Traumatic Brain Injury

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Release of GFAP after astrocyte injury. [1]

General information

The theme of SensUs 2023 is Traumatic Brain Injury (TBI). It is often stated in the literature that TBI is a silent epidemic with an estimated 64–74 million new cases presenting each year.[2] The impairments suffered by many TBI patients, such as memory loss, cognitive dysfunction, or behavioural disturbance, are often not visible. The economic and social impact is considerable, with an estimate of direct medical expenditures and indirect costs (e.g., loss of productivity) attributed to TBI exceeding $60 billion in 2000 in the USA. TBI is defined as an alteration in brain function, or other evidence of brain pathology, caused by an external force.[3] The severity of injury in TBI is classified as mild, moderate, or severe with mild TBIs being the most common.[4] Alteration in brain function can be manifest by loss or decreased level of consciousness, alteration in mental state, incomplete memory for the event, or neurological deficits. Examples of external forces include the head striking or being struck by an object, rapid acceleration or deceleration of the brain, penetration of the brain by a foreign object, and exposure to forces associated with blasts.

GFAP is a protein found in the glial cells of neural tissue. Glial cells are non-neuronal cells that provide physical and metabolic support to neurons. Blood biomarker levels of GFAP reflect acute injury to brain tissue since the biomarker levels increase strongly and fast within hours after the trauma occurred. Therefore, it has potential use in the emergency unit and intensive care unit, directly after the TBI. Furthermore, the biomarker persists for an extended period with a half-life of 48 hours, making it a favourable biomarker to use in both the acute and subacute phases of injury. The concentration of GFAP peaks at about 20 hours after the injury. Reference serum levels of GFAP range from 0.02 — 0.35 𝜇g/L and the cut-off value of a negative CT scan for GFAP is 0.35 𝜇g/L.[5]

History of TBI

Pre-historic period

TBIs play an important role in the evolution of humans. Studies of skeletons from the mesolithic period (c. 7000 BC) suggest an inverse relationship between the risk of skull fracture and the progress of civilization. The palaeolithic period is a period in prehistory that occurred over a million years ago. In those times, man's predecessor was a semi-erect hominid now named Australopithecus africanus; a damaged skull from this species found in South Africa reveals the first evidence of brain injury.[6]

One of the earliest methods used for treating TBI is called Trepanation. Trepanning, also known as trepanation, is a surgical intervention in which a hole is drilled or scraped into the human skull. The earliest evidence of trepanation performed by the man himself appears in the Neolithic period. The primary theories for the practice of trepanation in ancient times include spiritual purposes and treatment for epilepsy, headache, head wound, and mental disorders.

Ancient History

The first written evidence of TBI is documented in an ancient Egyptian text known as the Edwin Smith Papyrus which was written around 1650-1550 BC and believed to be a copy of an even older manuscript written around 3000 BC. It describes various head injuries and symptoms and classifies them based on their presentation and tractability.[7] This text is so old that it goes as far as mentioning magic as a last resort in terminal cases. To get an idea of what treatment for a brain injury was like then, bandaging the head wound with meat and applying a honey and oil type of dressing until healed were common methods.[8] There are several biblical references to head injuries which are reported to have occurred in the 12-10th century BC. These references to head injuries include: Sisera’s death at the hands of Jael, skull fractures on Abimelech, and the most famous death of Goliath by David.[9]

Hippocrates of Kos, also known as Hippocrates II, was a Greek physician of the classical period who is considered one of the most outstanding figures in the history of medicine and is referred to as the "Father of Medicine”. The first systematic approach to head injuries was by Hippocrates. The Hippocratic Corpus consisted of 76 Treatises, one of which was "On Injuries of the Head".[10]

Medieval History

In the Middle Ages, physicians further described head injury symptoms and the term concussion became more widespread. Berengario da Carpi, an Italian physician, published one of the first books on head injuries. He categorised head injuries into lacerations, contusions and perforations, each of which could be associated with a fracture. A prime example from the 16th century is also one of history’s most well-known figures. A recent study argues that King Henry VIII of England’s erratic behaviour was a result of possible repeated traumatic brain injuries. Researchers have made a compelling case citing notes that describe changes including memory loss, irritability, impulsive nature, and insomnia. All known today as common symptoms of a traumatic brain injury.[11]


References

  1. Glial Fibrillary Acidic Protein in Blood as a Disease Biomarker of Neuromyelitis Optica Spectrum Disorders. Front. Neurol., 17 March 2022, https://www.frontiersin.org/articles/10.3389/fneur.2022.865730/full#F1
  2. Rattani, A., Gupta, S., Baticulon, R. E., Hung, Y. C., Punchak, M., Agrawal, A., Adeleye, A. O., Shrime, M. G., Rubiano, A. M., Rosenfeld, J. V., & Park, K. B. (2019). Estimating the global incidence of traumatic brain injury. Journal of Neurosurgery, 130(4), 1080–1097. https://doi.org/10.3171/2017.10.jns17352
  3. Menon, D. K., Schwab, K., Wright, D. W., & Maas, A. I. (2010). Position Statement: Definition of Traumatic Brain Injury. Archives of Physical Medicine and Rehabilitation, 91(11), 1637–1640. https://doi.org/10.1016/j.apmr.2010.05.017
  4. Iaccarino, C., Gerosa, A., & Viaroli, E. (2021). Epidemiology of Traumatic Brain Injury. In S. Honeybul & A. G. Kolias (Eds.), Traumatic Brain Injury. Springer. https://link.springer.com/chapter/10.1007/978-3-030-78075-3_1
  5. Papa, L., Brophy, G. M., Welch, R. D., Lewis, L. M., Braga, C. F., Tan, C. N., Ameli, N. J., Lopez, M. A., Haeussler, C. A., Mendez Giordano, D. I., Silvestri, S., Giordano, P., Weber, K. D., Hill-Pryor, C., & Hack, D. C. (2016). Time Course and Diagnostic Accuracy of Glial and Neuronal Blood Biomarkers GFAP and UCH-L1 in a Large Cohort of Trauma Patients With and Without Mild Traumatic Brain Injury. JAMA Neurology, 73(5), 551. https://doi.org/10.1001/jamaneurol.2016.0039
  6. Rose, F. C. (1997). The history of head injuries: An overview*. Journal of the History of the Neurosciences, 6(2), 154–180. https://doi.org/10.1080/09647049709525700
  7. Sanchez, G. M., & Burridge, A. L. (2007). Decision making in head injury management in the Edwin Smith Papyrus. Neurosurgical Focus, 23(1), 1–9. https://doi.org/10.3171/foc-07/07/e5
  8. The History of Brain Injuries. (2018, March 29). Intrepid Fallen Heroes Fund. Retrieved October 17, 2022, from https://www.fallenheroesfund.org/the-history-of-brain-injuries
  9. Feinsod, M. (1997). Three head injuries: The biblical account of the deaths of Sisera, Abimelech and Goliath. Journal of the History of the Neurosciences, 6(3), 320–324. https://doi.org/10.1080/09647049709525717
  10. Hippocrates. (n.d.). On Injuries of the Head by Hippocrates (F. Adams, Trans.). The Internet Classics Archive. Retrieved October 17, 2022, from http://classics.mit.edu/Hippocrates/headinjur.13.13.html
  11. Ikram, M. Q., Sajjad, F. H., & Salardini, A. (2016). The head that wears the crown: Henry VIII and traumatic brain injury. Journal of Clinical Neuroscience, 28, 16–19. https://doi.org/10.1016/j.jocn.2015.10.035
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