This protocol describes a study to gain experience in the use of Clevidipine for perioperative blood pressure control in patients undergoing craniotomy for brain tumor or epilepsy focus resection. The purpose of this study is to establish the efficacy of Clevidipine for intraoperative blood pressure control in patients undergoing intracranial procedures, and gather information on the dosage and adverse effects of Clevidipine in neurosurgical patients. This initial pilot experience serves to familiarize the investigators with the use of this drug prior to initiating a planned randomized trial versus institutional standard-of-care therapy. The investigators will obtain greater familiarity with the dosing of clevidipine in this patient population and collect information on the incidence of adverse effects.
Clevidipine, a recently introduced, short-acting, vascular-selective calcium antagonist, could be a potentially useful adjuvant for neurosurgical cases. It decreases arterial blood pressure by reducing systemic vascular resistance with no effect on venous capacitance vessels (7). Clevidipine was successfully used for the treatment of hypertension in cardiac surgical patients (8). However, there is no information available on its efficacy and safety in patients undergoing intracranial surgery. The perioperative course of patients undergoing intracranial surgery is frequently complicated by acute hypertensive episodes. Acute hypertension in neurosurgical patients is associated with intracranial bleeds and prolonged hospital stay (1). Even with current neuroanesthesia management, hemodynamic stability may be challenging, especially in hypertensive patients. An anesthetic technique that improves perioperative hemodynamics without increasing the incidence of undesirable events (such as increased intracranial pressure, prolonged recovery, etc.) is desirable. A number of antihypertensive agents are available to treat perioperative hypertension. Labetalol is commonly used to treat hypertensive episodes in patients undergoing craniotomy, but may not be desirable in certain patient populations because of its low potency, a slow onset of peak effect (2), and unpredictability in dose requirements (3). Esmolol is only mildly effective in treating postoperative hypertension. Perioperative use is further complicated by bradycardia and conduction delay. Nicardipine is more effective than esmolol in controlling postoperative hypertension (4). However, it causes a dose-dependent cerebral vasodilation, inhibition of autoregulation, as well as a high incidence of hypotension (as compared to labetalol) (5). Hydralazine may increase intracranial pressure by as much as 100% and is rarely used as the sole agent in treating hypertension in neurosurgical patients (6).
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
22
Clevidipine (0.5 mg/ml in 20 % lipid solution) will be administered via peripheral vein using syringe pump; drug infusion will be initiated at 5 mg/hr (10ml/h) and titrated to effect up to a maximum rate of 32 mg/hr when SBP exceeds 130 mm Hg. The anesthesiologist will be allowed to administer the alternative antihypertensive treatment (e.g. labetalol, hydralazine) after achieving a maximum clevidipine infusion rate.
NYU Langone Medical Center, Department of Anesthesiology
New York, New York, United States
The Primary Endpoint of This Trial is the Proportion of Patients Who Did Not Require Rescue Antihypertensive Medication to Maintain SBP Below 130 mmHg (i.e. Clevidipine is a Sole Antihypertensive Agent Used for Blood Pressure Control)
Time frame: intraoperatively and 90 min after surgery
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.