In one-lung ventilation surgery, compared with dexmedetomidine combined with propofol, dexmedetomidine combined with desflurane may be beneficial to accelerate patients' recovery and reduce postoperative pulmonary complications and does not increase the incidences of delirium and postoperative nausea and vomiting.
With the increase in the prevalence of lung cancer in recent years, the number of patients undergoing lobectomy has also increased. When performing lobectomy, inserting a double-lumen endotracheal tube or bronchial occlusive device and then ventilating the healthy lung is necessary. The affected lung is not ventilated; that is one-lung ventilation, which can fully expose the vision of the affected lung, provide space for surgical operation, and simultaneously avoid the pollution of the healthy lung. The emergence of one-lung ventilation has extensively promoted the development of thoracic surgery. However, during one-lung ventilation, the affected lung is not ventilated, and the blood flow of the affected lung is not oxygenated, which leads to increased intrapulmonary shunt and hypoxemia. Repeated and excessive inflation of the healthy lung may release many inflammatory factors, trigger local or systemic inflammatory reactions, and increase postoperative pulmonary complications. Therefore, it is an essential goal of anesthesia management to quickly wake up and resume spontaneous breathing to reduce mechanical ventilation time. Propofol-based intravenous anesthesia and inhalation anesthesia with sevoflurane, isoflurane, or desflurane are clinics' most commonly used general anesthesia methods. It is found that inhalation anesthesia with desflurane is superior to propofol-based intravenous anesthesia in the aspects of eye-opening time, spontaneous breathing recovery time, and extubation time in outpatient surgery, lung volume reduction surgery, lung cancer surgery, and endoscopic lumbar disc surgery. In addition, several meta-analyses found that inhalation anesthesia has an anti-inflammatory effect compared with propofol-based anesthesia, which can reduce alveolar inflammatory reaction and postoperative pulmonary complications in patients with one-lung ventilation. Kawanishi et al. found that desflurane inhalation anesthesia can promote the collapse of the affected lung, shorten the operation time, and reduce the occurrence of atelectasis compared with propofol-based intravenous anesthesia. These studies show that inhalation anesthesia with desflurane is superior to propofol-based intravenous anesthesia in one-lung ventilation surgery. However, inhalation anesthesia is not perfect, and studies have also found that inhalation anesthesia increases the incidences of restlessness during awakening and postoperative nausea and vomiting. One study found that the incidences of delirium, nausea and vomiting in the desflurane anesthesia group were 50% and 37.5% respectively, while that in the propofol-based intravenous anesthesia group was 10% and 17.5% respectively in lung cancer surgery. Therefore, it is necessary to explore an anesthesia management method that will not affect the advantages of inhalation anesthesia but also reduce the disadvantages of inhalation anesthesia. Dexmedetomidine is a highly selective α2- adrenergic receptor agonist. Its primary function is sedation, often used as an anesthetic adjuvant. Studies have found that dexmedetomidine can significantly reduce the incidences of delirium during recovery and postoperative nausea and vomiting. In patients undergoing nasal surgery, dexmedetomidine can reduce the incidence of delirium in patients receiving desflurane anesthesia from 52.8% to 5.6%, even lower than the incidence of delirium (10%) in patients receiving propofol in lung cancer surgery. In patients undergoing laparoscopic hysterectomy, the use of dexmedetomidine can reduce the incidence of nausea and vomiting after desflurane anesthesia from 32% to 13%, even lower than that after propofol anesthesia in lung cancer surgery (17.5%). In addition, dexmedetomidine can reduce inflammatory reactions, improve oxidative stress and respiratory mechanics, reduce intrapulmonary shunt, improve oxygenation, and reduce postoperative pulmonary complications in one-lung ventilation surgery. Although dexmedetomidine has a sedative effect, this sedative effect can be awakened easily. Moreover, a meta-analysis found that dexmedetomidine did not prolong the stay time in the anesthesia recovery room but only prolonged extubation time statistically, and it had no clinical significance. In a word, a large number of meta-analyses found that dexmedetomidine can not only reduce the incidence of various adverse events after operation but also has no noticeable effect on patients' recovery. Therefore, the investigators speculate that compared with dexmedetomidine combined with propofol, dexmedetomidine combined with desflurane is beneficial to accelerate patients' recovery and reduce postoperative pulmonary complications and does not increase the incidences of delirium and postoperative nausea and vomiting.
Group 1: After anesthesia induction, dexmedetomidine was infused at 1 μg/kg intravenously within 15 min, then infused at 0.3 μg/kg/h until 30 min before the end of the operation. Meantime, propofol was infused at 4-12mg/kg/h intravenously to maintain the depth of anesthesia.
Group 2: After anesthesia induction, dexmedetomidine was infused at 1 μg/kg intravenously within 15 min, then infused at 0.3 μg/kg/h until 30 min before the end of the operation. At the same time, 2.5%-8.5% desflurane was inhaled to maintain the depth of anesthesia.
The Second Affiliated Hospital of Chongqing Medical University
Chongqing, Chongqing Municipality, China
RECRUITINGThe Second Affiliated Hospital of Chongqing Medical University
Chongqing, Chongqing Municipality, China
RECRUITINGTime to open eyes after anesthetics withdrawal
The first time to open eyes after anesthetics withdrawal.
Time frame: From time of anesthetic withdrawal to the first time of the patient open his or her eyes, assessed up to 2 hour.
Incidence of delirium
The Richmond Agitation-Sedation Scale (RASS) will be used to assess the incidence of delirium. RASS is a 10-point scale, with four levels of anxiety or agitation (+1 to +4 \[combative\]), one level to denote a calm and alert state (0), and 5 levels of sedation (-1 to -5) culminating in unarousable (-5). The scores of +2, +3, and +4 are defined as delirium.
Time frame: From time of anesthetic withdrawal to the patient leaving the postanesthesia care unit, assessed up to 2 hour.
Incidence of nausea and vomiting
The severity of nausea and vomiting will be evaluated by visual analogue scale (VAS): a 10 cm ruler was used as a scale, one end (0 points) indicated no nausea and vomiting, and the other end was 10 cm, indicating the most severe nausea and vomiting that was unbearable (1\~4 was mild, 5\~6 was moderate, and 7\~10 was severe).
Time frame: From time of anesthetic withdrawal to the patient leaving the postanesthesia care unit, assessed up to 2 hour.
Pain level
Numeric Rating Scale will be used to assess the degree of pain. 0\~10 is used to represent different degrees of pain: 0 is no pain, 1\~3 is mild pain (the pain does not affect sleep), 4\~6 is moderate pain (mildly affects sleep), 7\~9 is severe pain (unable to fall asleep or wakes up from sleep), and 10 is severe pain.
Time frame: From time of anesthetic withdrawal to the patient leaving the postanesthesia care unit, assessed up to 2 hour.
Incidences of other side effects
Any unquestioned side effects will be recorded, such non-planned intensive care unit transfer, unplanned reoperation, unplanned reintubation, etc.
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Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
120
Time frame: From time of anesthetic withdrawal to the patient leaving the postanesthesia care unit, assessed up to 2 hour.
Drugs and their dosage
These drugs and their dosage will be recorded, such as muscle relaxant antagonism, antiemetic drugs, and analgesic drugs.
Time frame: From time of anesthetic withdrawal to the patient leaving the postanesthesia care unit, assessed up to 2 hour.
QoR-40 scores
QoR-40 scores will be used to assess the quality of recovery. The questionnaire consists of five subscales: emotional status (9 items), physical comfort (12 items), psychological support (7 items), physical independence (5 items), and pain (7 items). All the items are rated on a five-point scale ranging from 1 to 5. The initial point and conversion score of each item are calculated. Depending on the question, the best answers may have a score of either 5 or 1. The best answers to positive questions are scored 5, while the best answers to negative questions are assigned the score of 1. The total score of QoR-40 is given by the summation of scores for all items and ranges from 40 to 200. The higher the score, the better is the health status.Citation
Time frame: Postoperative day 1 and 3.
Postoperative pulmonary complications
The incidence of postoperative pulmonary complications was assessed according to the Assess Respiratory Risk in Surgical Patients in Catalonia (ARISCAT) definition. The severity of postoperative pulmonary complications was scored on a 0-5 scale.
Time frame: First 7 postoperative days
White blood cell count
White blood cell count will be used to assess the inflammatory level.
Time frame: Postoperative day 1 and 3.
Neutrophil ratio
Neutrophil ratio will be used to assess the inflammatory level.
Time frame: Postoperative day 1 and 3.
Lymphocyte ratio
Lymphocyte ratio will be used to assess the inflammatory level.
Time frame: Postoperative day 1 and 3.
C-reactive protein
C-reactive protein will be used to assess the inflammatory level.
Time frame: Postoperative day 1 and 3.
Time for tidal volume of spontaneous breathing over 300 ml
Time from anesthetics withdrawal to tidal volume of spontaneous breathing over 300 ml.
Time frame: From time of anesthetic withdrawal to the patient tidal volume of spontaneous breathing over 300 ml, assessed up to 2 hour.
Extubation time
Time from anesthetics withdrawal to extubation
Time frame: From time of anesthetic withdrawal to the tracheal tube was extubated, assessed up to 2 hour.
Postanesthesia care unit residence time
Time of staying in postanesthesia care unit
Time frame: From time of anesthetic withdrawal to the patient leaving the postanesthesia care unit, assessed up to 2 hour.