Estimation of Intrinsic Positive End-Expiratory Pressure (PEEP) in Acute Respiratory Distress Syndrome (ARDS)
| Status: | Completed |
|---|---|
| Conditions: | Hospital, Pulmonary |
| Therapuetic Areas: | Pulmonary / Respiratory Diseases, Other |
| Healthy: | No |
| Age Range: | 18 - Any |
| Updated: | 4/21/2016 |
| Start Date: | January 2004 |
| End Date: | April 2007 |
ARDS (Acute Respiratory Distress Syndrome) is a condition of severe inflammation and excess
fluids in the lungs that impairs their function of oxygen uptake to the point of needing a
ventilator (breathing machine) to help them obtain enough oxygen into the body. Because of
the high amounts of gas that the ventilator has to give to these patients, high pressures
may develop deep into the lungs and produce complications for the patient. However,
physicians sometimes cannot recognize it because it requires special equipment to measure
pressure deep in the lungs. The goal of this study is to determine if the amount of this
pressure can be calculated using mathematical formulas and the routine numbers provided by
ventilators. The study consists on making the conventional measurement of this deep pressure
and at the same time calculate this same pressure from other measurements that the
ventilator routinely provides, to see if the calculated value can replace the more
complicated conventional measurement. The measurements will be done by:
1. placing a small device along the tubing connecting the patient to the ventilator;
2. giving medicines to relax the muscles (if the patient is not already receiving them);
and
3. making the ventilator hold the patient's breath for a few seconds to take measurements.
This is repeated after the breathing rate of the ventilator is increased or decreased
mildly. Risks related to the medicine to be used and the measuring maneuvers are rare but
include transient narrowing of windpipes, transiently low heart rate, blood pressure or
blood oxygen, and allergic reactions. This is not a treatment. The information obtained
during the study will be shared with the treating doctors who may find it useful to make
adjustments to the ventilator. The patient may receive no direct benefit from being in this
study; however, the findings may contribute to better care for this kind of patients in the
future.
fluids in the lungs that impairs their function of oxygen uptake to the point of needing a
ventilator (breathing machine) to help them obtain enough oxygen into the body. Because of
the high amounts of gas that the ventilator has to give to these patients, high pressures
may develop deep into the lungs and produce complications for the patient. However,
physicians sometimes cannot recognize it because it requires special equipment to measure
pressure deep in the lungs. The goal of this study is to determine if the amount of this
pressure can be calculated using mathematical formulas and the routine numbers provided by
ventilators. The study consists on making the conventional measurement of this deep pressure
and at the same time calculate this same pressure from other measurements that the
ventilator routinely provides, to see if the calculated value can replace the more
complicated conventional measurement. The measurements will be done by:
1. placing a small device along the tubing connecting the patient to the ventilator;
2. giving medicines to relax the muscles (if the patient is not already receiving them);
and
3. making the ventilator hold the patient's breath for a few seconds to take measurements.
This is repeated after the breathing rate of the ventilator is increased or decreased
mildly. Risks related to the medicine to be used and the measuring maneuvers are rare but
include transient narrowing of windpipes, transiently low heart rate, blood pressure or
blood oxygen, and allergic reactions. This is not a treatment. The information obtained
during the study will be shared with the treating doctors who may find it useful to make
adjustments to the ventilator. The patient may receive no direct benefit from being in this
study; however, the findings may contribute to better care for this kind of patients in the
future.
Intrinsic PEEP (Positive-End Expiratory Pressure) was measured by end-expiratory occlusion
method and estimated using formulas derived from measured expiratory flows and a postulated
linear pressure-flow relationship during expiration in passive ARDS patients. Agreement
between measured and estimated intrinsic PEEP was analyzed by Bland and Altman's method.
method and estimated using formulas derived from measured expiratory flows and a postulated
linear pressure-flow relationship during expiration in passive ARDS patients. Agreement
between measured and estimated intrinsic PEEP was analyzed by Bland and Altman's method.
Inclusion Criteria:
- Patients 18 years of age or older with diagnosis of ARDS, as defined by the American-
European Consensus Conference 4
- Receiving mechanical ventilation.
- Presence of autoPEEP by inspection of flow-time waveforms displayed by the mechanical
ventilator.
Exclusion Criteria:
- Known or suspected diagnosis of COPD or airflow limitation.
- Next of kin not available to consent.
- Contraindication to receive a muscle relaxant when measurements may be inaccurate
without its administration.
- Pregnancy
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