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Mobilisation Of Endogenous Mesenchymal Progenitor Cells For Growth Plate Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$605,251.00
Summary
Growth plate cartilage is responsible for bone growth in children. Its injury is common and is often repaired undesirably by bony tissue which causes significant bone growth defects. This project will develop a biological treatment through mobilising endogenous progenitor cells to enhance growth plate regeneration and prevent bone growth defects, which will allow patients to avoid highly invasive/costly corrective surgeries.
Tendon injury is one of the most common health problems worldwide and affects almost everyone at some point in particular the aging populaiton. However, the current treatments are not well defined. We identifed an extracellular molecules SPARC that potentially plays an important role in tendon function. The aim of this study is to examine the role of SPARC in tendon development, homestasis and degenerative using transgenic mice and gene therapy. We predict that SPARC will have therapeutic value ....Tendon injury is one of the most common health problems worldwide and affects almost everyone at some point in particular the aging populaiton. However, the current treatments are not well defined. We identifed an extracellular molecules SPARC that potentially plays an important role in tendon function. The aim of this study is to examine the role of SPARC in tendon development, homestasis and degenerative using transgenic mice and gene therapy. We predict that SPARC will have therapeutic value for the treatment of tendinopathy.Read moreRead less
Why Macrophages Promote Heterotopic Ossifications Following Spinal Cord Injuries
Funder
National Health and Medical Research Council
Funding Amount
$586,950.00
Summary
A frequent complications of brain and spine injuries is the formation of bones outside of the skeleton called "heterotopic ossifications", particularly around joints such as the knee, hip, elbow or shoulder. They grow over a few months to become so large (up to 2 kg) that they block muscles and joints, increasing pain, morbidity and dependance. This project is to understand why heterotopic ossifications form in patients with spine injuries aiming to discover effecttive treatments.