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In thoracic surgery, the incidence of postoperative pulmonary complications is higher than for other surgeries. Indeed, thoracic surgery has the specificity of being carried out with single-lung ventilation and is thus a source of intraoperative atelectasis which persists postoperatively and gives rise to pulmonary complications, particularly infectious ones. During one-lung ventilation, mediastinal and abdominal compression on the ventilated lung leads to a drop in functional residual capacity (FRC) which will in turn lead to collapse of the small airways leading to the formation of atelectasis.
Strategies exist to limit the appearance of atelectasis. One of the intraoperative strategies is alveolar recruitment. Alveolar recruitment is a dynamic process that can be defined by a transient increase in transpulmonary pressure beyond the critical opening pressure. Physiologically, alveolar recruitment corresponds to the re-aeration of poorly or non-aerated lung areas. In single-lung ventilation, intraoperative alveolar recruitment maneuvers are not performed systematically to prevent the formation of atelectasis.
The General Electric Carescape R860 ventilator allows intraoperative monitoring of end-expiratory closing lung volume (EFVP), which corresponds to the CRF associated with positive expiratory pressure (PEEP). This spirometry incorporated in the ventilator continuously monitors the intraoperative variation of VPFE, thus making it possible to detect any significant decrease which would favor the formation of intraoperative atelectasis. Early detection of VPFE can therefore allow the anesthetist-resuscitator to initiate intraoperative alveolar recruitment maneuvers adapted to the patient. Alveolar recruitment maneuvers are then personalized and based on precise monitoring of the evolution of the VPFE.
The effectiveness of recruitment maneuvers can be evaluated and quantified (with the Lung Ultrasound Score (LUS)) postoperatively using pleuropulmonary ultrasound. Thus, early ultrasound detection, from the post-interventional monitoring room (SSPI), would make it possible to undertake rapid therapeutic maneuvers to combat the atelectasis observed. A patient could benefit, for example, from prophylactic NIV from the recovery room, from a stricter postural program in a seated position, or from an earlier and/or more intensive respiratory rehabilitation program with the physiotherapy team.
In thoracic surgery, the incidence of postoperative pulmonary complications is higher than for other surgeries. Indeed, thoracic surgery has the specificity of being carried out with single-lung ventilation and is thus a source of intraoperative atelectasis which persists postoperatively and gives rise to pulmonary complications, particularly infectious ones. During one-lung ventilation, mediastinal and abdominal compression on the ventilated lung leads to a drop in functional residual capacity (FRC) which will in turn lead to collapse of the small airways leading to the formation of atelectasis.
Strategies exist to limit the appearance of atelectasis. One of the intraoperative strategies is alveolar recruitment. Alveolar recruitment is a dynamic process that can be defined by a transient increase in transpulmonary pressure beyond the critical opening pressure. Physiologically, alveolar recruitment corresponds to the re-aeration of poorly or non-aerated lung areas. In single-lung ventilation, intraoperative alveolar recruitment maneuvers are not performed systematically to prevent the formation of atelectasis.
The General Electric Carescape R860 ventilator allows intraoperative monitoring of end-expiratory closing lung volume (EFVP), which corresponds to the CRF associated with positive expiratory pressure (PEEP). This spirometry incorporated in the ventilator continuously monitors the intraoperative variation of VPFE, thus making it possible to detect any significant decrease which would favor the formation of intraoperative atelectasis. Early detection of VPFE can therefore allow the anesthetist-resuscitator to initiate intraoperative alveolar recruitment maneuvers adapted to the patient. Alveolar recruitment maneuvers are then personalized and based on precise monitoring of the evolution of the VPFE.
The effectiveness of recruitment maneuvers can be evaluated and quantified (with the Lung Ultrasound Score (LUS)) postoperatively using pleuropulmonary ultrasound. Thus, early ultrasound detection, from the post-interventional monitoring room (SSPI), would make it possible to undertake rapid therapeutic maneuvers to combat the atelectasis observed. A patient could benefit, for example, from prophylactic NIV from the recovery room, from a stricter postural program in a seated position, or from an earlier and/or more intensive respiratory rehabilitation program with the physiotherapy team.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| arm monitoring of the VPFE with intraoperative alveolar recruitment maneuvers | Experimental | arm monitoring of the VPFE with intraoperative alveolar recruitment maneuvers |
|
| VPFE monitoring arm without intraoperative alveolar recruitment maneuvers. | Placebo Comparator | VPFE monitoring arm without intraoperative alveolar recruitment maneuvers. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| VPFE monitoring with intraoperative alveolar recruitment maneuvers. | Procedure | VPFE monitoring with intraoperative alveolar recruitment maneuvers. |
|
| Measure | Description | Time Frame |
|---|---|---|
| Evaluate the effect of VPFE monitoring with intraoperative alveolar recruitment maneuvers compared to VPFE monitoring without intraoperative alveolar recruitment maneuvers on pulmonary aeration of the ventilated lung | The primary endpoint will be the value of the LUS (Lung Ultrasound Score) score on the ventilated lung at the time of lung ultrasound in SSPI, 30 minutes after extubation (presence of atelectasis with a LUS score > or = 10/18). | 30 min post-extubation |
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Adult patient aged 18 to 75 years inclusive
Patient requiring lobectomy or segmentectomy by video or robot-thoracoscopy
Patient having read and understood the information letter and signed the consent form
Patient affiliated to a social security system
Women :
Of childbearing age (defined by the CTFG as a fertile woman, after menarche and until menopause, except in cases of permanent sterility (including hysterectomy, bilateral salpingectomy or bilateral oophorectomy))
Menopause: menopause according to the CTFG is defined as the absence of periods for 12 months without any other medical cause. An elevated follicle-stimulating hormone (FSH) level in the postmenopausal interval can be used to confirm a postmenopausal state in women who are not using hormonal contraception or hormone replacement therapy. However, in the absence of 12 months of amenorrhea, a single FSH measurement is insufficient.
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| David Mallet | Contact | 02 32 88 82 65 | nell.marty@chu-rouen.fr |
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| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| CHU de ROUEN | Rouen | 76031 | France |
|
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| VPFE monitoring with intraoperative alveolar recruitment maneuvers. | Procedure | VPFE monitoring with intraoperative alveolar recruitment maneuvers. |
|
| ID | Term |
|---|---|
| D055370 | Lung Injury |
| ID | Term |
|---|---|
| D008171 | Lung Diseases |
| D012140 | Respiratory Tract Diseases |
| D013898 | Thoracic Injuries |
| D014947 | Wounds and Injuries |
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