Biomarkers Differentiate Mild Brain Trauma from Other Types of Injury

Previously reported biomarkers for this type of injury represented proteins released from the damaged neurons or glia. However, the low levels of these proteins and/or the complexity of assays used for their detection limited the implementation of these biomarkers in routine practice.

In a different approach to the problem of diagnosing mTBI, investigators at Brown University (Providence, RI, USA) sought to identify proteins whose synthesis was altered after mTBI and whose blood levels could be measured using standard immunoassays.

To this end they measured 18 different proinflammatory proteins in three groups of individuals: an experimental group comprising 55 emergency room patients who had mTBI diagnosed by other means, a control group of 44 individuals who were uninjured, and a second control group of 17 patients who had long-bone fractures.

Four candidate biomarkers were identified: copeptin, galectin 3 (LGALS3), matrix metalloproteinase 9 (MMP9), and occludin (OCLN). The plasma concentration of copeptin was found to be lowered by 3.4-fold in mTBI patients within eight hours after accident as compared to uninjured controls. Plasma levels of GALS3, MMP9, and OCLN increased 3.6–4.5-fold within the same time frame post-injury. The levels of at least two biomarkers were altered beyond their respective cutoff values in 90% of mTBI patients, whereas in none of uninjured controls, were the levels of two biomarkers simultaneously changed. A positive correlation between the plasma levels of LGALS3 and OCLN was also found in mTBI patients, whereas in bone injury patients or uninjured subjects, these variables did not correlate. The significance of the four biomarkers for indicating concussion endured regardless of patient age, gender, body-mass index, or other medical characteristics.

"This was a broad spectrum of the population with different genders, different ethnicities, different age, and different physical conditions, and on this background these four biomarkers were not influenced," said contributing author Dr. Joanna Szmydynger-Chodobska, a researcher at Brown University.

The Brown University investigators plan to develop a microfluidic chip that will analyze these biomarkers within two hours, and they have filed for a patent to protect this concept.

The concussion biomarker study was published in the March 20, 2015, online edition of the Journal of Neurotrauma.

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