Dental diseases affecting the gums (periodontal diseases) are extremely prevalent in our society. The effects of periodontal disease can be particularly severe as loss of support for the teeth leads to loose teeth and severely compromised chewing function. If left untreated, the associated loss of function may necessitate extraction of the teeth. We have recently identified cells residing in the periodontal ligament which may be adult stem cells. This project will further characterize these cell ....Dental diseases affecting the gums (periodontal diseases) are extremely prevalent in our society. The effects of periodontal disease can be particularly severe as loss of support for the teeth leads to loose teeth and severely compromised chewing function. If left untreated, the associated loss of function may necessitate extraction of the teeth. We have recently identified cells residing in the periodontal ligament which may be adult stem cells. This project will further characterize these cells and explore whether they can be used to restore periodontal tissues damaged by periodontal disease.Read moreRead less
Characterization Of Casein Phosphopeptide Amorphous Calcium Fluoride Phosphate As A Remineralization System
Funder
National Health and Medical Research Council
Funding Amount
$493,514.00
Summary
Dental caries (tooth decay) remains a major public health problem in Australia with an economic burden in excess of $1 billion p.a. The overall aim of this project is the development of a novel remineralizing agent (casein phosphopeptide stabilized amorphous calcium fluoride phosphate) for the remineralization of early tooth decay lesions (white spot lesions). The project will involve the testing of the ability of the novel remineralization system to remineralize (repair) white spot lesions in v ....Dental caries (tooth decay) remains a major public health problem in Australia with an economic burden in excess of $1 billion p.a. The overall aim of this project is the development of a novel remineralizing agent (casein phosphopeptide stabilized amorphous calcium fluoride phosphate) for the remineralization of early tooth decay lesions (white spot lesions). The project will involve the testing of the ability of the novel remineralization system to remineralize (repair) white spot lesions in vitro and in situ. The project also involves the detailed characterization of the molecular interactions of the components of the remineralizing system using NMR spectroscopy and other techniques. It is anticipated that this project will result in the development of a system with substantialy superior properties for the non-invasive treatment (reversal) of white spot lesions and may ultimately lead to the development of a novel system for the treatment and prevention of tooth decay.Read moreRead less
Tissue Regeneration In Oral Health: Regenerating Damaged Oral Tissues
Funder
National Health and Medical Research Council
Funding Amount
$575,833.00
Summary
The regeneration of damaged dental tissues is an emerging area in oral health-based research and is increasingly becoming the forefront of medical-dental interdisciplinary investigations. This idea of repairing damage follows Dr Fiona Wood's unique concept of growing large amounts of specific cells in the lab and spraying them onto damaged tissue, which effectively assists in the repair of the damaged organ. This approach can be similarly used in the dental field by applying prosthetic implants ....The regeneration of damaged dental tissues is an emerging area in oral health-based research and is increasingly becoming the forefront of medical-dental interdisciplinary investigations. This idea of repairing damage follows Dr Fiona Wood's unique concept of growing large amounts of specific cells in the lab and spraying them onto damaged tissue, which effectively assists in the repair of the damaged organ. This approach can be similarly used in the dental field by applying prosthetic implants with cells and growth factors, thus enhancing the regeneration of the damaged dental tissue. Artificial replacement of missing teeth has significant limitations when compared with the natural, original tissues in terms of function and appeal. Bridges and dentures have been used for centuries in dentistry but require periodic maintenance or even replacement after a period of time due to usage or loss of adaptation. Thus, if implants and bridgework can be eliminated, so too will be the problems and costs associated with them. This benefit is specifically aimed at the regional community and the public sector, as these patients are generally not in a financial position to restore missing teeth with bridgework, let alone implants. Our aims are: 1. Examine the function of two recently identified growth factors, Osteoclast-Derived Osteoblastic Factor and Emilin and Multimerin-2, through their effect on paradental in vitro cell regeneration. 2. To assess the role played by collagen bioscaffolds, together with explanted cells and growth factors examined during the in vitro studies, in the healing process by comparing teeth transplanted into an existing socket with those transplanted into a prepared site. 3. Evaluate the effect of growth factors, explanted cells and bioscaffolds on regeneration of tissues lost as a result of ligature-induced periodontal infection.Read moreRead less