Deciphering The Metabolic And Endocrine Profile Of Healthy Adipocytes
Funder
National Health and Medical Research Council
Funding Amount
$563,194.00
Summary
Obesity is associated with the development of metabolic diseases, however, it is becoming clear that it is where the excess fat is stored that is more important when predicting the health risks associated with obesity. This project aims to identify whether adipocyte progenitor cells, which eventually become fat cells, are ‘preprogrammed’ and whether differences in these cells explain the generation of either healthy or unhealthy fat in different locations of the body.
Comparison Of Periodontal Ligament Stem Cells And Induced Pluripotent Periodontal Ligament Stem Cells For Periodontal Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$831,955.00
Summary
In the first part of this study we will determine whether induced pluripotent stem cells or adult stem cells from the periodontal ligament are better candidates for periodontal regeneration. Secondly, using CAD/CAM technology we will make tissue engineering scaffolds tailored to fit periodontal defects and seeded with stem cells to improve on current techniques used to regenerate damaged tissues around teeth affected by periodontal disease.
Investigating Human Keratinocyte Stem Cells And Their Microenvironmental Niche
Funder
National Health and Medical Research Council
Funding Amount
$570,928.00
Summary
The stem cells in the outer protective layers of the epithelium of the skin (keratinocyte stem cells), possess an intrinsically high capability to regenerate tissue. However, this tissue regenerative ability can be enhanced by interactions with microenvironmental elements i.e. connective tissue cells and proteins. This study seeks to investigate specific keratinocyte-microenvironment interactions which will ultimately be used to improve current methods for generating skin tissue for burns patien ....The stem cells in the outer protective layers of the epithelium of the skin (keratinocyte stem cells), possess an intrinsically high capability to regenerate tissue. However, this tissue regenerative ability can be enhanced by interactions with microenvironmental elements i.e. connective tissue cells and proteins. This study seeks to investigate specific keratinocyte-microenvironment interactions which will ultimately be used to improve current methods for generating skin tissue for burns patients.Read moreRead less
Osteochondroreticular Stem Cell Therapy For Osteoarthritis: The Right Cells For The Job.
Funder
National Health and Medical Research Council
Funding Amount
$561,956.00
Summary
"Wear and tear" arthritis of the knee, hip and back joints is known as osteoarthritis. This causes significant health burden and costs in our community, particularly in older Australians. Osteoarthritis begins with the loss of joint cartilage. We believe that a new type of stem cells (OCR stem cells) offer the greatest promise to generate and thus therapeutically replace joint cartilage. Our studies test this hypothesis and develop preclinical translation of our discoveries in mice into humans.
Transcriptome Landscape Of Brown/beige Adipogenesis In Humans
Funder
National Health and Medical Research Council
Funding Amount
$393,369.00
Summary
There are three kinds of fat in the body: white, brown and beige. While excess white fat results in obesity, brown fat is associated with leanness and lowers blood glucose levels. Recent animal experiments show that under certain conditions, white fat can be transformed into beige fat, leading to benefits such as weight loss. The current project grant involves examination of human fat cells grown in the laboratory and investigation on the genetics of brown and beige fat.
Upscaling Cardiac Tissue Engineering: Differentiation Of IPS Cells, Enrichment And Bionic Approaches
Funder
National Health and Medical Research Council
Funding Amount
$709,758.00
Summary
Stem cell therapies to repair heart muscle are experimental methods which promise future clinical treatments. Our tissue engineering chamber model provides a protective environment for implanted cells and generates contracting heart tissue. Towards clinical application we will scale up the tissue volume produced by: improving cell supply with new stem cell technologies, design chambers for bulk cell implantation, adopt a bionic approach to cell pacing and apply the model into larger animals.
Transgenerational Effects Of Male Obesity - Mechanisms And Interventions
Funder
National Health and Medical Research Council
Funding Amount
$829,143.00
Summary
Childhood obesity is associated with obesity in either parent, and obese children tend to become obese adults, forming an intergenerational cycle that promotes obesity. We have identified paternal obesity as an important novel target for intervention to stop the progression of the obesity epidemic. This project investigates supplementation of obese fathers with folate to prevent the adverse impact of paternal obesity on subsequent generations.
Evaluation Of Tissue Engineered Decellularised Biphasic Constructs For Periodontal Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$578,031.00
Summary
This project aims to regenerate the tissues lost as a result of gum disease. This will be done using scaffolds that replicate the complex structure of periodontal tissues.The scaffolds will be loaded with cells and allowed to mature before the cellular component is removed. The resultant construct is then inserted back into periodontal defects where it will be repopulated by host cells. This approach has the potential to be developed into an off-the-shelf clinical treatment.
Chemerin, A Novel Therapeutic Target For Modulation Of Adipose Tissue Mass
Funder
National Health and Medical Research Council
Funding Amount
$535,621.00
Summary
Obesity is a significant public health issue due to its increasing prevalence and association with other diseases including cardiovascular disease. Efforts to pharmacologically prevent and treat obesity are impaired by an incomplete understanding of the genes and metabolic processes involved. This project will use cell and animal models to examine the processes that occur during the expansion of fat tissue which will broaden our understanding of obesity and assist in identifying new therapies.
Osteal Macrophages As Therapeutic Targets For Fracture Repair
Funder
National Health and Medical Research Council
Funding Amount
$618,015.00
Summary
Fragility fracture associated with osteoporosis is a substantial health problem costing $1.62 billion to treat in 2012 in Australia. There is no approved therapy to improve and accelerate fracture healing to help reduce this increasing health burden. This research will advance understanding of fracture repair in healthy and osteoporotic bone and progress development of a fracture therapy to improve bone repair by promoting specialised immune cells.