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Bone Regeneration Articles & Analysis
13 articles found
Hydroxyapatite (HA), a naturally occurring mineral form of calcium apatite, has emerged as a cornerstone material in modern science and technology. 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. This article delves into the ...
ByMatexcel
Introduction to Bioglass Bioglass, also known as bioactive glass, is a type of synthetic material that has revolutionized the fields of medicine and dentistry. First developed in the late 1960s by Dr. Larry Hench and his team at the University of Florida, Bioglass is a glass-ceramic material that has the unique ability to bond with living tissue. This property, known as bioactivity, makes it an ...
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 ...
In the field of materials science, there are various fascinating areas that have captured the attention of researchers and innovators worldwide. This article aims to shed light on four such intriguing topics: Hydrophobic Polymers, Photochromic Materials, PVC Stabilizers, and Biocompatible Ceramics. By delving into the mysteries surrounding these subjects, we can gain a deeper understanding of ...
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 ...
By combining different cell populations in a fibrin bioink, researchers from Trinity College Dublin, Royal College of Surgeons in Ireland and University of Illinois Chicago were able to sprout an in vitro microvessel network that was then exploited to prevascularise a 3D printed scaffold implanted in a critical size femoral defect using REGENHU bioprinter. This dual approach was observed to ...
ByRegenhu
Mesenchymal stem cells (MSC) differentiate towards multiple lineages that participate in bone formation and are often utilized for bone regeneration therapy. A 2019 review by Lee et al. explores the endogenous mechanical and biochemical environment of MSCs. Additionally, the article highlights the essential factors that lead to bone repair and how these factors can be leveraged to improve bone ...
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 use or decrease due to a lack of movement or applied ...
The article shows the valorization of results of a non interventional clinical study of 78 patients with the product In’Oss™ in association with a collagen resorbable membrane in maxillofacial surgery. The safety and efficacy of In’Oss has been demonstrated, as well as the performance of EZ Cure membrane associated to it. G. Daculsi et al. «Clinical Performance of ...
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 nanotubes reaches 550 nm and 680 nm at 90 V and 100 V, ...
Calcium carbonates originating from marine sources show unique pore structure and nano–architecture, offering potential in the field of hard tissue engineering. 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 ...
Nanostructured hydroxyapatite (nHA) exhibits improved mechanical properties and biocompatibility. To optimise the benefits of nano-sized precursors, the particles must have a uniform shape and size and minimum degree of agglomeration. In this study nHA was synthesised using an Iranian strain of Serratia. The powder was synthesised in different pH of reaction solution and incubation temperatures. ...