Traumatic Brain Injury Clinical Trial
Official title:
Treatment of Spontaneous Hyperventilation in Severe Traumatic Brain Injury Patients: The Efficiency and Safety of Remifentanil Infusion and Its Impact on Cerebral Blood Flow
Spontaneous hyperventilation is common in severe traumatic brain injury patients and correlates closely with poor outcomes. How to treat this pathological condition remain unsolved. Remifentanil is a frequently used short-acting opioid, has the potent side-effect of dose-dependent respiratory inhibition. Specifically, it prolongs the expiratory time only and does not influence the respiratory drive. Among the safety range, the investigators will determine an ideal dose of remifentanil to maintain PaCO2 between 35 to 45 mmHg. The investigators will monitor the cerebral blood flow of the middle cerebral artery and the internal carotid artery to validate cerebral perfusion improvement.
Severe Traumatic Brain Injury (sTBI) is a devastating disease with high hospital mortality and disability worldwide. For neurocritical care physicians, avoiding secondary brain injury remains the cornerstone of treatment in treating sTBI patients. Carbon dioxide is a potent cerebral vascular modulator. By decreasing the arterial partial pressure of carbon dioxide (PaCO2), hyperventilation could induce cerebral vasoconstriction and decrease cerebral blood flow (CBF), which further reduces cerebral blood volume and lowering intracranial pressure. Traditionally, intentional hyperventilation was used to control intracranial hypertension in sTBI patients for decades. However, evidences have shown that the decreased cerebral blood flow may aggravate brain ischemia and worse neural function. The most recent guidelines do not recommend prophylactic use of induced hyperventilation in sTBI patients anymore. However, the latest research revealed a high prevalence of spontaneous hyperventilation (SHV) in sTBI patients, accompanied by prolonged sedation and analgesia, increased hospital mortality, and long-term adverse clinical outcomes. Although many modalities are available, there is still no consensus on the practical and feasible treatment for SHV in clinical practice. As one of the most commonly used short-acting analgesic drugs, remifentanil has the characteristic of dose-depended respiratory rate inhibition by prolonging expiratory time, meanwhile preserve the respiratory drive. Among the effective dose range, the continuous infusion of remifentanil does not interfere the cerebral hemodynamics. The investigators hypothesize that SHV could be corrected with remifentanil infusion and anticipate increasing cerebral blood flow and improving the sTBI patients' outcomes. This exploratory physiological study will titrate the respiratory rate with continuous remifentanil infusion in the sTBI patient with SHV, aiming to maintain the ideal PaCO2 range of 35-45 mmHg. Specifically, after the satisfactory analgesia and sedation achieved with butorphanol and midazolam/propofol, escalating remifentanil doses (0.02, 0.04, 0.06, and 0.08 ug/kg/min) will be tested in sequence from the baseline. The parameters of vital signs, blood gas analysis, ventilator monitored variables such as tidal volume, minute ventilation, end-tidal carbon dioxide will be collected at the stable period after 30 minutes of drug infusion. Transcranial doppler also will be performed at the same time to evaluate the change of velocity of the middle cerebral artery and internal carotid artery. An efficient and safe dose range will be determined, meanwhile preserve the stability of neural function and hemodynamic. ;
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