Extubation Guided by Bedside Ultrasound

Recruiting

• Conditions: Extubation Failed; Extubation Succeeded

• Registration Number: NCT05674812
• Lead Sponsor: Lili Jia

Brief Summary

Prolonged mechanical ventilation is likely to lead to respiratory complications, such as pneumonia, pulmonary edema, atelectasis, pulmonary barotrauma, acute respiratory distress syndrome, etc. The duration of mechanical ventilation after major abdominal surgery in elderly patients was longer, the lung function reserve decreased significantly, and the incidence of postoperative lung complications was as high as 53.1%. Therefore, it is of great clinical significance and social value to accurately grasp the ventilator withdrawal time of elderly patients after surgery and reduce ventilator-related lung injury.

In recent years, pulmonary ultrasound has been more and more applied to the lung function assessment of critically ill patients in intensive care unit, while the study of early postoperative extubation guided by bedside lung ultrasound in critically ill patients remains to be explored. Combined with previous work and related literature, our research group planned to conduct a multi-center prospective clinical trial to evaluate the recovery of lung function in elderly patients by using lung ultrasound score (LUS), diaphragm mobility (DD) combined with oxygenation index (OI), and to guide elderly patients undergoing gastrointestinal surgery to perform early extubation in PACU, so as to reduce postoperative ventilators associated lung injury in elderly patients. The application of ERAS concept in abdominal operation of the elderly in this project can effectively reduce the occurrence of postoperative pulmonary complications, accelerate postoperative recovery and rehabilitation of patients, and shorten the length of hospital stay, which has important clinical and social value.

Detailed Description

1.1. Research significance mechanical ventilation (MV) is an important technique for the treatment of acute respiratory failure, and about 20% of patients have difficulty in ventilation due to respiratory muscle related diaphragm dysfunction . The duration of mechanical ventilation in elderly patients after large-scale abdominal surgery is longer, the lung function reserve is significantly decreased, and the incidence of postoperative lung complications is as high as 53.1%, which is easy to cause offline difficulties, thus prolongating the hospital stay and seriously threatening the life safety of patients . Therefore, it is of great clinical significance and social value to accurately grasp the ventilator withdrawal time of elderly patients after surgery and reduce ventilator-related lung injury.

1.2. Research status at home and abroad 1.2.1 Research status of mechanical ventilation lung injury Mechanical ventilation provides important respiratory and circulatory support for critically ill patients, but prolonged mechanical ventilation is prone to ventilator-associated lung injury. Studies have shown that with the extension of mechanical ventilation time, the incidence of pulmonary complications increases, such as ventilator-associated pneumonia, which extends the length of ICU stay of patients and increases hospitalization costs . Ventilator-associated diaphragm dysfunction, which has received increasing attention in recent years, is directly related to the duration of mechanical ventilation. Animal studies have shown that the maximum tonic contractile tension and monocontractile tension of diaphragm gradually decrease with the extension of mechanical ventilation . Clinical studies have shown that mechanical ventilation for 18-24 h can lead to diaphragmatic dysfunction . Due to the complicated condition, organ insufficiency and complications of severe patients, it is often very difficult to withdraw the machine. Therefore, the appropriate time of withdrawal is of great significance for the prognosis of elderly critically ill patients.

1.2.2 Characteristics of lung structure and postoperative lung complications in the elderly With the increase of age, the main structure and function of the lung have progressive changes, the lung elastic retraction force is reduced, the defense mechanism is impaired, the respiratory muscle strength is weakened, and the sensitivity to the respiratory depression caused by anesthesia and analgesics is increased, which leads to the decline of the respiratory reserve function. After the trauma stimulation of major surgery for a long time, the lung functional reserve, respiratory muscle strength, lung compliance, respiratory filtration function, gas exchange function and so on decreased significantly in elderly patients. Smetana et al. have shown that the incidence of pulmonary complications in elderly patients after major operations is 33%, the mortality rate of patients within 30 days is 14%30%, the length of hospital stay is prolonged, the medical expenses are increased, and the postoperative quality of life of patients is seriously affected .

Studies have shown that the incidence of postoperative pulmonary complications is negatively correlated with the distance between the surgical site and the diaphragm. The incidence of complications after upper abdominal surgery was 17%76%, and the forced vital capacity after open surgery was reduced by 50% on average, which was positively correlated with the operation duration. Lung complications were 8% if the operation time was less than 2 hours. The complication rate of 34h operation time will increase to 40%. Zuo Mingzhang et al. found that the incidence of pulmonary complications in elderly patients after major abdominal operations was 53.1%. In conclusion, the risk of pulmonary complications after large-scale gastrointestinal abdominal surgery is higher in elderly patients, and the postoperative complications seriously affect the long-term prognosis of patients, prolong the length of hospital stay, and increase hospitalization costs and mortality.

1.2.3 Lung protective ventilation strategies Lung function reserve decreased significantly in elderly patients, and a variety of lung protective ventilation strategies have been applied clinically to reduce the occurrence of postoperative lung complications. Studies have found that the lung protective ventilation strategy of small tidal volume combined with lung reexpansion manipulation can improve lung ventilation function and intrapulmonary oxygenation in elderly patients after major abdominal surgery, reduce postoperative lung complications, and shorten the average length of hospital stay . TAO et al. found that small tidal volume lung ventilation can reduce the occurrence of postoperative lung infection, lung injury and other complications, and to a certain extent reduce the postoperative mortality of patients with general anesthesia . Positive end expiratory pressure (PEEP) reduces the incidence of postoperative atelectasis. Expert consensus on the clinical application of perioperative lung protective ventilation strategy points out that high inhalation oxygen concentration (FiO2) is easy to cause absorptive alveolar collapse and increase the incidence of postoperative lung complications. Helmer horst et al. found that selecting appropriate FiO2 could not only satisfy the oxygen supply of the body and maintain the normal oxygenation index, but also reduce the lung injury caused by high FiO2 .

However, it is of great clinical significance to accurately grasp the timing of extubation, reduce the occurrence of pulmonary complications from the source, and effectively improve the prognosis of elderly patients. Quasha et al. showed that after early extubation, the recovery of respiratory mucosa was accelerated, postoperative pulmonary complications such as atlatasis and pneumonia were significantly reduced, and postoperative outcomes were significantly improved.

At present, the conventional parameters of withdrawal include the following three aspects: (1) Symptom and sign parameters: whether the breathing is coordinated, lung signs, sputum characteristics, patient's consciousness and circulation, etc. (2) Respiratory functional and mechanical parameters: respiratory rate, minute ventilation, vital capacity, airway pressure, lung compliance, etc. (3) Indicators reflecting blood gas exchange: pH, PaO2, PaCO2, etc. In addition, Zhang Xiaofei et al. found that ScvO2 was an early predictor of successful offline extubation in patients with mechanical ventilation, and a decrease of more than 7% in ScvO2 could be used as a prediction threshold. Monitoring ScvO2 was of great significance for the evaluation and management of perioperative critically ill patients, and it could quickly reflect the instantaneous changes in the balance of systemic oxygen supply and demand in critically ill patients. It can detect tissue hypoxia early and is better than other traditional hemodynamic parameters. It is a useful indirect indicator to evaluate whether tissue oxygenation is sufficient or not, and also an important indicator to evaluate the incidence and mortality of perioperative patients with organ failure, infection and other complications. In addition, it was found that arterial oxygen saturation and its change rate had predictive value for the success rate of extubation in patients with mechanical ventilation, and the decrease of SaO2 \< 2.6% was a reliable predictor of the success of extubation.

1.2.4 Clinical application status of pulmonary ultrasound

Pulmonary ultrasound, known as a visible stethoscope, can probe the lung condition on the patient's body surface through the ultrasound probe, which can accurately and objectively show the changes of lung ventilation function. The changes of pulmonary ultrasound signs occur earlier than the decline of oxygenation, and have higher sensitivity and accuracy than the traditional chest X-ray. spontaneous breathing test (SBT) is a common clinical off-line extubation test. Spontaneous breathing test (SBT) is a spontaneous extubation test designed to adjust ventilator parameters. PC 5 \~ 8cm H2O, PEEP 5cmH2O, FiO2 \< 0.40). At the same time, arterial blood gas was checked once as a reference, and the patient's heart rate, respiration, blood pressure, tidal volume and other parameters, as well as the patient's subjective response (whether dyspnea or not) were recorded every 15min. The results of respiration, circulation, sanity and blood gas were observed within 15min to 2h. Studies have shown that when SBT is used to guide offline, about 15% of patients still fail to take offline and need mechanical ventilation again. Real-time monitoring of lung conditions by lung ultrasound and individualized assessment of lung function and diaphragm function created certain conditions for the early guidance of successful extubation.

Ultrasound assessment of lung function: An increase in the number of lung ultrasound B-lines may reflect the absence of lung ventilation. Therefore, the use of pulmonary ultrasound before and after SBT to evaluate the loss of pulmonary ventilation can predict post-extubation respiratory distress. Soummer et al. used lung ultrasound score (LUS) to quantitatively evaluate lung ventilation. One lung was divided horizontally into upper and lower, and longitudinally into anterior, middle and posterior. The two lungs had 12 regions in total. Scores in each area were evaluated as follows: 0: normal pulmonary ventilation, pulmonary ultrasound showing pulmonary slip sign with A line or less than two isolated B lines; 1 score: moderate lung ventilation loss, lung ultrasound showed 3 or more isolated B lines; 2 points: severe lack of pulmonary ventilation, lung ultrasonography showed combined B-line or curtain sign; 3 points: lung consolidation. LUS varied from 0 to 36 points.

Diaphragmatic dysfunction has a high incidence in severe patients and may lead to a number of pulmonary complications, such as atelectasis and pneumonia. Therefore, early diagnosis of diaphragm dysfunction before extubation can help avoid the risk of extubation failure. Ultrasound can directly observe the left and right diaphragms and how they move with the respiratory cycle. Ji Wenhua et al. examined the degree of diaphragm movement, asked the patient to maintain supine position with the upper abdomen and chest exposed, and after a steady breathing, selected the ultrasonic convex array probe to examine the vertical diaphragm under the costal arch of the bilateral midclavicular line, and the included Angle should be less than 20 °. The M mode was selected to record the distance between the body surface probe and the diaphragm. 30min after SBT, the tracheal catheter was removed, and the distance difference between the expiratory phase and the inspiratory phase was measured after steady breathing, and the movement degree of bilateral diaphragm was detected. The study found that the diaphragm movement degree of the successful extubation group was greater than that of the failed extubation group.

Study Timeline

• Study Start: 2022-12-01
• Study First Submitted: 2022-12-08
• Study First Submitted QC: 2023-01-05
• Study First Posted: 2023-01-06
• Status Verified: 2023-12
• Last Update Submitted: 2023-12-02
• Last Update Posted: 2023-12-05
• Primary Completion: 2023-12-31
• Study Completion: 2024-08-01

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 200

Inclusion Criteria

1. Age ≥65 years old, gender unlimited;
2. Ventilator assisted ventilation after endotracheal intubation;
3. Surgery under general anesthesia;
4. mechanical ventilation time ≥3h;
5. Successfully passed the spontaneous respiration test (SBT);

Exclusion Criteria

1. airway stenosis, airway compression;
2. Large area of chest skin damage and burn;
3. central respiratory failure;
4. Severe myasthenia and no autonomic diaphragm activity;
5. patients with unplanned extubation;
6. Patients with end-stage cardiopulmonary disease.

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
Lung echocardiography was used to calculate lung echocardiography score (LUS)	48 hours	Assessing the prognostic value of a combined score in predicting weaning success, the higher the LUS score, the worse the prognosis
diaphragmatic mobility (DD)	48 hours	Assessing the prognostic value of a combined score in predicting weaning success
oxygenation index (OI) was combined with statistical analysis.	48 hours	Assessing the prognostic value of a combined score in predicting weaning success

Secondary Outcome Measures

Name	Time	Method
Mitral ring contractile displacement (MAPSE) and tricuspid ring contractile displacement (TAPSE)	7 days	predictive value of correlation between comprehensive parameters and the occurrence of cardiac and pulmonary complications 7 days after surgery

Trial Locations

Locations (1)

TianJin First Central Hospital; 🇨🇳 Tianjin, Tianjin, China