INVESTIGATIONS ON THE REGULATION OF INTERVERTEBRAL DISC CELL MATRIX METALLOPROTEINASES
Funder
National Health and Medical Research Council
Funding Amount
$331,320.00
Summary
Degeneration of the intervertebral disc is a painful disabling condition with major socioeconomic consequences. Medical problems associated with disc degeneration and back-pain, of sufficient severity to warrant consultation with a physician, are experienced by 90% of the population some time during their lives. In man, back pain increases in incidence in the third and fourth decades of life, peaks in the fifties and declines thereafter. Changes in population demographics indicate this problem w ....Degeneration of the intervertebral disc is a painful disabling condition with major socioeconomic consequences. Medical problems associated with disc degeneration and back-pain, of sufficient severity to warrant consultation with a physician, are experienced by 90% of the population some time during their lives. In man, back pain increases in incidence in the third and fourth decades of life, peaks in the fifties and declines thereafter. Changes in population demographics indicate this problem will increase in severity over the next few decades. American Bureau of Census data indicate that between 1990 to 2010 the number of people >45 years will increase from 82 to 124 million, the number of elderly in emerging countries will also increase between 200 to 400% in the next 30 years. In the United States, back-pain is the second most common reason that people visit a physician and medical conditions related to back-pain account for more hospitalisations than any other musculoskeletal disorder. Despite its high incidence, associated problems of incapacity and economic implications, costed at $100 million per annum in Australia in 1992, and US$100 billion globally in 1999-2000 (Dorland Data Networks, PA, USA) the causes of low back-pain are still poorly understood. Disc disease is responsible for 23-40% of all cases of low back-pain. The management of discogenic low back-pain is currently empirical, directed either toward life-style changes to minimise symptomatology or to surgical resection or spinal arthrodesis to restrict articulation. Based on our recent findings and those of colleagues over the last 16 years, it is our strong conviction that it should be possible with a better understanding of disease mechanisms and with the use of modern technologies to inhibit, reverse or ideally prevent disc degeneration. Without such basic research there will be no scientific foundation upon which prospective therapies may be based.Read moreRead less
The Next Generation Of Biomaterials; In Vivo Assessment Of Lumbar Spinal Fusion Biodegradable Interbody Cages
Funder
National Health and Medical Research Council
Funding Amount
$85,932.00
Summary
Back pain represents one of the major health and economic problems facing the western world. Surgery is an inevitable outcome for many sufferers and involves the implantation of metallic rods screws, plates or cages. Biodegradable implants have theoretical advantages, but until now no material has existed that can sustain he rigours of implantation into a load bearing site. We have developed such a material which will lead to improvements in the treatment of many orthopaedic conditions.
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.
Interrelationships Between The Disc And Bone Of Lumbar Spinal Segments
Funder
National Health and Medical Research Council
Funding Amount
$423,625.00
Summary
The cause of back pain due to osteoarthritis, osteoporotic vertebral crush fracture, and ageing is poorly understood. Vertebral deformity, intervertebral disc disorganisation, and change to vertebral bone structure are features associated with degeneration of the spine and with back pain. Degenerative disc disease is one of the major causes of back symptoms and is believed to be associated with degeneration of the spine. Spinal degeneration includes disc degeneration, facet joint osteoarthritis, ....The cause of back pain due to osteoarthritis, osteoporotic vertebral crush fracture, and ageing is poorly understood. Vertebral deformity, intervertebral disc disorganisation, and change to vertebral bone structure are features associated with degeneration of the spine and with back pain. Degenerative disc disease is one of the major causes of back symptoms and is believed to be associated with degeneration of the spine. Spinal degeneration includes disc degeneration, facet joint osteoarthritis, compromised vertebral body bone quality, muscle and ligament alterations. It is assumed that these changes result in increased or abnormal spine motion and modified load distribution across the spinal joint. It has been found that with age, there is increased disorganisation of the intervertebral disc and decreased quality of vertebral cancellous bone. However, bones with the same density within the range of normal subjects, can show selective loss of bone structure and reduced load-bearing capacities of these vertebrae. An important concept here is that even for a given bone mass, fracture risk increases with age, supporting the view that there is a component of bone fragility that is independent of mass. Increased bone fragility may be associated with compromised cancellous bone structure. While the relationship between disc degeneration and changes in vertebral bone is commonly invoked, the mechanisms of this relationship have largely been overlooked, with age changes given more attention. However, it may be that intervertebral disc disorganisation modulates age-related bone changes within the spine. Disc degeneration may influence trabecular bone responses before changes with age put the patient at risk of vertebral crush fracture. We propose that the mature disc cannot effectively regenerate after damage, and thus responses to disc damage will be more readily observed in vertebral bone architecture than in the disc.Read moreRead less