Younger children are more resilient! Or are they? As I read more and experience different recovery rates in youth, the notion that children are more resilient, or that they heal faster, may apply more to anatomical injuries of an orthopedic background. I see my own children healing in record time and young clients with sport related injuries that barely need rehabilitation post injury. But when it comes to brain injury, it appears as if it was the opposite. Keith Yeates, a neuropsychologist at Nationwide Children’s Hospital and professor of pediatrics at the Ohio State University, says there are many reasons why children may be more susceptible to long-term effects after TBI or concussion.
“The pathophysiology of the injury tends to be a little bit different in kids because there are differences in the composition of the brain and there are differences in the size of children’s heads relative to the size of their body,” he says. “Their necks are less strong so they are subjected to different deceleration forces. And from a psychological perspective, young kids still have a lot to learn. They don’t have the stored knowledge and acquired skills like adults to fall back on.”
As emergency medicine evolves in the area of traumatic brain injury there is an opportunity to change the pathophysiology that takes place post injury. After head injury there is a storm of neurotransmitters that overwhelms, stresses, and challenges the developing brain. If it can be attenuated, all involved providers as a team, may see a better future of concussion treatment. In the meantime even with the limitations in imaging and evaluative methods, we may be looking at a possible “scaring” effect that may explain the traceable behavior changes and deficits that tend to reappear later on in some of our young patients. Let’s not rely on their resiliency when there are so many unknowns.
“Children who sustained a severe TBI at a younger age are more likely to have a range of deficits that include deficits in their thinking skills, deficits in their academic skills, and also social problems,” says Yeates in a recent study published in Rehabilitation Psychology. “They tend to have trouble making or keeping friends. And they’re at greater risk for certain types of emotional and behavioral problems.”
Mayer and colleagues examined the brains of 15 children who had recently experienced a concussion using DTI. They administered cognitive testing four months later and repeated the scanning. They found that structural changes in the children’s white matter remained months after the injury—even after cognitive and other symptoms had disappeared.
I continue in the quest for better understanding about the subtle changes these young athletes present after concussions. As I hope that imaging evolves at a faster pace, I realize how much more conservative I need to get. Designing and formulating rehabilitation strategies mostly concentrated on limitation of stressing mechanisms needs to be customized.
What is the biggest challenge to concussion management? Improving awareness about what the new evidence is showing to parents and members of the potential management team. They only realize they are part of the team when a youngster gets hurt but if information flows well before an injury, we may be looking at better odds. Pediatricians, neurologists, physical therapists, trainers, coaches, parents and their own teammates are that team. Let me underscore the value of their teammates. Their peer pressure can cause the athlete to prematurely return to sport or avoid reporting the injury altogether.
There is plenty of research funding now by the NFL, NCAA and other organizations to improve the efficacy of the rehabilitation process but until then rehabilitation professionals should lead the way before young athletes are further exposed to catastrophic injury. As a parent, I’m not taking any risks and that is how I see every case, and so should every one in their care. Click here to access the Dr. Yeates’ study published in Rehabilitation Psychology 2012
Comments : 2
Akbar March 7, 2013 6:31 pm
I wonder how much of the dsatiripy comes from the fact that men tend to under-report symptoms following injury, especially when their opportunity to continue playing the sport is involved. Women are on average more forthcoming with information about symptoms related to injury.Women also have denser neural connections in the frontal lobes and corpus collosum. The frontal lobes are intimately involved in higher cognitive activities and executive functions, and any impairment to them will show up on standard neuropsychological evaluations- I wonder if the higher frequency of cognitive impairment in female athletes has to do with the fact that their denser neural connections means more of a deficit will be noticed following damage from TBI.
julia March 8, 2013 4:26 pm
Absolutely. Of what I have seen over the years, reporting an injury early has lead to better outcomes. All brain injuries are different and the sooner you allow the brain to a resting state of homeostasis the faster the brain starts healing and the power of neuroplasticity restores most function. Females tend to get better faster at least due to their skill of fast and accurate reporting. Brain probably better wired.