Bariatric Surgery Candidate, Atelectasis, Postoperative Pulmonary
Conditions
Keywords
High flow nasal cannula, Bariatric surgery, Postoperative atelectasis, Electrical impedance tomography
Brief summary
Obese patients have an increased risk of developing post-operative respiratory complications due to their comorbidities. They have a restrictive ventilatory defect with reduction of lung volumes and expiratory flow limitation, higher airway resistance and collapsibility of the upper respiratory tract. These abnormalities are worsened by general anesthesia and opioid administration. It has been proved that oxygen therapy with HFNC (high flow nasal cannula) increases lung volumes through a continuous positive airway pressure (CPAP)-effect. This also improves gas exchange and decreases anatomical dead space. At the present time, CPAP represents the gold standard for the prevention of postoperative pulmonary complications. The purpose of this study is to evaluate lung ventilation, gas exchange and comfort with HFNC compared with CPAP during the post-operative period in patients who undergo laparoscopic bariatric surgery.
Detailed description
Immediately after bariatric surgery, patients will follow a pre-determined schedule of oxygen therapy with conventional facemask (from the beginning to minute 10), HFNC (with a flow of 40 L/min from minute 11 to 20, 60 L/min from minute 21to 30, 80 L/min from minute 31 to 40, 100 L/min from minute 41 to 50, 80 L/min from minute 51 to 60, 60 L/min from minute 61 to 70, 40 L/min from minute 71 to 80), conventional facemask again (washout, from minute 81 to 90) and CPAP (10 cmH2O, from minute 91 to 100). Lung ventilation will be evaluated with electrical impedance tomography (EIT), which measures thoracic impedance variations related to changes in lung aeration. At the end of each 10 minutes-period the following data will be collected: electrical impedance tomography data (to calculate the global inhomogeneity index, Δ end-expiratory lung impedance and tidal impedance variation), hemodynamic parameters, respiratory rate, SpO2, pain (numerical rating scale), level of sedation (Ramsey score) and patient comfort (modified Borg scale). An arterial blood gas will be collected at the end of the following steps: baseline facemask, HFNC 40 and 100 L/min, washout facemask and CPAP. Data about anesthetic/analgesic drugs and ventilation parameters will also be collected.
Interventions
DEVICEHigh flow nasal cannula
High flow of warm and humidified oxygen/air mixture delivered through nasal cannula
DEVICEContinuous positive airway pressure
Positive airway pressure applied through a sealed face mask
DEVICEFacemask
Oxygen therapy through a conventional facemask
Sponsors
University of Trieste
Study design
Allocation
NON_RANDOMIZED
Intervention model
CROSSOVER
Primary purpose
TREATMENT
Masking
NONE
Eligibility
Sex/Gender
ALL
Age
18 Years to No maximum
Healthy volunteers
No
Inclusion criteria
* Patient's consent to the trial * Candidate to laparoscopic bariatric surgery (sleeve gastrectomy or Roux-en-Y gastric bypass) * BMI 35-50 kg/m2 * ASA class 1-3
Exclusion criteria
* Obesity hypoventilation syndrome * Contraindication to EIT (e.g. implantable cardioverter-defibrillator)
Design outcomes
Primary
| Measure | Time frame | Description |
|---|---|---|
| Change of global inhomogeneity index | The data needed to calculate the index will be collected at minute 10, 20, 30, 40, 50, 60, 70, 80, 90 and 100 (i.e. at the end of every step of oxygen therapy). The values obtained will then all be compared each other. | This parameter, calculated from data collected with EIT, evaluates lung ventilation distribution. To calculate this index, the median value of regional impedance changes from ventilated regions within the tidal image has to be computed, then the sum of differences between the median and every pixel value needs to be calculated, and the result must be normalised by the sum of impedance values within the lung area. The minimum value of the index is 0 and corresponds to homogeneous ventilation, whereas the maximum value is 1 and corresponds to inhomogeneous ventilation (in this context likely due to atelectasis). |
Secondary
| Measure | Time frame | Description |
|---|---|---|
| Change of tidal impedance variation | The data will be collected at minute 10, 20, 30, 40, 50, 60, 70, 80, 90 and 100 (i.e. at the end of every step of oxygen therapy). The values obtained will then all be compared each other. | This parameter, measured with EIT, corresponds to the difference between end-expiratory and end-inspiratory lung impedance and is related to tidal volume. It will be expressed in units, where one unit corresponds to the tidal impedance variation of the patient breathing with baseline conventional facemask. |
| Change of oxygenation | The blood gas analysis will be performed at minute 10, 20, 50, 90 and 100. The values will then all be compared each other. | Oxygen arterial partial pressure |
| Change of carbon dioxide | The blood gas analysis will be performed at minute 10, 20, 50, 90 and 100. The values will then all be compared each other. | Carbon dioxide arterial partial pressure |
| Change of Δ end expiratory lung impedance (ΔEELI) | The data will be collected at minute 10, 20, 30, 40, 50, 60, 70, 80, 90 and 100 (i.e. at the end of every step of oxygen therapy). The values obtained will then all be compared each other. | The parameter, measured with EIT, expresses deviations of the regional end-expiratory lung impedance in relation to the global tidal impedance variation. ΔEELI closely correlates with changes of end-expiratory lung volume of the EIT sensitivity region. |
| Change of respiratory rate | The parameter will be collected at minute 10, 20, 30, 40, 50, 60, 70, 80, 90 and 100 (i.e. at the end of every step of oxygen therapy). The values obtained will then all be compared each other. | Respiratory rate |
| Change of patient's comfort: modified Borg dyspnea scale | The parameter will be collected at minute 10, 20, 30, 40, 50, 60, 70, 80, 90 and 100 (i.e. at the end of every step of oxygen therapy). The values obtained will then all be compared each other. | Comfort related to the oxygen therapy will be evaluated with the modified Borg dyspnea scale (0: nothing at all, 0.5: very, very slight, 1: very slight, 2: slight, 3: moderate, 4: somewhat severe, 5: severe, 6, 7: very severe, 8, 9: very, very severe - almost maximal, 10: maximal) |
| Change of pH | The blood gas analysis will be performed at minute 10, 20, 50, 90 and 100. The values will then all be compared each other. | Arterial pH |
Countries
Italy
Outcome results
None listed