Acute Respiratory Failure Clinical Trial
Official title:
Comparison of Prevention Bacterial Inhalation of Patients on Mechanical Ventilation by Using Endotracheal Tube Balloon Polyvinyl Chloride or Polyurethane
A number of techniques have been recommended for the prevention of ventilator acquired pneumonia (VAP). These techniques - such as patient positioning, continuous sub-glottic suction of the secretions, selective decontamination of the digestive tract etc… - aim at prevent the inhalation of oro-pharyngeal contaminated secretions around the cuff of the tracheal tube used for connecting the patient to the machine. Their efficacy has been regularly challenged and they are still unable to suppress totally the occurrence of VAP. The cuff of the tracheal tube used for long-term MV in the ICU is most often a low pressure high volume polyvinyl chloride (PVC) cuff in order to adhere to a large surface of the tracheal wall without inducing ischemic lesions. Recent advances allowed industrial companies to provide us with 1) polyurethane cuffs and 2) cuffs with a conic shape, both potentially offering a better tightness against inhalation at least in VITRO and in animal models. The effect on the reduction of VAP incidence has been suggested by several pilot series. The aim of the present project is to assess the efficacy of four types of cuffs (PVC with a conic or a cylinder shape and polyurethane with a conic or a cylinder shape) to prevent tracheal colonisation. We shall measure both oro-pharyngeal and tracheal colonisation during the hours and days following intubation. This will be done in 600 ICU patients of four university affiliated centres from France and Tunisia divided in 64 cluster randomized groups. The results of this research will confirm (or not) the rationale to perform a larger study designed specifically to address the impact on VAP.
Long-term mechanical ventilation (MV) is a risk factor for acquisition of bacterial
pneumonia because the tracheal tube by-passes the natural mechanisms of airway protection,
and particularly epiglottis and trachea-bronchial mucosa. Acute respiratory failure and
potential associated organ dysfunctions require that MV patients are sedated and sometimes
in strict horizontal supine position. Sedation and conscience alteration do not permit to
swallow oro-pharyngeal secretions, and horizontal position favors bacterial colonization and
secretions stagnation in the posterior part of the pharynx. These aspects favor iterative
inhalation of oro-pharyngeal secretions around the cuff of the tracheal tube. The cuff,
which principal objective is to permit the pressurization of lower respiratory tract during
the inspiratory phase by preventing air leak around the tracheal tube, allows a certain
degree of protection of the tracheal tree against micro-inhalations. Using diagnostic
criteria of Ventilator associated pneumonia (VAP) based on distal protected samples, their
incidence is around 10 per 1,000 MV-days in medical-surgical ICUs. These VAP are associated
to an attributable mortality around 25%. A number of recommendations have been established
to prevent VAP occurrence. The 45° semi-recumbent positioning of the patient 's reduces
gastro-esophageal reflux and VAP incidence. This result is limited by the fact that a 45°
inclination is not routinely obtained in every patients (30° would not give the same result
) and that several studies have shown conflicting results. The continuous suction of the
secretions above the cuff is very logical but its efficacy has been challenged, partly
because technical failures due to the occlusion of the aspiration system and because gravity
prevents the tracheal secretions clearance. The selective decontamination of the digestive
tract is effective particularly to prevent early VAP, but is limited by its potential role
in the global increase in resistance to antibiotics. Oral decontamination with Chlorhexidine
or iodine polyvidon reduce VAP. Using drugs which increases the gastric pH to prevent stress
ulcers favors gastric bacterial growth and VAP. Using gastric pro-kinetics or post-pyloric
enteral nutrition do not reduce VAP. Alternate prone positioning, has not been proven to
improve the outcome of ARDS patients but reduces the incidence of VAP, potentially because
it favors pharyngeal drainage through the mouth. The use of heat and moisture exchangers to
limit airways drying with ventilation, seems better than heat humidifiers to reduce VAP.
Recently, the use of an positive end expiratory pressure (PEEP) was shown to reduce the
volume on inhalations around the cuff. Finally, mask ventilation, by preserving upper
airways integrity, in those cases it allows a sufficient ventilation replacement, is
associated to a substantial reduction in VAP.
In those patients ventilated through an oro-tracheal tube, the rational use of the above
mentioned techniques allows to reach a low VAP incidence rate, but not to completely
eradicate these infections.
The cuffs of the tracheal tubes which are currently recommended and routinely used in
long-term (more than 2 days) ventilation are made of polyvinyl chloride and have a high
volume cylindrical shape, allowing a low pressure after inflation, designed to cover the
tracheal wall without inducing ischemic lesions of the tracheal mucosa. Such lesions are
responsible for laryngeal edema - a clinical stridor after extubation occurs in around 12%
of patients -, and rarely for granuloma and stenosis which induce sequelae which are
disabling and/or difficult to repair with surgery. The use of tube coated with antiseptics
is currently under investigation. Protection against tracheal lesions induced by the
tracheal tube requires a regular and frequent assessment of the cuff pressure over the day
and night time. Recent experimental studies showed that these cuffs are bad protectors
against micro-inhalations around the cuff. Several companies provide us with new
polyurethane cuff tubes, which physical characteristics are associated - in VITRO, on animal
tracheas, and during general anesthesia to a better tightness than polyvinyl chloride cuffs.
They also provide us with conic shaped cuffs, made out of either PVC or polyurethane.
Authors found that the Hi-Lo and the SEALGUARD cuffs have similar capabilities to prevent
against methylene blue leakage, and others did not find a preventive effect of the pressure
control of the Hi-Lo cuff against VAP. A reduction of early VAP was observed in one series
after cardiac surgery.
Our hypothesis is that the tracheal tubes with a polyurethane and/or a conic shaped cuff are
associated with a lower colonization of the tracheal tree during the days following tracheal
intubation, than tubes with a cylindrical polyvinyl chloride cuff. The patients will be
allocated to randomized clusters into four groups : 1) cylindrical PVC cuff, 2) cylindrical
polyurethane cuff, 3) conic PVC cuff and 4) conic polyurethane cuff. In the four groups, the
tubes will be inserted with the conventional technique of tracheal intubation under general
anesthesia and direct laryngoscopy, inside the ICU. The tube cuff will be immediately
inflated to a 25 cm of water or at the plateau pressure level of the ventilator in case it
is higher than 25 cm of water according to the current recommendations. The tracheal tube
will be connected to the ventilator, set in a volume or pressure control mode with a minimal
PEEP of 5 cm of water.
The research will be conducted according to the protocol, following the good clinical
practices and current recommendations about MV and Intensive Care practices proposed by the
French Society of Intensive Care Medicine (www.srlf.org) and the European Society of
Intensive Care Medicine (www.ESICM.org).
Principal endpoint(s) : quantitative assessment of bacterial colonization in the
oro-pharyngeal (above the cuff) and tracheal (below the cuff) secretions at 2 hours (H2), 1
day (D1), D2 and D3 after intubation. The collection of the secretions above and below the
cuff will allow to document the origin of the tracheal bacteria. The bacterial quantity at
each sampling will be compared between the patients groups to establish the role of the cuff
in the antibacterial protection of the lower airway.
The oro-pharyngeal and tracheal samples will be performed 2 hours after oro-pharyngeal
application of Chlorhexidine and a tracheal aspiration. Bacterial cultures will be done on
standard media and the quantitative cultures will be carried out by serial dilution of the
samples.
Secondary endpoints :
VAP occurrence : the diagnosis of VAP will be based on the positive results of a protected
specimen brush (over 103 cfu/mL) or a broncho-alveolar lavage (over 2 % infected cells or
over 104 cfu/mL). Distal bronchial samples will be performed under fiberoptic bronchoscopy
when several of the following criteria suggestive VAP will be present, corresponding to a
CPIS score at least equal to 6 : fever, new chest X-ray opacity, hyper-leucocytosis,
arterial oxygenation alteration.
Cross-over cluster randomization : an individual randomization is almost impossible to
achieve, because of the emergency setting of any decision of tracheal intubation in the ICU.
Therefore we chose to ascribe random periods during which every tracheal tubes of the ICU
will be those of the study protocol for the given period. The random plan will be different
in each participating ICU. Each ICU will have to perform periods of 10 patients. Each ICU
intend to recruit 10 patients in periods of around 2 months. The physicians in charge of the
patients will be kept blind of the bacteriological samples results. This will prevent them
to modify their clinical practices according to these results and particularly to influence
their clinical suspicion of VAP and/or stridor.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Recruiting |
NCT05144633 -
Blue Protocol and Eko Artificial Intelligence Are Best (BEA-BEST)
|
||
| Completed |
NCT04534569 -
Expert Panel Statement for the Respiratory Management of COVID-19 Related Acute Respiratory Failure (C-ARF)
|
||
| Recruiting |
NCT03021902 -
Nutrition and Exercise in Critical Illness
|
Phase 2 | |
| Completed |
NCT02902146 -
Bougie Use in Emergency Airway Management
|
N/A | |
| Completed |
NCT02901158 -
Esophageal Manometry in Mechanically Ventilated Patients
|
||
| Completed |
NCT02236559 -
High Flow Therapy for the Treatment of Respiratory Failure in the ED
|
N/A | |
| Recruiting |
NCT02056093 -
Comparison of Proportional Assist Ventilation And Neurally Adjusted Ventilator Assist
|
N/A | |
| Not yet recruiting |
NCT01668368 -
Goal Directed Mechanical Ventilation Aimed at Optimal Lung Compliance
|
N/A | |
| Terminated |
NCT01083277 -
Variable Ventilation During Acute Respiratory Failure
|
N/A | |
| Completed |
NCT01462279 -
Effect of Thiamine on Oxygen Utilization (VO2) in Critical Illness
|
N/A | |
| Active, not recruiting |
NCT01058421 -
Treatment of Critical Illness Polyneuromyopathy
|
Phase 2 | |
| Completed |
NCT00252616 -
Timing of Target Enteral Feeding in the Mechanically Ventilated Patient
|
Phase 2/Phase 3 | |
| Recruiting |
NCT04098094 -
Outcomes of RV Dysfunction in Acute Exacerbation of Chronic Respiratory Diseases
|
||
| Recruiting |
NCT06051292 -
Decremental Esophageal Catheter Filling Volume Titration For Transpulmonary Pressure Measurement
|
N/A | |
| Completed |
NCT04601090 -
Survival Rates and Longterm Outcomes After COVID-19
|
||
| Recruiting |
NCT05423301 -
Global Physiotherapy in ICU Patients With High Risk Extubation Failure
|
N/A | |
| Completed |
NCT02447692 -
Proportional Assist Ventilation for Minimizing the Duration of Mechanical Ventilation: The PROMIZING Study
|
N/A | |
| Completed |
NCT04016480 -
HFNC During Bronchoscopy for Bronchoalveolar Lavage
|
N/A | |
| Completed |
NCT04507425 -
High Flow Nasal Cannula With Noninvasive Ventilation
|
N/A | |
| Active, not recruiting |
NCT04079829 -
Postoperative Respiratory Abnormalities
|