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Clinical Trial Summary

Intubation in the intensive care unit (ICU) is usually an emergency. Pathophysiological changes such as shock, respiratory failure, and metabolic acidosis in critically ill patients can significantly increase the incidence of adverse events during intubation. Studies have shown that esketamine has no significant effect on body metabolism, endocrine system, liver, kidney, intestinal function and coagulation function. In terms of drug metabolism, esketamine has high bioavailability, short half-life, faster and more comfortable recovery of patients, and not only has the advantage of providing stable hemodynamics during endotracheal intubation, but also counteracts the respiratory depression caused by opioids. In addition, esketamine has antidepressant and anti-inflammatory properties. The investigators also found that combined prophylactic and therapeutic use of esketamine could attenuate systemic inflammation and inflammatory multi-organ injury in mice after CLP-induced lethal sepsis. This project aims to study the clinical effect of esketamine induction intubation and conventional induction intubation in ICU patients.


Clinical Trial Description

Esketamine is the S-enantiomer of ketamine and has been approved for clinical use by the National Medical Products Administration (NMPA) in 2019. Studies have shown that esketamine has no significant effect on metabolism, endocrine system, liver, kidney, intestinal function and coagulation function. It is mainly used in combination with sedatives (such as propofol, etc.) or alone to induce and implement general anesthesia. The phase III clinical study on the application of esketamine in the induction and maintenance of general anesthesia in laparoscopic surgery showed that the recovery time of the esketamine group was significantly shorter than that of the ketamine group when the same clinical anesthesia effect was achieved. Esketamine has the effect of dissociative anesthesia, which can maintain better spontaneous breathing of patients while satisfying outpatient examinations or operations, and this feature helps maintain circulatory stability, especially in patients with shock. Esketamine has sympathomimetic properties. In patients with potentially unstable cardiac disease (eg, septic cardiomyopathy), esketamine is the preferred choice for induction of anesthesia, especially in combination with midazolam. Esketamine is also the preferred choice for anesthesia induction in patients with bronchospasm, which can protect patients from bronchospasm during induction. Studies have found that esketamine has antidepressant and anti-inflammatory effects in addition to its analgesic, sedative and anesthetic effects. Clinical studies have shown that esketamine (0.25 mg/kg, 40 min infusion time) can rapidly improve the depressive symptoms of patients with treatment-resistant depression. The antidepressant effects of esketamine may be closely related to its anti-inflammatory effect. During cardiopulmonary bypass surgery, anesthesia induction was supplemented with 1-3 mg/kg esketamine, anesthesia maintenance was supplemented with 2-3 mg/kg/h esketamine, anesthesia maintenance time was 283 minutes, the total amount of esketamine was 1580mg on average. Esketamine decreased plasma levels of IL-6 (6 h after opening the aorta) and IL-8 (1 and 6 h after opening the aorta) and increased plasma levels of IL-10 (1 h after opening the aorta). In the investigators' preliminary study on the role of esketamine in systemic inflammation induced by lipopolysaccharide (LPS), the investigators found that in systemic LPS (5 mg/kg)-induced systemic inflammation model, esketamine (10 mg/kg, IP) was administrated twice 24 hours before LPS administration and 10 minutes after LPS administration. The plasma levels of IL-6, IL-17A and interferon γ (IFN-γ) were significantly decreased 24 h after LPS administration in mice. However, the efficacy and safety of esketamine for tracheal intubation in ICU patients is still unclear, and no relevant clinical studies have been reported. The investigators will include adult patients subjected to tracheal intubation in the ICU strictly according to the inclusion and exclusion criteria to investigate the efficacy and safety of esketamine for tracheal intubation in ICU patients. Enrolled patients were randomly assigned to two groups: the esketamine intubation group and the conventional intubation group. In esketamine intubation group, esketamine at 0.5-1.0 mg/kg BW and rocuronium bromide at 0.6 mg/kg BW was given intravenously for induction intubation. After the intubation was completed, esketamine was continuously pumped at 0.3-1.5 mg/kg/h to maintain sedation. In conventional intubation group, Midazolam at 0.1mg/kg BW, fentanyl at 1ug/kg BW, rocuronium bromide at 0.6mg/kg BW was given intravenously for induction intubation; After the intubation was completed, sufentanil at 0.1 μg/kg/h was administered for analgesia, and remazolam tosylate at an initial dose of 0.075 mg/kg/h was administered for sedation, and the dose of remazolam tosylate was adjusted according to the RASS score. Five tubes of venous blood were collected and sent to the laboratory and immunology department of Union Hospital affiliated to Tongji Medical College, Huazhong University of Science and Technology, before intubation and 1, 2, 3 and 7 days after intubation, and five tests including blood routine, coagulation, liver function, kidney function, electrolytes, C-reactive protein, myocardial enzyme, BNP, lymphocyte subsets and cytokines were performed. A tube of arterial blood was collected before intubation and 1, 2, 3 and 7 days after intubation to detect arterial blood gas in the ICU. If the adverse events of esketamine appear during the study, patients or authorized client withdraw from the study actively, or drugs that seriously affect systemic inflammation and immune function (such as non-steroidal anti-inflammatory drugs, immunosuppressants, immunoenhancers, high doses of hormones (more than 10mg prednisolone per day or equivalent dose of other hormones, etc.) were used in clinical treatment, the study will be terminated. In this study, adverse reactions were evaluated daily after inclusion. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05464979
Study type Interventional
Source Wuhan Union Hospital, China
Contact Jiancheng Zhang, MD, PhD
Phone +8613554105815
Email zhjcheng1@126.com
Status Recruiting
Phase Phase 4
Start date August 1, 2022
Completion date June 30, 2024

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