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Repeated Concussions Can Thicken the Skull


Summary: Repeat concussions thicken the structure of skull bones. Researchers theorize the thickening of the skull may occur as the body attempts to better protect the brain from subsequent damage.

Source: Monash University

New research has found that repeated concussions can thicken the structure of skull bones. Previous studies have shown damage to the brain following concussion, but have not looked at the brain’s protective covering.

A Monash-led study published in the journal Scientific Reports by Associate Professor Bridgette Semple from the Monash University’s Central Clinical School Department of Neuroscience, found that repeated concussions resulted in thicker, denser bones in the skull.

It is unclear whether this thickening of the skull is a good thing or a bad thing. In theory, a thicker skull is a stronger skull, suggesting that this may be the bone’s attempt to protect the brain from subsequent impacts.

“This is a bit of a conundrum,” Associate Professor Semple said. “As we know, repeated concussions can have negative consequences for brain structure and function. Regardless, concussion is never a good thing.”

The team hopes that the microstructural skull alterations caused by concussion are now considered by researchers in the field to better understand how concussions affect the whole body.

Concussion is a form of mild traumatic brain injury, and repeated concussions have been linked to long-term neurological consequences.

Most studies focus on understanding how these head injuries affect the brain and its function—but they largely ignore the overlying skull bones that protect the brain.

It is unclear whether this thickening of the skull is a good thing or a bad thing. Image is in the public domain

Although bones are considered a mostly structural component of the human body, bones are in fact active living tissues that can respond to applied mechanical forces.

Study collaborator Professor Melinda Fitzgerald, from Curtin University and the Perron Institute in Western Australia, has previously shown that repeated concussive impacts lead to subtle problems with memory, and evidence of brain damage.

In this new study, high-resolution neuroimaging and tissue staining techniques were used in a pre-clinical model, and revealed an increase in bone thickness and density, in close proximity to the site of injury.

“We have been ignoring the potential influence of the skull in how concussive impacts can affect the brain,” Associate Professor Semple said.

“These new findings highlight that the skull may be an important factor that affects the consequences of repeated concussions for individuals.”

Future studies are planned, with collaborator and bone expert Professor Natalie Sims from St Vincent’s Institute of Medical Research in Melbourne, to understand if a thickened skull resulting from repeated concussions alters the transmission of impact force through the skull and into the vulnerable brain tissue underneath.

About this concussion research news

Author: Press Office
Source: Monash University
Contact: Press Office – Monash University
Image: The image is in the public domain

Original Research: Open access.
Localized, time-dependent responses of rat cranial bone to repeated mild traumatic brain injuries” by Larissa K. Dill et al. Scientific Reports

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Abstract

Localized, time-dependent responses of rat cranial bone to repeated mild traumatic brain injuries

While it is well-established that bone responds dynamically to mechanical loading, the effects of mild traumatic brain injury (mTBI) on cranial bone composition are unclear.

We hypothesized that repeated mTBI (rmTBI) would change the microstructure of cranial bones, without gross skull fractures.

To address this, young adult female Piebald Viral Glaxo rats received sham, 1×, 2× or 3× closed-head mTBIs delivered at 24 h intervals, using a weight-drop device custom-built for reproducible impact.

Skull bones were collected at 2 or 10 weeks after the final injury/sham procedure, imaged by micro computed tomography and analyzed at predetermined regions of interest. In the interparietal bone, proximal to the injury site, modest increases in bone thickness were observed at 2 weeks, particularly following 2× and 3× mTBI.

By 10 weeks, 2× mTBI induced a robust increase in the volume and thickness of the interparietal bone, alongside a corresponding decrease in the volume of marrow cavities in the diploë region. In contrast, neither parietal nor frontal skull samples were affected by rmTBI.

Our findings demonstrate time- and location-dependent effects of rmTBI on cranial bone structure, highlighting a need to consider microstructural alterations to cranial bone when assessing the consequences of rmTBI.



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