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Mechanical Ventilator Adjustments and Patient Dyspnea

2026年7月8日 更新者:Elias Baedorf Kassis、Beth Israel Deaconess Medical Center

The Influence of Standard Ventilator Setting Adjustments on Dyspnea Experienced in Awake Mechanically-ventilated Patients: A Pilot Study

In the past 5 years, there are increasing data suggesting that patients treated with mechanical ventilation experience shortness of breath, despite appropriate sedation. This adverse experience is believed to contribute to the finding that up to 25% of patients who survive severe respiratory diseases experience mental health problems including post traumatic distress syndrome (PTSD). The purpose of this study is to evaluate if/how sequential changes in the delivery of mechanical ventilation affect shortness of breath sensation in awake patients requiring mechanical ventilation. Improving the knowledge of the impact of the patient-ventilator interaction on shortness of breath sensation may lead to strategies to improve the comfort of non-sedated and sedated ventilated patients, and thereby reduce mental health sequelae in survivors of acute severe respiratory diseases The investigators hypothesize that current ventilator strategies, particularly reduced tidal volume (size of breath given by the ventilator) utilized in managing patients with severe respiratory diseases, contribute to shortness of breath in patients with increased drive to breathe. In this setting, some safe ventilator changes may improve or worsen the shortness of breath sensation in awake patients on mechanical ventilation.

調査の概要

詳細な説明

For patients who develop acute respiratory failure, endotracheal tube (ETT) intubation and mechanical ventilation represent a potentially life-saving intervention to provide support for breathing and allow the opportunity for lungs to recover from critical illness. Current standard practice for mechanical ventilation varies, and includes selecting mechanical ventilator mode (including volume-cycled or pressure-cycled), and routine adjustments of ventilator settings [including settings such as flow rate, tidal volume (Vt), positive end-expiratory pressure (PEEP)].

To assess and confirm the choice of mechanical ventilator settings for each patient, current standard practice includes monitoring vital signs, lung mechanics, observed use of accessory respiratory/breathing muscles by the patient, non-invasive measurement of percent oxygen saturation of the blood (SpO2), and direct blood sample analysis (including arterial or venous blood gas tests). However, direct assessment of patient breathing comfort, or the presence of breathing discomfort (i.e. dyspnea), is not routinely performed in mechanically ventilated patients, and represents a significant knowledge gap.

Dyspnea is a common symptom in hospitalized patients, but the incidence, prevalence and severity of dyspnea in mechanically ventilated ICU patients is incompletely understood. Dyspnea is a common symptom among hospitalized patients. It is defined by American Thoracic Society as "a term used to characterize a subjective experience of breathing discomfort that consists of qualitative distinct sensations that may vary in intensity. The experience derives from interaction among multiple physiological, psychological, social and environmental factors, and may induce secondary physiological and behavioral responses".

Limited publications suggest that up to 50% of intubated patients experience moderate-to-severe dyspnea during ICU admission (data limited to patients who are able to communicate), and survivors of critical illness acute respiratory failure report post-traumatic stress disorder (PTSD), and dyspnea symptoms other mental health problems commonly associated with including nightmares and flashbacks.

Dyspnea assessment in intubated and mechanically ventilated patients represents a substantial challenge. For patients with acute critical illness requiring intubation and mechanical ventilation, treatment often also requires a heavy significant level of analgosedation to provide patient comfort, but while rendering the patient non-communicative.

The purpose of this protocol is to perform a pilot investigation, a prospective, single center, multiple ICU, randomized, blinded, clinical study to assess the impact of standard ventilator setting adjustments on breathing discomfort experienced by intubated patients recovering from acute respiratory failure. This study will focus on adults who remain intubated (endotracheal tube; ETT), mechanically ventilated, but are awake and can effectively communicate by non-verbal means.

Data collection will focus on assessment for the presence or absence of patient-reported dyspnea at baseline, and following transitioning to a standard mechanical ventilator mode (VC/AC), and then during various standard adjustments of mechanical ventilator settings (including tidal volume, PEEP, and oxygen flow rate). Adjustments for each setting will include a specified pre-determined number of adjustments that reflect standard-of-care, followed by an assessment of patient-reported dyspnea over the course of 3 minutes at each setting adjustment.

For the purposes of this study, randomization refers to the sequence of changes in ventilator settings for each patient. All ventilator adjustments will be performed in the presence of a physician and respiratory therapist. Dyspnea will be assessed using standard validated tools (including Dyspnea modified multidimensional scale, and Dyspnea Quality Scale). Data will be collected on standardized form. The pilot study plan to enroll a total of 20 patients over a period of 6 months, including patients receiving care in any one of the BIDMC intensive care units, and each patients will be evaluated over the course of "30 minutes to 2 hours" for the purposes of this protocol.

Data from this pilot study will improve understanding of dyspnea associated with intubation and mechanical ventilation, and inform on design of future studies focusing on the management of patients with acute respiratory failure and requiring intubation and mechanical ventilation.

研究の種類

介入

入学 (推定)

20

段階

  • 適用できない

連絡先と場所

このセクションには、調査を実施する担当者の連絡先の詳細と、この調査が実施されている場所に関する情報が記載されています。

研究連絡先

研究連絡先のバックアップ

研究場所

    • Massachusetts
      • Boston、Massachusetts、アメリカ、02215
        • Beth Israel Deaconess Medical Center

参加基準

研究者は、適格基準と呼ばれる特定の説明に適合する人を探します。これらの基準のいくつかの例は、人の一般的な健康状態または以前の治療です。

適格基準

就学可能な年齢

  • 大人
  • 高齢者

健康ボランティアの受け入れ

いいえ

説明

Inclusion Criteria:

  • Admitted to a participating ICU at BIDMC
  • Requiring mechanical ventilation
  • Awake by both of the following criteria
  • RASS -2 to +2*
  • CAM-ICU negative‡
  • Able to communicate/answer dyspnea questionnaire

    • RASS (Richmond Agitation-Sedation Scale) is a validated scale commonly used in the ICU to assess patient's level of sedation and agitation. It ranges from -5 to +4. While -5 means an unarousable coma, +4 means violent patient with immediate self danger. The scale from -2 to +2 ranges from light sedation to agitated.

      • CAM-ICU (Confusion Assessment Method) is an ICU validated scale used to assess the presence of delirium. A negative CAM-ICU scale has good positive and negative predictive value to diagnose or exclude delirium.

Physicians and nurses are trained to evaluate patients using both scales

Exclusion Criteria:

  • Age < 18 years old
  • Comfort measures only
  • Hemodynamic instability (MAP < 65 mmHg) or increasing requirement of vasopressor
  • PEEP > 10 cmH2O
  • FiO2 > 0.6
  • Current Prone position
  • Current Pneumothorax
  • Bronchopleural fistula
  • Neuromuscular conditions that impair responding to the dyspnea scale or expression
  • Dementia
  • Prisoners
  • Pregnant women
  • Patients intubated and ventilated for less than 12 hours during the current ventilation episode
  • pH < 7.20 or > 7.55
  • Presence of chest tube
  • Status post thoracotomy
  • Treating clinician refusal

研究計画

このセクションでは、研究がどのように設計され、研究が何を測定しているかなど、研究計画の詳細を提供します。

研究はどのように設計されていますか?

デザインの詳細

  • 主な目的:処理
  • 割り当て:なし
  • 介入モデル:単一グループの割り当て
  • マスキング:なし(オープンラベル)

武器と介入

参加者グループ / アーム
介入・治療
実験的:Mechanical Ventilator Changes

The intervention consists of changes in ventilator with evaluation of associated patient dyspnea.

The sequence of interventions will include:

  • After consenting and explaining the procedures in details, baseline dyspnea will be obtained
  • All patients will be set on volume control/assist control (VC/AC) with flow at ramp and appropriate settings to approximate their initial tidal volume, minute ventilation, respiratory rate, FiO2 and PEEP. This change is routinely performed in the ICU. Patients already on VC/AC will be kept on same settings. The investigators will check dyspnea after this initial change.
  • The following series of changes in mechanical ventilation will be instituted in a randomized sequence, lasting 3 minutes each:

    • Change in tidal volume
    • Change in inspiratory flow
    • Change in PEEP
    • Change to PSV to match their initial settings.
  • After every change the patient will rate dyspnea with an ordinal scale and Pocc and P01 will be assessed
All patients will be set on volume control/assist control (VC/AC) with flow at ramp and appropriate settings to approximate their initial tidal volume, minute ventilation, respiratory rate, FiO2 and PEEP. This change is routinely performed in the ICU. Patients already on VC/AC will be kept on same settings. The investigators will check dyspnea after this initial change.
Change in 2mL/kg (increase and/or decrease) for 3 minutes. After every change the patient will rate dyspnea with an ordinal scale and The investigators will assess occlusion pressure at the mouth at the onset of inspiration (P0.1 and Pocc).
Increase in 25% of baseline flow for 3 minutes Decrease in 25% of baseline flow for 3 minutes After every change the patient will rate dyspnea with an ordinal scale and the investigators will assess occlusion pressure at the mouth at the onset of inspiration (P0.1 and Pocc).
Change in PEEP by 5 cmH2O After every change the patient will rate dyspnea with an ordinal scale and the investigators will assess occlusion pressure at the mouth at the onset of inspiration (P0.1 and Pocc).
Change to PSV to match their initial settings. After every change the patient will rate dyspnea with an ordinal scale and The investigators will assess occlusion pressure at the mouth at the onset of inspiration (P0.1 and Pocc).

この研究は何を測定していますか?

主要な結果の測定

結果測定
メジャーの説明
時間枠
Change in dyspnea scale from baseline
時間枠:3 minutes after the change

Change in dyspnea scale when changing the following settings Increase and decrease in tidal volume Increase, decrease in flow and change in flow curve Changes in PEEP Change to PSV to match their initial settings.

We will use a modified multidimensional dyspnea scale, which includes from pleasant, neutral, slight sensation, annoying, distressing and unbearable. It also includes sensory qualities which ranges from 1 to 5 (5 being worse)

3 minutes after the change

二次結果の測定

結果測定
メジャーの説明
時間枠
Changes in dyspnea scales with change to VC/AC
時間枠:3 minutes after change

Changes in dyspnea scales with change to VC/AC from original mode

We will use a modified multidimensional dyspnea scale, which includes from pleasant, neutral, slight sensation, annoying, distressing and unbearable. It also includes sensory qualities which ranges from 1 to 5 (5 being worse)

3 minutes after change
Change in respiratory drive measured by P0.1
時間枠:3 minutes after each change

Changes in P0.1 in cmH2O with each intervention/change in ventilator setting:

Change in tidal volume Change in inspiratory flow Change in PEEP Change to PSV to match their initial settings. Original mode to VC/AC with equivalent parameters

3 minutes after each change
Change in respiratory effort measured by Pocc
時間枠:3 minutes after every change

Changes in Pocc in cmH2O with each intervention/change in ventilator setting:

Change in tidal volume Change in inspiratory flow Change in PEEP Change to PSV to match their initial settings. Original mode to VC/AC with equivalent parameters

3 minutes after every change
Changes in P0.1/Pocc ratio
時間枠:3 minutes after every change

Changes in P0.1/Pocc with each intervention/change in ventilator setting:

Change in tidal volume Change in inspiratory flow Change in PEEP Change to PSV to match their initial settings. Original mode to VC/AC with equivalent parameters

3 minutes after every change

協力者と研究者

ここでは、この調査に関係する人々や組織を見つけることができます。

捜査官

  • 主任研究者:Elias Baedorf-Kassis, MD、Beth Israel Deaconess Medical Center
  • スタディディレクター:Richard Schwartzstein, MD、Beth Israel Deaconess Medical Center

出版物と役立つリンク

研究に関する情報を入力する責任者は、自発的にこれらの出版物を提供します。これらは、研究に関連するあらゆるものに関するものである可能性があります。

一般刊行物

研究記録日

これらの日付は、ClinicalTrials.gov への研究記録と要約結果の提出の進捗状況を追跡します。研究記録と報告された結果は、国立医学図書館 (NLM) によって審査され、公開 Web サイトに掲載される前に、特定の品質管理基準を満たしていることが確認されます。

主要日程の研究

研究開始 (推定)

2026年9月1日

一次修了 (推定)

2027年6月1日

研究の完了 (推定)

2027年7月1日

試験登録日

最初に提出

2026年6月10日

QC基準を満たした最初の提出物

2026年7月8日

最初の投稿 (実際)

2026年7月14日

学習記録の更新

投稿された最後の更新 (実際)

2026年7月14日

QC基準を満たした最後の更新が送信されました

2026年7月8日

最終確認日

2026年6月1日

詳しくは

本研究に関する用語

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個々の参加者データ (IPD) を共有する予定はありますか?

はい

IPD プランの説明

De-identified individual participant data may be shared upon reasonable request and after approval by the study investigators and institutional review board, in accordance with institutional policies and participant privacy protections.

IPD 共有サポート情報タイプ

  • STUDY_PROTOCOL
  • SAP
  • ICF
  • ANALYTIC_CODE
  • CSR

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Change to VC/ACの臨床試験

3
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