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Traumatic Brain Injury (TBI) – Types, Diagnosis and Treatment

Overview

Traumatic Brain Injury (TBI) is an alteration in brain function, or other evidence of brain pathology, caused by an external force. It occurs when an external force impacts the brain, and often is caused by a blow, bump, jolt or penetrating wound to the head. However, not all blows or jolts to the head cause traumatic brain injury, some just cause bony damage to the skull, without subsequent injury to the brain. Mild traumatic brain injury is now more commonly referred to as concussion.

Traumatic brain injury does not always result in obvious motor impairment. Other hidden symptoms related to cognition and behaviour can also occur with traumatic brain injury. The fact that the population living with traumatic brain injury are largely invisible and are not outspoken about their needs plus widespread misunderstanding of the impact of related conditions, has earned the traumatic brain injury the name the “silent epidemic”.

Various healthcare service-related factors can influence the impact of traumatic brain injury on individuals and society. These include implementation of algorithm-based best practices in emergency and intensive care medicine, implementation of a systematic approach to neurorehabilitation, improved access to related services and adequate related funding. Where these issues are not addressed, people living with a traumatic brain injury can be prevented from capitalising on the most valuable time for rehabilitative treatment which results in significantly increased care costs. Longer-term related unemployability and loss of income affect both traumatic brain injury survivors and family members providing care. These issues lead to an underestimated social cost of traumatic brain injury.

Types of traumatic brain injuries

Although described as individual injuries, a person who has suffered a TBI is more likely to have a combination of injuries, each of which may have a different level of severity. This makes answering questions like “what part of the brain is hurt?” difficult, as more than one area is usually involved.

Secondary brain injury occurs as a result of the body’s inflammatory response to the primary injury. Extra fluid and nutrients accumulate in an attempt to heal the injury. In other areas of the body, this is a good and expected result that helps the body heal. However, brain inflammation can be dangerous because the rigid skull limits the space available for the extra fluid and nutrients. Brain swelling increases pressure within the head, which causes injury to parts of the brain that were not initially injured. The swelling happens gradually and can occur up to 5 days after the injury.

Epidemiology

Traumatic brain injuries are more common in young patients, and men account for the majority (75%) of cases. Although sport is a common cause of relatively mild repeated head injury potentially eventually leading to chronic traumatic encephalopathy, more severe injuries are most often due to motor vehicle accidents and assault.

Pathophysiology

Brain function may be immediately impaired by direct damage (eg, crush, laceration) of brain tissue. Further damage may occur shortly thereafter from the cascade of events triggered by the initial injury.

Traumatic brain injury (TBI) of any sort can cause cerebral edema and decrease brain blood flow. The cranial vault is fixed in size (constrained by the skull) and filled by noncompressible CSF and minimally compressible brain tissue; consequently, any swelling from edema or an intracranial hematoma has nowhere to expand and thus increases intracranial pressure (ICP). Cerebral blood flow is proportional to the cerebral perfusion pressure (CPP), which is the difference between mean arterial pressure (MAP) and mean ICP. Thus, as ICP increases (or MAP decreases), CPP decreases.

When CPP falls below 50 mm Hg, the brain may become ischemic. Ischemia and edema may trigger various secondary mechanisms of injury (eg, release of excitatory neurotransmitters, intracellular calcium, free radicals, and cytokines), causing further cell damage, further edema, and further increases in ICP. Systemic complications from trauma (eg, hypotension, hypoxia) can also contribute to cerebral ischemia and are often called secondary brain insults.

Excessive ICP initially causes global cerebral dysfunction. If excessive ICP is unrelieved, it can push brain tissue across the tentorium or through the foramen magnum, causing herniation (and increased morbidity and mortality). If ICP increases to equal MAP, CPP becomes zero, resulting in complete brain ischemia and brain death; absent cranial blood flow is objective evidence of brain death. Excessive ICP can also cause short-term and long-term autonomic dysfunction that can result in significant hemodynamic disturbances that are particularly dangerous in patients with polytrauma and other internal organ injuries, fluid depletion, electrolyte imbalance, coagulopathy, hypotension, and anemia from acute blood loss.

Injury to the hypothalamus, subfornical organ, and nucleus tractus solitarius, which regulate the overall sympathetic tone, blood flow circulation, and baroreflex response, can lead to profound changes in cardiac and renal function. Hypothalamic dysfunction affects the hypothalamic-pituitary-adrenal axis, causing hemodynamic instability, hypertension, and tachycardia from a sympathetic “storm” that upregulates cardiac contractility and induces fluid retention in the kidney. These changes can subsequently cause acute kidney injury (AKI) and Takotsubo cardiomyopathy (sometimes termed neurogenic stress myocardium or stunned cardiomyopathy), which manifests as acute systolic heart failure. These systemic changes can significantly increase inpatient mortality during the first few weeks after injury in fragile and susceptible polytrauma patients if unrecognized or undertreated outside an intensive care setting.

Hyperemia and increased brain blood flow may result from concussive injury in adolescents or children.

Second impact syndrome is a rare and debated entity defined by sudden increased ICP and sometimes death after a second traumatic insult that is sustained before complete recovery from a previous minor head injury. It is attributed to loss of autoregulation of cerebral blood flow that leads to vascular engorgement, increased ICP, and herniation.

Causes of Traumatic Brain Injury

Traumatic brain injury is usually caused by a blow or other traumatic injury to the head or body. The degree of damage can depend on several factors, including the nature of the injury and the force of impact.

Common events causing traumatic brain injury include the following:

Traumatic brain injury also results from penetrating wounds, severe blows to the head with shrapnel or debris, and falls or bodily collisions with objects following a blast.

Symptoms

The severity of symptoms depends on whether the injury is mild, moderate or severe. In all forms of TBI, cognitive changes (changes in how people think) are among the most common, most disabling and longest-lasting symptoms that can result from the injury. The ability to learn and remember new information is often affected. Other commonly affected cognitive skills include the capacity to pay attention, organize thoughts, plan effective strategies for completing tasks and activities and make good judgments. More severe changes in thinking skills a hallmark characteristic of dementia may develop years after the injury took place and the person appears to have recovered from its immediate effects.

Symptoms of mild TBI

Mild TBI, also known as a concussion, does not necessarily cause loss of consciousness or causes unconsciousness that lasts for 30 minutes or less. Mild TBI symptoms may include:

These symptoms usually appear at the time of the injury or soon after, but sometimes may not develop for days or weeks. Mild TBI symptoms are usually temporary and clear up within hours, days or weeks; however, on occasion, they can last months or longer.

Symptoms of moderate and severe TBI

Moderate TBI causes unconsciousness lasting more than 30 minutes but less than 24 hours, and severe TBI causes unconsciousness for more than 24 hours. Symptoms of moderate and severe TBI are similar to those of mild TBI, but more serious and longer-lasting. The more severe injuries may also lead to hemorrhages or other brain injuries that are associated with focal neurologic symptoms, such as localized weakness or sensory loss.

Traumatic Brain Injury Complications

Apart from the immediate dangers, a TBI can have long-term consequences and complications.

Seizures: These may occur during the first week after the injury. TBIs do not appear to increase the risk of developing epilepsy, unless there have been major structural brain injuries.

Infections: Meningitis can occur if there is a rupture in the meninges, the membranes around the brain. A rupture can allow bacteria to get in. If the infection spreads to the nervous system, serious complications can result.

Nerve damage: If the base of the skull is affected, this can impact the nerves of the face, causing paralysis of facial muscles, double vision, problems with eye movement, and a loss of the sense of smell.

Cognitive problems: People with moderate to severe TBI may experience some cognitive problems, including their ability to:

Personality changes: These may occur during recovery and rehabilitation. The patient’s impulse control may be altered, resulting in inappropriate behavior. Personality changes can cause stress and anxiety for family members, friends, and caregivers.

Problems with the senses: These may lead to:

Coma: Patients who enter a coma and remain in a comatose state for a long time may eventually wake up and resume normal life, but some people will wake up with long-term problems and disabilities. Some people do not wake up at all.

Long-term neurological problems: A growing body of evidence TBI with depression, Alzheimer’s, Parkinson’s disease, and other cognitive and neurological conditions.

Traumatic brain injury risk factors

Common risk factors for the development of traumatic brain injury include

Diagnosis

Treatment for Traumatic Brain Injury

Treatment is based on the severity of the injury.

Mild injury

Mild traumatic brain injuries usually require no treatment other than rest and over-the-counter pain relievers to treat a headache. However, a person with a mild traumatic brain injury usually needs to be monitored closely at home for any persistent, worsening or new symptoms. He or she may also have follow-up doctor appointments.

The doctor will indicate when a return to work, school or recreational activities is appropriate. Relative rest which means limiting physical or thinking (cognitive) activities that make things worse is usually recommended for the first few days or until your doctor advises that it’s OK to resume regular activities. It isn’t recommended that you rest completely from mental and physical activity. Most people return to normal routines gradually.

Immediate emergency care

Emergency care for moderate to severe traumatic brain injuries focuses on making sure the person has enough oxygen and an adequate blood supply, maintaining blood pressure, and preventing any further injury to the head or neck.

People with severe injuries may also have other injuries that need to be addressed. Additional treatments in the emergency room or intensive care unit of a hospital will focus on minimizing secondary damage due to inflammation, bleeding or reduced oxygen supply to the brain.

Medications

Medications to limit secondary damage to the brain immediately after an injury may include:

An anti-seizure drug may be given during the first week to avoid any additional brain damage that might be caused by a seizure. Continued anti-seizure treatments are used only if seizures occur.

Surgery

Emergency surgery may be needed to minimize additional damage to brain tissues. Surgery may be used to address the following problems:

Rehabilitation for traumatic brain injuries

Most people who have had a significant brain injury will require rehabilitation. They may need to relearn basic skills, such as walking or talking. The goal is to improve their abilities to perform daily activities.

Therapy usually begins in the hospital and continues at an inpatient rehabilitation unit, a residential treatment facility or through outpatient services. The type and duration of rehabilitation is different for everyone, depending on the severity of the brain injury and what part of the brain was injured.

Prevention

Many TBIs aren’t preventable. They happen without warning due to an accident or fall. But you can take these steps to avoid some incidents that commonly cause TBIs:

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