Clinical Research Directory

Ketamine-lidocaine Versus Ketamine-fentanyl for Induction of Anesthesia in Patients With Left Ventricular Systolic Dysfunction Undergoing Elective Coronary Artery Bypass

This study compares ketamine/fentanyl versus ketamine/lidocaine in term of their impact on cerebral perfusion during CABG. No prior data address these effects, and the goal is to identify the induction regimen that better preserves cerebral oxygenation.

Relationship Between Remimazolam and Etomidate in Induction of General Anesthesia

In modern anesthesia practice, anesthesiologists often need to choose a combination of multiple drugs according to the specific conditions and surgical needs of patients, which can not only achieve more fine anesthesia management, but also improve perioperative safety and patient comfort. In clinical practice, anesthesiologists will use etomidate combined with a small dose of remimazolam for anesthesia induction to obtain more stable hemodynamics, prevent intraoperative awareness, and relieve anxiety.However, what is the best dose ratio of etomidate combined with remimazolam, the current literature does not give clear indicators.

High-Flow Nasal Oxygen for Preoxygenation in Emergency Surgery Patients With Full Stomachs

Patients with full stomachs face a high risk of regurgitation and aspiration under general anesthesia. To minimize the time between the loss of airway protective reflexes and successful tracheal intubation, rapid sequence induction intubation is commonly used. However, these patients are particularly vulnerable to hypoxemia during anesthesia induction, especially in emergency cases. Pre-oxygenation before induction is crucial for ensuring patient safety during apnea. High-flow nasal oxygen (HFNO) therapy, which consists of an air/oxygen blender, an active humidifier, and a single heated circuit, has recently gained widespread use in intensive care units (ICUs) for managing hypoxemic respiratory failure. HFNC can deliver a constant fraction of inspired oxygen (FiO₂) from 0.21 to 1.0 at high flow rates (up to 60 L/min or higher). Its advantages include generating continuous positive airway pressure, reducing anatomical dead space, improving ventilation-perfusion matching, enhancing mucociliary clearance, and decreasing the work of breathing. Given these benefits, HFNO has the potential to improve pre-oxygenation before and during anesthesia induction in emergency surgery patients with full stomachs.