Selecting the Best Ventilator Hyperinflation Settings (VHI1)
2017년 10월 27일 업데이트: Fernando Silva Guimaraes, Centro Universitário Augusto Motta
Selecting the Best Ventilator Hyperinflation Settings Based on Physiologic Markers: Randomized Controlled Study
Ventilator hyperinflation (VHI) has been shown to be effective in improving respiratory mechanics, secretion removal, and gas exchange in mechanically ventilated patients; however, there are no recommendations on the best ventilator settings to perform the technique.
Thus, the aim of this study was to compare six modes of VHI, concerning physiological markers of efficacy and safety criteria, in order to support the optimal VHI settings selection for mechanically ventilated patients.
In a randomized, controlled and crossover study, 30 mechanically ventilated patients underwent 6 modes of ventilator hyperinflation.
The maximum expansion (tidal volume), expiratory flow bias criteria (inspiratory and expiratory flow patterns), overdistension (alveolar pressure), asynchronies and hemodynamic variables (mean arterial pressure and heart rate) were assessed during the interventions.
연구 개요
상세 설명
Background: Ventilator Hyperinflation (VHI) has been shown to be effective in improving respiratory mechanics, secretion removal, and gas exchange in mechanically ventilated patients; however, there are no recommendations on the best ventilator settings to perform the technique. Thus, the aim of this study was to compare six modes of VHI, concerning physiological markers of efficacy and safety criteria, in order to support the optimal VHI settings selection for mechanically ventilated patients.
Methods: In a crossover study, every included mechanically ventilated patient underwent six modes of VHI in a randomized order: Volume Control Continuous Mandatory Ventilation (VC-CMV) with inspiratory flow = 20Lpm (VC-CMV20), VC-CMV with inspiratory flow = 50Lpm (VC-CMV50), Pressure Control Continuous Mandatory Ventilation (PC-CMV) with inspiratory time = 1s. (PC-CMV1), PC-CMV with inspiratory time = 3s. (PC-CMV3), Pressure Support Ventilation (PSV) with cycling off = 10% of peak inspiratory flow (PSV10), and PSV with cycling off = 25% of peak inspiratory flow (PSV25). The maximum expansion (tidal volume), expiratory flow bias criteria (inspiratory and expiratory flow patterns), over-distension (alveolar pressure), asynchronies and hemodynamic variables (mean arterial pressure and heart rate) were assessed during the interventions.
연구 유형
중재적
등록 (실제)
30
단계
- 해당 없음
참여기준
연구원은 적격성 기준이라는 특정 설명에 맞는 사람을 찾습니다. 이러한 기준의 몇 가지 예는 개인의 일반적인 건강 상태 또는 이전 치료입니다.
자격 기준
공부할 수 있는 나이
18년 (성인, 고령자)
건강한 자원 봉사자를 받아들입니다
아니
연구 대상 성별
모두
설명
Inclusion Criteria:
- Patients under mechanical ventilation for more than 48h
Exclusion Criteria:
- mucus hypersecretion (defined as the need for suctioning < 2-h intervals),
- absence of respiratory drive,
- atelectasis,
- severe bronchospasm,
- positive end expiratory pressure > 10cmH2O,
- PaO2-FiO2 relationship < 150,
- mean arterial pressure < 60mmHg,
- inotrope requirement equivalent to >15 ml/h total of adrenaline and noradrenalin,
- intracranial pressure > 20mmHg
공부 계획
이 섹션에서는 연구 설계 방법과 연구가 측정하는 내용을 포함하여 연구 계획에 대한 세부 정보를 제공합니다.
연구는 어떻게 설계됩니까?
디자인 세부사항
- 주 목적: 치료
- 할당: 무작위
- 중재 모델: 크로스오버 할당
- 마스킹: 하나의
무기와 개입
참가자 그룹 / 팔 |
개입 / 치료 |
|---|---|
|
간섭 없음: BASELINE
The subjects were kept in their current ventilatory mode.
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실험적: VC-CMV20
Application of a ventilator hyperinflation intervention with Volume Control Continuous Mandatory Ventilation (VC-CMV) with an inspiratory flow of 20Lpm.
|
Application of a ventilator hyperinflation intervention with Volume Control Continuous Mandatory Ventilation (VC-CMV).
The inspiratory flow was set at 20Lpm and the tidal volume was increased in steps of 200mL until the peak airway pressure of 40cmH2O was achieved.
After achieving the target pressure, this ventilatory regimen lasted 15 minutes.
Positive end expiratory pressure and the inspired oxygen fraction were not modified.
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|
실험적: VC-CMV50
Application of a ventilator hyperinflation intervention with Volume Control Continuous Mandatory Ventilation (VC-CMV) with an inspiratory flow of 50Lpm.
|
Application of a ventilator hyperinflation intervention with Volume Control Continuous Mandatory Ventilation (VC-CMV).
The inspiratory flow was set at 50Lpm and the tidal volume was increased in steps of 200mL until the peak airway pressure of 40cmH2O was achieved.
After achieving the target pressure, this ventilatory regimen lasted 15 minutes.
Positive end expiratory pressure and the inspired oxygen fraction were not modified.
|
|
실험적: PC-CMV1
Application of a ventilator hyperinflation intervention with Pressure Control Continuous Mandatory Ventilation (PC-CMV1) with an inspiratory time of 1 second.
|
Application of a ventilator hyperinflation intervention with Pressure Control Continuous Mandatory Ventilation (PC-CMV1).
The inspiratory time was set at 1 second and the pressure control was increased until a peak pressure of 40cmH2O was achieved.
After achieving the target pressure, this ventilatory regimen lasted 15 minutes.
Positive end expiratory pressure and the inspired oxygen fraction were not modified.
|
|
실험적: PC-CMV3
Application of a ventilator hyperinflation intervention with Pressure Control Continuous Mandatory Ventilation (PC-CMV1) with an inspiratory time of 3 seconds.
|
Application of a ventilator hyperinflation intervention with Pressure Control Continuous Mandatory Ventilation (PC-CMV1).
The inspiratory time was set at 3 seconds and the pressure control was increased until a peak pressure of 40cmH2O was achieved.
After achieving the target pressure, this ventilatory regimen lasted 15 minutes.
Positive end expiratory pressure and the inspired oxygen fraction were not modified.
|
|
실험적: PSV10
Application of a ventilator hyperinflation intervention with Pressure Support Ventilation (PSV) with a cycling off of 10% of peak inspiratory flow.
|
Application of a ventilator hyperinflation intervention with Pressure Support Ventilation (PSV).
The cycling off was set at 10% of peak inspiratory flow and the pressure support was increased until a peak pressure of 40cmH2O was achieved.
After achieving the target pressure, this ventilatory regimen lasted 15 minutes.
Positive end expiratory pressure and the inspired oxygen fraction were not modified.
|
|
실험적: PSV25
Application of a ventilator hyperinflation intervention with Pressure Support Ventilation (PSV) with a cycling off of 25% of peak inspiratory flow.
|
Application of a ventilator hyperinflation intervention with Pressure Support Ventilation (PSV).
The cycling off was set at 25% of peak inspiratory flow and the pressure support was increased until a peak pressure of 40cmH2O was achieved.
After achieving the target pressure, this ventilatory regimen lasted 15 minutes.
Positive end expiratory pressure and the inspired oxygen fraction were not modified.
|
연구는 무엇을 측정합니까?
주요 결과 측정
결과 측정 |
측정값 설명 |
기간 |
|---|---|---|
|
Peak inspiratory to expiratory flow ratio
기간: Ten minutes after the onset of intervention.
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Dichotomous variable, defined as achieving a peak inspiratory flow rate (PIFR) less than 90% of the peak expiratory flow rate (PEFR)
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Ten minutes after the onset of intervention.
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Peak expiratory flow higher than 40 Lpm
기간: Ten minutes after the onset of intervention.
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Dichotomous variable, defined as achieving a PEFR higher than 40 l/min
|
Ten minutes after the onset of intervention.
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Difference between peak inspiratory and expiratory flows.
기간: Ten minutes after the onset of intervention.
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Dichotomous variable, defined as achieving a difference higher than 17Lpm.
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Ten minutes after the onset of intervention.
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Pulmonary expansion
기간: Ten minutes after the onset of intervention.
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Percentage of tidal volume above the normal tidal volume (estimated as 6mL/kg).
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Ten minutes after the onset of intervention.
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2차 결과 측정
결과 측정 |
측정값 설명 |
기간 |
|---|---|---|
|
Mean arterial pressure
기간: Ten minutes after the onset of intervention.
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Mean arterial pressure verified using the multi-parameter monitor.
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Ten minutes after the onset of intervention.
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Heart Rate
기간: Ten minutes after the onset of intervention.
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Heart rate verified using the multi-parameter monitor.
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Ten minutes after the onset of intervention.
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공동 작업자 및 조사자
여기에서 이 연구와 관련된 사람과 조직을 찾을 수 있습니다.
수사관
- 연구 의자: FERNANDO S GUIMARAES, PhD, Centro Universitário Augusto Motta
간행물 및 유용한 링크
연구에 대한 정보 입력을 담당하는 사람이 자발적으로 이러한 간행물을 제공합니다. 이것은 연구와 관련된 모든 것에 관한 것일 수 있습니다.
일반 간행물
- Berney S, Denehy L. A comparison of the effects of manual and ventilator hyperinflation on static lung compliance and sputum production in intubated and ventilated intensive care patients. Physiother Res Int. 2002;7(2):100-8. doi: 10.1002/pri.246.
- Lemes DA, Zin WA, Guimaraes FS. Hyperinflation using pressure support ventilation improves secretion clearance and respiratory mechanics in ventilated patients with pulmonary infection: a randomised crossover trial. Aust J Physiother. 2009;55(4):249-54. doi: 10.1016/s0004-9514(09)70004-2.
- Thomas PJ. The effect of mechanical ventilator settings during ventilator hyperinflation techniques: a bench-top analysis. Anaesth Intensive Care. 2015 Jan;43(1):81-7. doi: 10.1177/0310057X1504300112.
- Ntoumenopoulos G, Shannon H, Main E. Do commonly used ventilator settings for mechanically ventilated adults have the potential to embed secretions or promote clearance? Respir Care. 2011 Dec;56(12):1887-92. doi: 10.4187/respcare.01229. Epub 2011 Jun 17.
- Anderson A, Alexanders J, Sinani C, Hayes S, Fogarty M. Effects of ventilator vs manual hyperinflation in adults receiving mechanical ventilation: a systematic review of randomised clinical trials. Physiotherapy. 2015 Jun;101(2):103-10. doi: 10.1016/j.physio.2014.07.006. Epub 2014 Oct 6.
- Davies JD, Senussi MH, Mireles-Cabodevila E. Should A Tidal Volume of 6 mL/kg Be Used in All Patients? Respir Care. 2016 Jun;61(6):774-90. doi: 10.4187/respcare.04651.
- de Wit M. Monitoring of patient-ventilator interaction at the bedside. Respir Care. 2011 Jan;56(1):61-72. doi: 10.4187/respcare.01077.
연구 기록 날짜
이 날짜는 ClinicalTrials.gov에 대한 연구 기록 및 요약 결과 제출의 진행 상황을 추적합니다. 연구 기록 및 보고된 결과는 공개 웹사이트에 게시되기 전에 특정 품질 관리 기준을 충족하는지 확인하기 위해 국립 의학 도서관(NLM)에서 검토합니다.
연구 주요 날짜
연구 시작 (실제)
2016년 7월 1일
기본 완료 (실제)
2017년 8월 1일
연구 완료 (실제)
2017년 8월 1일
연구 등록 날짜
최초 제출
2017년 10월 27일
QC 기준을 충족하는 최초 제출
2017년 10월 27일
처음 게시됨 (실제)
2017년 10월 31일
연구 기록 업데이트
마지막 업데이트 게시됨 (실제)
2017년 10월 31일
QC 기준을 충족하는 마지막 업데이트 제출
2017년 10월 27일
마지막으로 확인됨
2017년 10월 1일
추가 정보
이 정보는 변경 없이 clinicaltrials.gov 웹사이트에서 직접 가져온 것입니다. 귀하의 연구 세부 정보를 변경, 제거 또는 업데이트하도록 요청하는 경우 register@clinicaltrials.gov. 문의하십시오. 변경 사항이 clinicaltrials.gov에 구현되는 즉시 저희 웹사이트에도 자동으로 업데이트됩니다. .
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