Mechanical Ventilation Clinical Trial
Official title:
Extrapulmonary Lung Protection Strategy for Patients With Mechanical Ventilation
NCT number | NCT03947476 |
Other study ID # | EXPECT |
Secondary ID | |
Status | Recruiting |
Phase | |
First received | |
Last updated | |
Start date | August 1, 2019 |
Est. completion date | August 1, 2021 |
As an important life sustaining support , mechanical ventilation has greatly promoted the
development of modern intensive care units. However, mechanical ventilation can lead to
ventilator-induced lung injury, including barotrauma, volutrauma, atelectrauma and biotrauma.
All patients undergoing mechanical ventilation are at risk of barotrauma. A multicenter
prospective cohort study of 5183 patients with mechanical ventilation showed that the
incidence of pulmonary barotrauma was 3%. The incidence of pulmonary barotrauma varied
according to the causes of mechanical ventilation: chronic obstructive pulmonary disease
(3%), asthma (6%), chronic interstitial lung disease (10%), acute respiratory distress
syndrome (7%) and pneumonia (4%).
At present, it is considered that one of the main causes of barotrauma is the increasing of
transpulmonary pressure. Transpulmonary pressure is the difference between alveolar pressure
and intrapleural pressure. The commonly adopted lung protective ventilation methods include:
limiting plateau pressure less than or equal to 30 cmH2O, using small tidal volume
ventilation (6-8 mL/kg ideal body weight) . All the above methods are to reduce
trans-pulmonary pressure by reducing alveolar pressure. In addition to reducing alveolar
pressure, increasing pleural pressure is another important way to reduce transpulmonary
pressure and the incidence of barotrauma. At present, the main method is the use of
neuromuscular blockade. However, there are many shortcomings in of neuromuscular blockade: 1.
Time limit, generally not more than 48 hours; 2. Long-term use of neuromuscular blockade
causes adverse reactions such as myopathy; 3. Neuromuscular blockade are only suitable for
invasive mechanical ventilation patients, but not for non-invasive mechanical ventilation or
high flow oxygen inhalation patients. Therefore, it is urgent to find other methods to reduce
trans-pulmonary pressure and lung injury.
The investigators drew inspiration from the early mechanism of "iron lung" ventilator and the
clinical practice of reducing trans-pulmonary pressure and lung injury in obese patients. In
the early stage, the investigators carried out the clinical practice of extrapulmonary lung
protection strategy, that is, to give thoracic band restraint to patients undergoing
non-invasive mechanical ventilation so as to reduce chest wall compliance, which can be
significantly reduced under the same inspiratory pressure and occurrence of barotrauma.
However, the respiratory mechanics mechanism of this method still needs to be further studied
to determine whether it can reduce the incidence of barotrauma by reducing transpulmonary
pressure. It is accessible and inexpensive. The aim of this study was to determine the
changes of transpulmonary pressure in patients with invasive mechanical ventilation before
and after thoracic band fixation by esophageal manometry without spontaneous breathing.
Status | Recruiting |
Enrollment | 100 |
Est. completion date | August 1, 2021 |
Est. primary completion date | August 1, 2021 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 80 Years |
Eligibility |
Inclusion Criteria: 1. BMI > 18, BMI < 40 2. Age > 18 years old 3. Patients who need invasive mechanical ventilation for lower abdominal surgery, brain surgery, cerebral hemorrhage and cerebral infarction 4. Mechanical ventilation at least 12 hours Exclusion Criteria: 1. BMI < 18 or BMI > 40 2. Age < 18 years old 3. abstain from nasogastric tube 4. Pneumothorax 5. Pregnant women 6. Patients with severe hypoxemia |
Country | Name | City | State |
---|---|---|---|
China | Ju Minjie | Shanghai | Shanghai |
Lead Sponsor | Collaborator |
---|---|
Shanghai Zhongshan Hospital |
China,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Inspiratory of transpulmonary pressure | Measurement of transpulmonary pressure by placement of esophageal manometer tube during inspiratory,the metric is cmH2O | up to 24 hours | |
Primary | Expiratory of transpulmonary pressure | Measurement of transpulmonary pressure by placement of esophageal manometer tube during expiratory,the metric is cmH2O | up to 24 hours |
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