Brain Concussion Clinical Trial
Official title:
Use of 3% Hypertonic Saline to Improve Clinical Symptoms in Concussed Patients
The purpose of this study is to find out if 3% hypertonic saline (salt-water solution) given
in a vein improves the headache that may be caused by a concussion. 3% hypertonic saline may
also improve some of the other symptoms that may be caused by concussion (for example:
confusion, nausea, vomiting).
This research is being done because there have been previous experience which suggests that
3% hypertonic saline has been beneficial in the treatment of children with more severe brain
injury.
A concussion is formally described as a clinical syndrome characterized by immediate and
transient changes in brain function including alteration of mental status and level of
consciousness, resulting from mechanical force or trauma. Despite its prevalence, its
pathophysiology remains a mystery as does its spectrum of clinical presentation.
A concussion, sometimes described as a mild traumatic brain injury (TBI), can often present
with initial loss of consciousness, change in behavior, confusion, amnesia, or aphasia which
all result in a Glasgow Coma Scale (GCS) that is less than normal. As the time from the
initial injury lengthens, these symptoms can progressively worsen and new symptoms such as
vomiting and headaches can also develop. Usually, there is no evidence of a significant
intracranial injury by computed tomography (CT) imaging and these symptoms often improve
with a gradual progression towards a normal neurologic baseline; in fact, the risk of
complication in this population is very rare. The time for this improvement varies greatly
and can occur over a period ranging from hours to days. During this transient time, the
patient is often very uncomfortable due to persistent headaches, inability to tolerate oral
intake due to nausea and/or vomiting, confusion, and episodes of amnesia. In some instances,
the combative behavior of the patient can be difficult to tolerate both by the family and
the medical staff.
Just as the symptoms caused by a concussion vary greatly in presentation and duration, so do
the theories behind the pathophysiology of mild TBI. The transient loss of cerebral function
after a head injury was formally differentiated from severe head injury for the first time
by the Persian physician Rhazes in 900 AD and has since caused much speculation and varying
clinical descriptions throughout history. It took another 500 years before a "commotion" or
shaking of the brain was theorized to be responsible for clinical signs. Presently, the
exact cause of concussive symptoms continue to remain an enigma; a major question however,
is whether a concussion is due to a lesser degree of diffuse structural change seen in
severe traumatic brain injury, or if it is in fact a mechanism caused by reversible
functional changes of the neurons and axons.
Animal models have demonstrated altered metabolic profiles of the brain tissue which
resolves within hours of initial insult. Other animal models have demonstrated a change in
the integrity of the microvascular endothelium after TBI. It can be hypothesized that there
are areas of "microcontusion" and pericontusional edema that maybe responsible for
alterations in brain chemistry which may ultimately lead to the clinical symptoms associated
with mild TBI. Multiple other studies have theorized that the direct and indirect effects of
trauma on cerebral vasculature may lead to a vasoconstrictive phenomenon that may be
responsible for postconcussive symptoms.
Currently, the management of patients with mild traumatic brain injuries includes
observation and symptomatic therapies including analgesia without obscuring a neurologic
exam (acetaminophen) and antiemetic measures (ondansetron). While many patients are often
discharged home after initial evaluation in the Emergency Department, some are admitted to
the hospital for supportive care. The symptoms may resolve in a period of hours to days.
There has been substantial retrospective data and limited prospective data in children which
suggests that hypertonic saline (HTS) can improve the control of intracranial pressure (ICP)
in patients with acute brain injury. In 1992, a report published by the Journal of
Neurosurgical Anesthesiology indicated that HTS reduced elevated ICP in children after head
injury. This study looked at a single intravenous bolus of HTS in comparison to the same
volume of normal saline and demonstrated a clear difference. Subsequently, it was
demonstrated that HTS appears to be efficacious in controlling ICP. In a retrospective chart
review, 68 children with closed head injury were cared for using a standardized protocol and
the intravenous infusion of 3% HTS in quantities designed to drive the serum sodium to
levels that would reduce the ICP to less than 20 mmHg. Of the patients in who HTS was used,
only 3 patients (4%) died of uncontrolled ICP. Of note, there were no adverse effects of
super-physiologic hyperosmolarity such as renal failure, pulmonary edema, or central pontine
demyelination.
The use of 3% hypertonic saline in traumatic brain injury has recently been investigated by
many centers and is now included as first tier therapy in the management of decreasing
intracranial pressure (ICP) secondary to severe traumatic brain injury in the pediatric
population. Its mechanism in ICP reduction lies in its favorable rheologic and osmolar
gradient effects; it concomitantly augments intravascular volume and increase mean arterial
pressure to provide optimum cerebral perfusion pressure. Again, multiple studies have shown
the direct effect of HTS in lowering ICP along with its safety in a pediatric population.
HTS has also been used to treat altered mental status in diabetic ketoacidosis.
Many of the symptoms associated with mild traumatic brain injury may be due to mild
elevations in intracranial pressure, minimal cerebral edema, and/or vasospasm of the
cerebral vasculature. Hypertonic saline may be instrumental in improving the symptoms of
concussion by addressing the commonly suspected mechanisms responsible for these symptoms.
By reducing mild cerebral edema and/or improving cerebral perfusion pressure, cerebral
vasospasm may be overcome by reversal or by improved flow; thus, 3% HTS may allow favorable
treatment of postconcussive symptoms.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Treatment
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