Intubation Intraesophageal Clinical Trial
Official title:
Comparison of Two Methods of Preoxygenation Before Oro Tracheal Intubation in the Hypoxemic Patient in Intensive Care Unit : Non Invasive Ventilation (NIV) + High Flow Nasal Cannula Oxygen Versus NIV Alone : a Randomized Controlled Study
Tracheal intubation is a challenging procedure in Intensive Care Unit (ICU), associated with severe life threatening complications. To decrease these complications, preoxygenation is recommended. Non invasive ventilation (NIV) increase effectiveness of preoxygenation, applying a positive end expiratory pressure (PEEP). High-flow nasal cannula oxygen (HFNC) improves oxygenation by increasing end-expiratory lung volume and has a potential of apneic oxygenation. The association of NIV and HFNC for preoxygenation in hypoxemic ICU patients has never been evaluated. The aim of this study is to determine if HFNC combined to NIV could have therapeutic advantages over NIV alone for preoxygenation in the ICU patients intubated for hypoxemic acute respiratory failure.
Patients admitted in Intensive Care Unit (ICU) often need respiratory support. Endotracheal
intubation procedure in ICU is associated with severe life threatening complications. In
order to decrease the incidence of complications including hypoxemia during intubation
procedure, a preoxygenation is recommended, consisting in the administration of pure oxygen
before intubation.
Recent data suggest that NIV use for preoxygenation of patients with acute respiratory
failure is associated with less hypoxemia during intubation procedure than classic
preoxygenation with facial mask. Indeed, associating Pressure Support (PS) with Positive end
expiratory pressure (PEEP) limits the alveolar collapse and atelectasis formation. NIV is
now used by a lot of of teams for preoxygenation of patients with acute respiratory failure
in ICU.
However, although NIV is effective to reduce hypoxemia during intubation procedure, NIV mask
has to be taken off after preoxygenation in order to allow the passage of the oro tracheal
tube through the mouth. The hypoxemic patient does not receive oxygen during this period,
which participates to the episodes of major hypoxemia during intubation.
In contrast, HFNC, which delivers high flow heated and humidified oxygen and air via nasal
prongs at a prescribed fraction of inspired oxygen and a maximum flow of 60 L/min can be
pursued during the intubation procedure. Some very recent studies suggest that HNFC could
allow apneic oxygenation.
Although use of HFNC combined to NIV may have potential advantages over conventional NIV for
preoxygenation before intubation in hypoxemic ICU patients, this technique of preoxygenation
has never been assessed and benefit remains to be established.
The OPTINIV study aims to compare the effects of preoxygenation with combination of NIV and
HFNC versus NIV alone on lowest oxygen saturation during intubation procedure of ICU
patients intubated for acute respiratory failure.
Study design and population The OPTINIV trial is an investigator initiated multicenter
randomized controlled two-arm blinded trial.
Local investigators screen consecutive patients intubated in ICU, with an acute respiratory
failure (respiratory rate > 25/min) and hypoxemia. Hypoxemia is defined by the need of a
fraction inspirated in oxygen (FiO2)>50% to maintain a saturation of arterial blood with
oxygen as measured by pulse oximetry (SpO2)>90% and a partial pressure of oxygen in the
arterial blood (PaO2)/FiO2 ratio<300 mmHg under mask oxygen therapy with a flow of 15L/min
(measured during the 4 hours before inclusion).
Patients fulfilling one or more of the following criteria will not be included: nonadult
patients (age <18 years), pregnant, protected persons, intubation in case of cardio
circulatory arrest, nasopharyngeal obstacle contraindicating the use of HNFC.
Ethics and consent The Institutional Review Board of the University Hospital of Montpellier
(France) approved the trial. By May 2015, the study had been approved by a central ethics
committee (Committee for the Protection of Persons, Montpellier, France) with the
registration number IDRCB 2015-A00708-41.
All patients or their next will asked for signed informed consent, as required by the
institutional review board in accordance with the Declaration of Helsinki or emergency
procedure allowed inclusion as a part of care in acute situation according the French Law.
Data collection The following data will be collected and registered before intubation:
demographic data : age, sex, weight, height, date and hour of intubation, severity scores
(Simplified Acute Physiologic Score (SAPS) II at admission, Sequential Organ Failure
Assessment (SOFA) score on the day of the procedure), type of admission, reason of admission
in ICU, indication of intubation, comorbidities, nature and number of operators, formation,
fluid loading before intubation, arterial pressure and lowest saturation, therapeutic by
vasopressor drugs or non invasive ventilation, predictive criteria of difficult intubation
(including the MACOCHA score).
During the preoxygenation, will be recorded : need to change the method of preoxygenation
and the reasons for changing, size of intubation tube, vital parameters : oxygen saturation
at the beginning and at the end of the preoxygenation, lowest saturation, lowest and highest
arterial pressure and heart rate, length and difficulty of preoxygenation.
During the intubation procedure, the following parameters will be collected : hypnotic and
neuromuscular blocker used and dose, oxygen saturation at the beginning and at the end,
lowest saturation, total length of intubation procedure, difficult intubation, number of
operators, number of attempts, Cormack grade, traction force on the laryngoscope, Sellick
manoeuver, occurrence of complications related to intubation.
After the intubation procedure (until one hour after): a thorax X-ray will be done, and
arterial blood gases. Complications related to intubation will be collected.
Length of mechanical ventilation, length of stay in ICU, mortality at day 28 will be
recorded.
Trial interventions Patients eligible for inclusion are randomly assigned to the
interventional group or to the reference group. In the interventional group, a
preoxygenation by NIV (PS of 10 cm H2O, PEEP of 5 cm H2O, FiO2 = 100%) combined to HNFC
(Flow of 60L/min, FiO2 = 100%) is applied. HFNC will applied along all the intubation
procedure including the apnea period. In the reference group, a preoxygenation by NIV only
(PS of 10 cm H2O, PEEP of 5 cm H2O, FiO2 = 100%) will be applied.
Outcomes Primary outcome variable is the lowest oxygen saturation collected by pulse
oxymetry during the intubation procedure. The intubation procedure lasts from the beginning
of the first laryngoscopy to the confirmation of the orotracheal intubation.
Secondary outcome variables are preoxygenation quality, complications related to intubation
(severe : severe hypoxemia defined by lowest saturation < 80 %, severe cardiovascular
collapse, defined as systolic blood pressure less than 65 mm Hg recorded at least one time
or less than 90 mm Hg that lasted 30 minutes despite 500-1,000 ml of fluid loading
(crystalloids or colloids solutions) or requiring introduction of vasoactive support,
cardiac arrest, death during intubation; moderate: difficult intubation, arrhythmias,
esophageal intubations, agitation, pulmonary aspiration, dental injuries), morbidity in ICU
(length of stay, length of mechanical ventilation, mortality at 28 days).
Statistical analysis Quantitative variables will be expressed as means (standard deviation)
or medians (interquartiles 25%-75%) and compared using the student t test or the Wilcoxon
test as appropriate (Gaussian or non Gaussian variables). Qualitative variables will be
compared using the chi 2 test or the Fisher test as appropriate.
A linear regression will be used to adjust the relation of lowest oxygen saturation during
intubation procedure and group of inclusion. A multivariate model will be established.
A p-value of ≤ .05 will be considered statistically significant. The statistical analysis
will be performed by the medical statistical department of the Montpellier University
Hospital with the help of statistical software (SAS, version 9.3; SAS Institute; Cary, NC
and R, version 2.14.1).
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