanobiotechnology, nanotechnology, Iran, ...