- Mice given the drug can navigate a maze as well as those without a head injury
- The animals react similarly to humans after suffering a severe blow to the head
- Isrib, the drug, may ‘release’ the brain, which reduces its activity after a injury
- This was thought to be an advantage once when being sedate allowed recovery
- Although some are excited by Isrib, others argue it is still in its early stages
A concussion drug reverses brain damage, new research suggests.
When given to mice who had recently suffered a brain injury, the medication allows the animals to navigate a maze as well as those who had not undergone such trauma, a study found.
Mice were chosen as they often react similarly to humans when suffering a blow to the head, with complications including personality change, aggression and confusion.
The drug, known as Isrib, is thought to ‘release’ the brain, which may downplay its function after an injury to avoid using damaged cells, according to the researchers.
Although some are excited by Isrib’s development as a treatment option, others argue the drug’s effectiveness is unclear as it is in its early development stages and has only been tested on animals to date.
A concussion drug reverses brain damage, new research suggests
How the research was carried out
Researchers from the University of California in San Francisco gave brain-damaged mice Isrib one month after they suffered a head injury.
Mice were included in the experiment as they tend to react similarly to humans after receiving a blow to the head.
Reactions often include an impaired ability to form new memories, personality change, aggression, confusion and difficulty navigating new surroundings.
‘We can flick a reset button and make their behavior indistinguishable’
Results reveal mice given Isrib are able to navigate a maze just as well as those who did not suffer a head injury.
Study author Peter Walker said: ‘We can flick a reset button and make their behavior indistinguishable from uninjured animals,’ The Times reported.
The researchers believe head injuries create a stress response in the brain that ‘shuts down’ damaged cells.
They add this may have been an advantage during human’s hunter-gatherer stage when it was better to be sedate while their mental capacities returned.
Yet, in some instances, complete brain function never returns.
Isrib ‘breaks this response – it releases the brain,’ Mr Walker added.
Yet, Hannah Wilson, from The Drake Foundation, which analyzes sports concussions, cautions the drug is in its early development stages and has only been tested on animals to date.
Ramon Diaz-Arrastia from the University of Pennsylvania, however, is excited by the drug as a therapy option, saying ‘trying to rehabilitate people who are disabled and are often so badly off they are unable to work costs a lot of money’.