Scottish Rugby is helping fund pioneering University of Aberdeen research which is taking an innovative and multi-pronged approach to try to repair spinal cord injury.
Aberdeen scientists are believed to be the first in the world to use a combination of different methods - together with a biodegradable ‘bridge’ made of silk fibre - to tackle this kind of injury which can be caused by falls, road accidents, medical conditions and injuries from a wide range of sports, including rugby.
The technique would involve placing a silk ‘bridge’ over the spinal injury wound and this would act as a scaffold for nerves to grow through.
Electrical and chemical stimulation would also be applied to the area in a bid to encourage nerve growth and reconnections.
If successful, this combined nerve repair technique could be used to help other conditions, such as stroke and brain injury.
It’s estimated that around 2.5 million people around the world live with the consequences of spinal cord injury. Around 40,000 of those are in the UK - more than half are males aged 15 to 30.
Dr Wenlong Huang, who moved from Imperial College in London to join the University’s Aberdeen Nerve Repair Group - formed thanks to the support of Scottish Rugby and funding from other donors - said: “Serious spinal cord injuries can result in movement and sensory loss below the point of injury.
“After the initial injury the nerves break or die and the communication signals carried by the spinal cord are lost. Myelin, the material that protects the nerve fibres, then breaks down and the immune system reacts and starts trying to fix the area. This leads to the formation of a fluid-filled cyst, surrounded by scar tissue, which physically prevents nerve regrowth.
“The original trauma is compounded by cells around the injury which produce ‘stop growth’ chemical signals which prevent the nerves from re-growing across the injury. This creates a hostile environment that is a barrier to nerve regrowth, and this is one of the reasons why patients with a serious spinal injury can end up with total paralysis.”
The Aberdeen Nerve Repair Group is trying to overcome nerve repair hurdles by pooling the University’s world-leading expertise in electrical wound healing, nerve growth, tissue engineering and pre-clinical modelling of spinal cord injury. The development of the silk scaffolds will be done in collaboration with Oxford based Biomaterials .
Dr Ann Rajnicek, Senior Lecturer and Aberdeen Nerve Repair Group scientist, said: “Our plan is to create an environment at the site of a spinal cord injury that will enable and encourage nerve cells to regrow and re-establish connections. A single strategy is not going to work with this kind of serious injury and that’s why we are taking a multi-faceted approach.
“We propose using a silk scaffold within the spinal cord cyst that would act as a structure to support nerve cell growth and then be absorbed into the body once it had served its purposes. At the same time electrical stimulation - which is already used in wound healing - would be applied to switch the chemical signals around the injury from ‘stop growth’ to ‘growth’. Such stimulation would also encourage nerve cells to move and grow.”
Dr James Robson, Scottish Rugby’s Chief Medical Officer, welcomed today’s announcement. He said: “We are delighted to support this ground-breaking research here at the University of Aberdeen.
“It’s important to note that the benefits of taking part in rugby, just like any sport, far outweigh any possible risks. However at Scottish Rugby, we believe it is of fundamental importance that we create as safe a game as possible.
“We have undertaken a number of measures, especially within youth rugby, to enhance player welfare and we will continue to look at any areas where we can improve the health and wellbeing of our participants.
“Severe injury to the spinal cord remains, thankfully, a rare occurrence. If we can help scientists in their drive to regenerate damaged nerves then it will represent a considerable breakthrough.”
Professor Colin McCaig, Head of the School of Medical Sciences and Aberdeen Nerve Repair Group researcher, added: “We are delighted that Scottish Rugby is among those helping to support our research which is innovative and ambitious - although still at the very early stages.
“However our ultimate goal is to bring new regenerative strategies for spinal record repair to the clinic. If we can do that, these therapies could also benefit patients with stroke and brain injuries where nerve cell connections have also been lost.”
• Aberdeen Nerve Repair Group is the only group of its kind in the UK with this combined scientific expertise. It comprises Professor Colin McCaig; Professor Lynda Erskine; Dr Ann Rajnicek, Dr Derryck Shewan and Dr Wenlong Huang.
• Scottish Rugby will also enable the Group to work on developing therapeutic compounds to treat spinal cord injury induced chronic pain which has no effective treatment.
• As well as Scottish Rugby the project has received financial support from an anonymous benefactor with a spinal cord injury
and Scottish businessman Willie Watt.