Clinical Trials Directory

Trials / Recruiting

RecruitingNCT06494085

Pressure Muscle Index and Threshold of Over-assistance During Pressure Support Ventilation

PressUre-Muscle-index to Identify Patient's Desired Tidal Volume and the Threshold of Over-Assistance During Pressure Support Ventilation

Status
Recruiting
Phase
Study type
Observational
Enrollment
20 (estimated)
Sponsor
Unity Health Toronto · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

Pressure support ventilation (PSV) is used to assist the breathing of the intubated patient with some pressure from the ventilator. This support aims at avoiding excessive inspiratory effort, while ensuring a certain degree of training of the patient's inspiratory muscle. Avoiding both minimal and excessive assistance is thus important for the optimal care of the intubated patient ensuring a lung and diaphragm protective ventilation with the goal to liberate the patient from the ventilator as soon as possible. Recently pressure-muscle-index (PMI), an index of inspiratory effort easy to be measured on the ventilator screen, has been proposed to avoid excessive assistance in PSV. This will be the first prospective study testing the effects of setting pressure support based on PMI to avoid excessive assistance on patients recovering from acute lung injury (acute hypoxemic respiratory failure).

Detailed description

First, for each patient enrolled the investigators will perform 1 inspiratory and 3 expiratory occlusions separated at least by 30 seconds at clinical PSV to measure respiratory mechanics (plateau pressure \[Pplat\] and respiratory system compliance \[Crs\] and elastance \[Ers\]) and inspiratory effort and drive (Pocc, P0.1, PMI) and Vt expressed in ml/Kg of predicted body weight. Second, if PMI≥0 at baseline, the investigators will set Pressure Support (PS) so that positive end-expiratory pressure (PEEP) +PS (i.e. Peak pressure \[Ppeak\]) equals Pplat measured at baseline, in order to make PMI=0. If PMI\<0 at baseline, the investigators will set PS so that PEEP+PS equals Pplat measured at baseline, then the investigators will perform an inspiratory occlusion and repeat the procedure until PMI=0. The PS level at which PMI=0 (PSPMI=0) and the corresponding breathing pattern (tial volume \[Vt\] and respiratory rate \[RR\]) will be used as reference for the study protocol. After 5 minutes at PSPMI=0 the investigators will perform 3 inspiratory and 3 expiratory occlusions separated at least by 30 seconds. Third, each patient will undergo 3 steps of PS above (+2, +4, +6 cmH2O) and 3 below (-2, -4, -6 cmH2O) PSPMI=0 in a randomized order. Steps will be randomized using a simple sequence written within envelopes opened blindly by the investigators. Each step will last 5 minutes or less if poorly tolerated (see tolerance rules below). At the end of each step the investigators will perform 1 inspiratory occlusion and 3 expiratory occlusions. Each of the expiratory occlusion will be separated by 30 seconds in order to restore the patient's breathing pattern. The investigators will resume a 3-minutes clinical PS in between each step to minimize changes in PaCO2. If not yet comprised by the study steps each patient will undergo an adjunctive 5 minutes step at PS 0 (zero) cmH2O. The study protocol will last approximately 60 minutes. The patient will be continuously monitored by a physician and a respiratory therapist. At the end of the study, if different from clinically set PS, the investigators will propose clinicians to adjust the PS to target PMI\>0 and a lung and diaphragm protective ventilation strategy following current literature. Data about PS setting at the end of the study will be recorded in the case report form. Tolerance rules: Protocol will be stopped if: heart rate \>140 beats/min; increase in respiratory rate by 50% or more if not explained by ineffective effort; hypotension \[systolic blood pressure \<90 mmHg\] or hypertension \[systolic blood pressure \>180 mmHg\]; peripheral arterial oxygen saturation \<90% for 5 minutes; excessive use of accessory respiratory muscles, diaphoresis, agitation, and the appearance of major abdominal or thoracic paradoxical movements. If apnea would appear at high PS levels (as described as overassistance), the PS will be decreased to the next lower level. PS will be set to not exceed a Ppeak of 30 cmH2O or a Vt of 12 mL/kg of predicted bodyweight

Conditions

Interventions

TypeNameDescription
OTHERMeasuring Respiratory MechanicsFirst, for each patient enrolled we will perform inspiratory and expiratory occlusions - routinely performed diagnostic maneuvers to measure patient's breathing effort - at the clinically set level of breathing assistance by the mechanical ventilator. Importantly, we will measure pressure-muscle-index (PMI). Second, we will set the level of assistance (i.e. pressure support, PS) in order to make PMI=0. The PS level at which PMI=0 (PS PMI=0) will be used as reference for the study protocol. After 5 minutes at PS PMI=0 we will perform inspiratory and expiratory occlusions.
OTHERRandomized Pressure Support3 steps of PS above (+2, +4, +6 cmH2O) and 3 below (-2, -4, -6 cmH2O) PSPMI=0 done in a randomized order (sequence in envelopes opened blindly by the investigators). Each step will last ≤5 minutes if poorly tolerated (see tolerance rule in description). At the end of each step we will perform 1 inspiratory occlusion and 3 expiratory occlusions. Each of the expiratory occlusion will be separated by 30 seconds in order to restore the patient's breathing pattern. We will resume a 3-minutes clinical PS in between each step to minimize changes in PaCO2. If not yet comprised by the study steps each patient will undergo an adjunctive 5 minutes step at PS 0 (zero) cmH2O.

Timeline

Start date
2024-10-04
Primary completion
2026-02-28
Completion
2026-02-28
First posted
2024-07-10
Last updated
2025-05-20

Locations

1 site across 1 country: Canada

Source: ClinicalTrials.gov record NCT06494085. Inclusion in this directory is not an endorsement.