RCT of Mesh Versus Jet Nebulizers on Clinical Outcomes During Mechanical Ventilation in the Intensive Care Unit
| Status: | Completed |
|---|---|
| Conditions: | Pulmonary |
| Therapuetic Areas: | Pulmonary / Respiratory Diseases |
| Healthy: | No |
| Age Range: | 1 - Any |
| Updated: | 2/7/2015 |
| Start Date: | December 2013 |
| End Date: | December 2014 |
| Contact: | Meagan N Dubosky, MS |
| Email: | meagan_dubosky@rush.edu |
| Phone: | 312-942-3345 |
Randomized Controlled Trial of Mesh Versus Jet Nebulizers on Clinical Outcomes During Mechanical Ventilation in the Intensive Care Unit
Aerosol delivery during mechanical ventilation has long been a long debated topic. As
evidence- based knowledge about the delivery of aerosol to the lungs of mechanically
ventilated patients increases, one piece of the puzzle has remained unexplored; measurement
of clinically relevant outcomes. The primary aim of this research is to compare clinical
outcomes (ventilator- associated events (VAEs), length of stay (LOS) in intensive care unit
(ICU) and total days on mechanical ventilation) when using a traditional jet nebulizer
versus a newer generation vibrating mesh nebulizer during mechanical ventilation. The
secondary aim of this research is to identify source of bacteria by obtaining cultures of
each nebulizer and ventilator circuit and plating them for colony growth and identification.
evidence- based knowledge about the delivery of aerosol to the lungs of mechanically
ventilated patients increases, one piece of the puzzle has remained unexplored; measurement
of clinically relevant outcomes. The primary aim of this research is to compare clinical
outcomes (ventilator- associated events (VAEs), length of stay (LOS) in intensive care unit
(ICU) and total days on mechanical ventilation) when using a traditional jet nebulizer
versus a newer generation vibrating mesh nebulizer during mechanical ventilation. The
secondary aim of this research is to identify source of bacteria by obtaining cultures of
each nebulizer and ventilator circuit and plating them for colony growth and identification.
This is a pilot study designed as a randomized, controlled trial comparing clinical outcomes
and contamination rates in jet nebulizers versus vibrating mesh nebulizers. The sample size
will be one of consecutive convenience over an entire year (September 2013-September 2014)
to include all seasons. The study will be performed at Rush University Medical Center
(RUMC) in Chicago, IL.
Each mechanically ventilated patient within inclusion criteria, with a physician order for
aerosol treatment, will be randomized to either the jet nebulizer or mesh nebulizer group
using SPSS computer software. The respiratory care staff will place the nebulization device
in the ventilator circuit per hospital protocol. Both devices, jet and mesh nebulizers, are
currently standard practice, therefore hospital protocol will be followed regarding
placement and administration of ordered aerosol treatment.
The study subject will remain on the device in which they were randomized to for the
duration of their hospital stay in order to obtain clinical outcome data. Study staff to be
notified of patient extubation from mechanical ventilation, discharge from intensive care
unit or expiration, this will conclude participant involvement in study. Retrospective
clinical outcome data will be obtained from study subject's electronic medical chart at
conclusion of study.
Retrospective data to include:
1. LOS in ICU (days)
2. LOS on mechanical ventilator (days)
3. Drug administration information
1. Drug and dose ordered
2. Number of treatments delivered
3. Treatment type
- Continuous
- Intermittent
4. Ventilator-Associated Tracheobronchitis (# VATs)16
a. Fever, increased volume and purulence of secretions, a positive culture
(quantitative or semi- quantitative) of a respiratory sample (tracheal aspirates or
bronchoscopic specimens), and the absence of a new or an evolving pulmonary infiltrate
in the chest x-ray in a patient on mechanical ventilation >48 hours
5. Ventilator-Associated Events in Adults15
1. Ventilator-Associated Condition (# VACs)
- After a period of stability or improvement on the ventilator, the patient has
at least one of the following indications of worsening oxygenation:
- Minimum daily FiO2 values increase ≥ 0.20 over baseline and remain at or
above that increased level for ≥ 2 calendar days. -
- Minimum daily PEEP values increase ≥ 3 cm H2O over baseline and remain at or
above that increased level for ≥ 2 calendar days.
2. Infection-related Ventilator-Associated Complication (# IVACs)
- On or after calendar day 3 of mechanical ventilation and within 2 calendar
days before or after the onset of worsening oxygenation, the patient meets
both of the following criteria:
- Temperature > 38˚ C or < 36˚ C, or white blood cell count ≥ 12,000
cells/mm3 or ≤ 4,000 cells/mm3. AND
- A new antimicrobial agent(s) is started, and is continued for ≥ 4 calendar
days.
3. Possible Ventilator-Associated Pneumonia (# Possible VAPs)
- On or after calendar day 3 of mechanical ventilation and within 2 calendar
days before or after the onset of worsening oxygenation, ONE of the following
criteria is met:
- Purulent respiratory secretions
- Positive culture
4. Probably Ventilator-Associated Pneumonia (# Probable VAPs)
- On or after calendar day 3 of mechanical ventilation and within 2 calendar
days before or after the onset of worsening oxygenation, ONE of the following
criteria is met:
- Purulent respiratory secretions (from one or more specimen collections- and
defined as for possible VAP) and one of the following (positive culture of
endotracheal aspirate, positive culture of bronchoalveolar lavage, positive
culture of lung tissue, positive culture of protected specimen brush
- One of the following without requirement for purulent respiratory secretions
(positive pleural fluid culture, positive lung histopathology, positive
diagnostic test for Legionella, positive diagnostic test on respiratory
secretions for influenza virus, respiratory syncytial virus, adenovirus,
parainfluenza virus)
The Jet Nebulizer Protocol:
- Physician order received for subject, randomization to jet nebulizer occurred.
- Jet nebulizer, Misty Max 10™ (Carefusion, CA), placed into spring loaded t-piece
between the humidifier and the ventilator (approximately 15 cm from the gas outlet).
- Aerosol treatment delivered per physician order at flow rates of 8-10 L/min.
- Jet nebulizer to be replaced every 3 days per hospital protocol.
1. Prior to every nebulizer change or every 3 days, study staff to be notified in
order to obtain cultures.
2. Cultures
- Jet Nebulizer Culture (3 plates): Sample to be collected from jet nebulizer
by running oxygen at a flow of 8-10 L/min through nebulizer (3 mL normal
saline in the reservoir) while directing the nebulizer towards plate for 1
minute. Process to be repeated for 3 different plates. Plates to be
labeled, have edges sealed with tape, be placed in biohazard bag and sent to
microbiology lab for analysis.
1. Plate 1: MacConkey agar (id gram (-) organisms)
2. Plate 2: Chocolate agar (id fastidious organisms)
3. Plate 3: Blood agar (id gram(+) and gram(-) organisms)
- Ventilator Circuit Culture: Material to be collected from rim of inspiratory
ventilator circuit at wye by rubbing a sterile swab along circuit 3x in a
circular motion. Swab to be sealed in test tube with lid and sent to lab for
analysis.
- Sputum samples: Data obtained per electronic medical chart. Sputum sample
data to be analyzed in study when ordered by physician.
- After obtaining cultures, the jet nebulizer will be replaced with new one and labeled
per hospital protocol.
- Further cultures are not necessary unless patient identified by study staff to have
VAE. (appendix A)
- Study staff to be notified of patient extubation from mechanical ventilation, discharge
from intensive care unit or expiration.
The Vibrating Mesh Nebulizer protocol:
- Physician order received for subject, randomization to vibrating mesh nebulizer
occurred.
- Aeroneb® Solo (Aerogen, Galway, Ireland) vibrating mesh nebulizer to be placed before
the heater on the "dry side" of the heater water chamber on the inspiratory ventilator
circuit.
- Aerosol treatment delivered per physician order.
- Mesh nebulizer to be replaced every 30 days per hospital protocol.
1. Prior to every nebulizer change or every 3 days, study staff to be notified in
order to obtain cultures.
2. Cultures
- Vibrating Mesh Nebulizer Culture (3 plates): Sample to be collected from
vibrating mesh nebulizer while directing the nebulizer(3 mL normal saline in
the reservoir) towards plate for 1 minute. Process to be repeated for 3
different plates. Plates to be labeled, have edges sealed with tape, be
placed in biohazard bag and sent to microbiology lab for analysis.
1. Plate 1: MacConkey agar (id gram (-) organisms)
2. Plate 2: Chocolate agar (id fastidious organisms)
3. Plate 3: Blood agar (id gram(+) and gram(-) organisms)
- Ventilator Circuit Culture: Material to be collected from rim of inspiratory
ventilator circuit at wye by rubbing a sterile swab along circuit 3x in a
circular motion. Swab to be sealed in test tube with lid and sent to lab for
analysis.
- Sputum samples: Data obtained per electronic medical chart. Sputum sample
data to be analyzed in study when ordered by physician.
- Vibrating mesh nebulizer replaced with new one and labeled per hospital protocol.
- Further cultures not necessary unless patient identified by study staff to have VAE.
(appendix A)
- Study staff to be notified immediately of patient extubation from mechanical
ventilation, discharge from intensive care unit or expiration.
and contamination rates in jet nebulizers versus vibrating mesh nebulizers. The sample size
will be one of consecutive convenience over an entire year (September 2013-September 2014)
to include all seasons. The study will be performed at Rush University Medical Center
(RUMC) in Chicago, IL.
Each mechanically ventilated patient within inclusion criteria, with a physician order for
aerosol treatment, will be randomized to either the jet nebulizer or mesh nebulizer group
using SPSS computer software. The respiratory care staff will place the nebulization device
in the ventilator circuit per hospital protocol. Both devices, jet and mesh nebulizers, are
currently standard practice, therefore hospital protocol will be followed regarding
placement and administration of ordered aerosol treatment.
The study subject will remain on the device in which they were randomized to for the
duration of their hospital stay in order to obtain clinical outcome data. Study staff to be
notified of patient extubation from mechanical ventilation, discharge from intensive care
unit or expiration, this will conclude participant involvement in study. Retrospective
clinical outcome data will be obtained from study subject's electronic medical chart at
conclusion of study.
Retrospective data to include:
1. LOS in ICU (days)
2. LOS on mechanical ventilator (days)
3. Drug administration information
1. Drug and dose ordered
2. Number of treatments delivered
3. Treatment type
- Continuous
- Intermittent
4. Ventilator-Associated Tracheobronchitis (# VATs)16
a. Fever, increased volume and purulence of secretions, a positive culture
(quantitative or semi- quantitative) of a respiratory sample (tracheal aspirates or
bronchoscopic specimens), and the absence of a new or an evolving pulmonary infiltrate
in the chest x-ray in a patient on mechanical ventilation >48 hours
5. Ventilator-Associated Events in Adults15
1. Ventilator-Associated Condition (# VACs)
- After a period of stability or improvement on the ventilator, the patient has
at least one of the following indications of worsening oxygenation:
- Minimum daily FiO2 values increase ≥ 0.20 over baseline and remain at or
above that increased level for ≥ 2 calendar days. -
- Minimum daily PEEP values increase ≥ 3 cm H2O over baseline and remain at or
above that increased level for ≥ 2 calendar days.
2. Infection-related Ventilator-Associated Complication (# IVACs)
- On or after calendar day 3 of mechanical ventilation and within 2 calendar
days before or after the onset of worsening oxygenation, the patient meets
both of the following criteria:
- Temperature > 38˚ C or < 36˚ C, or white blood cell count ≥ 12,000
cells/mm3 or ≤ 4,000 cells/mm3. AND
- A new antimicrobial agent(s) is started, and is continued for ≥ 4 calendar
days.
3. Possible Ventilator-Associated Pneumonia (# Possible VAPs)
- On or after calendar day 3 of mechanical ventilation and within 2 calendar
days before or after the onset of worsening oxygenation, ONE of the following
criteria is met:
- Purulent respiratory secretions
- Positive culture
4. Probably Ventilator-Associated Pneumonia (# Probable VAPs)
- On or after calendar day 3 of mechanical ventilation and within 2 calendar
days before or after the onset of worsening oxygenation, ONE of the following
criteria is met:
- Purulent respiratory secretions (from one or more specimen collections- and
defined as for possible VAP) and one of the following (positive culture of
endotracheal aspirate, positive culture of bronchoalveolar lavage, positive
culture of lung tissue, positive culture of protected specimen brush
- One of the following without requirement for purulent respiratory secretions
(positive pleural fluid culture, positive lung histopathology, positive
diagnostic test for Legionella, positive diagnostic test on respiratory
secretions for influenza virus, respiratory syncytial virus, adenovirus,
parainfluenza virus)
The Jet Nebulizer Protocol:
- Physician order received for subject, randomization to jet nebulizer occurred.
- Jet nebulizer, Misty Max 10™ (Carefusion, CA), placed into spring loaded t-piece
between the humidifier and the ventilator (approximately 15 cm from the gas outlet).
- Aerosol treatment delivered per physician order at flow rates of 8-10 L/min.
- Jet nebulizer to be replaced every 3 days per hospital protocol.
1. Prior to every nebulizer change or every 3 days, study staff to be notified in
order to obtain cultures.
2. Cultures
- Jet Nebulizer Culture (3 plates): Sample to be collected from jet nebulizer
by running oxygen at a flow of 8-10 L/min through nebulizer (3 mL normal
saline in the reservoir) while directing the nebulizer towards plate for 1
minute. Process to be repeated for 3 different plates. Plates to be
labeled, have edges sealed with tape, be placed in biohazard bag and sent to
microbiology lab for analysis.
1. Plate 1: MacConkey agar (id gram (-) organisms)
2. Plate 2: Chocolate agar (id fastidious organisms)
3. Plate 3: Blood agar (id gram(+) and gram(-) organisms)
- Ventilator Circuit Culture: Material to be collected from rim of inspiratory
ventilator circuit at wye by rubbing a sterile swab along circuit 3x in a
circular motion. Swab to be sealed in test tube with lid and sent to lab for
analysis.
- Sputum samples: Data obtained per electronic medical chart. Sputum sample
data to be analyzed in study when ordered by physician.
- After obtaining cultures, the jet nebulizer will be replaced with new one and labeled
per hospital protocol.
- Further cultures are not necessary unless patient identified by study staff to have
VAE. (appendix A)
- Study staff to be notified of patient extubation from mechanical ventilation, discharge
from intensive care unit or expiration.
The Vibrating Mesh Nebulizer protocol:
- Physician order received for subject, randomization to vibrating mesh nebulizer
occurred.
- Aeroneb® Solo (Aerogen, Galway, Ireland) vibrating mesh nebulizer to be placed before
the heater on the "dry side" of the heater water chamber on the inspiratory ventilator
circuit.
- Aerosol treatment delivered per physician order.
- Mesh nebulizer to be replaced every 30 days per hospital protocol.
1. Prior to every nebulizer change or every 3 days, study staff to be notified in
order to obtain cultures.
2. Cultures
- Vibrating Mesh Nebulizer Culture (3 plates): Sample to be collected from
vibrating mesh nebulizer while directing the nebulizer(3 mL normal saline in
the reservoir) towards plate for 1 minute. Process to be repeated for 3
different plates. Plates to be labeled, have edges sealed with tape, be
placed in biohazard bag and sent to microbiology lab for analysis.
1. Plate 1: MacConkey agar (id gram (-) organisms)
2. Plate 2: Chocolate agar (id fastidious organisms)
3. Plate 3: Blood agar (id gram(+) and gram(-) organisms)
- Ventilator Circuit Culture: Material to be collected from rim of inspiratory
ventilator circuit at wye by rubbing a sterile swab along circuit 3x in a
circular motion. Swab to be sealed in test tube with lid and sent to lab for
analysis.
- Sputum samples: Data obtained per electronic medical chart. Sputum sample
data to be analyzed in study when ordered by physician.
- Vibrating mesh nebulizer replaced with new one and labeled per hospital protocol.
- Further cultures not necessary unless patient identified by study staff to have VAE.
(appendix A)
- Study staff to be notified immediately of patient extubation from mechanical
ventilation, discharge from intensive care unit or expiration.
Inclusion Criteria:
- Age > 1 y/o
- Intubated with endotracheal tube (ETT) and on mechanical ventilation
- Patient in all intensive care units at Rush University Medical Center
- Physician order for aerosolized breathing treatment in medical record
Exclusion Criteria:
- Age < 1 y/o
- Diaphragmatic paralysis
- Paraplegic or high spinal cord injury
- Brain death
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