Individualized PEEP and Pulmonary Complications in On-Pump CABG
Effect of Individualized PEEP Guided by Driving Pressure and Mechanical Power on Postoperative Pulmonary Complications in On-Pump CABG: A Randomized Controlled Trial
Postoperative pulmonary complications (PPCs) are an important cause of morbidity and mortality after major surgery and are frequently observed in cardiac surgery patients undergoing cardiopulmonary bypass (CPB). These complications are associated with prolonged mechanical ventilation, longer intensive care unit and hospital stays, increased healthcare costs, and higher mortality (1,2).
Intraoperative lung-protective ventilation strategies have traditionally focused on individual parameters such as low tidal volume, positive end-expiratory pressure (PEEP), plateau pressure, and driving pressure. However, the effects of these parameters on postoperative pulmonary outcomes in cardiac surgery patients remain unclear. In particular, PEEP- and driving pressure-guided approaches are controversial in terms of feasibility and safety in patients undergoing CPB, who may be hemodynamically vulnerable.
Mechanical power is a comprehensive parameter that reflects the total energy delivered to the respiratory system per unit of time by integrating ventilatory variables such as tidal volume, airway pressures, respiratory rate, and flow. Therefore, mechanical power may provide a more comprehensive assessment of the mechanical load applied to the lungs compared with individual ventilatory parameters. Previous studies have reported that higher mechanical power values may be associated with lung injury, postoperative pulmonary complications, and mortality (3).
The aim of this study is to evaluate the effect of monitoring mechanical power during perioperative mechanical ventilation on postoperative pulmonary complications in patients undergoing cardiac surgery with cardiopulmonary bypass. The study hypothesis is that a mechanical power-based ventilation approach may reduce the incidence of PPCs compared with strategies based on conventional ventilation parameters.
調査の概要
状態
条件
詳細な説明
Postoperative pulmonary complications (PPCs) are an important cause of morbidity and mortality after major surgery and are frequently observed in cardiac surgery patients undergoing cardiopulmonary bypass (CPB). These complications are associated with prolonged mechanical ventilation, longer intensive care unit and hospital stays, increased healthcare costs, and higher mortality (1,2).
Intraoperative lung-protective ventilation strategies have traditionally focused on individual parameters such as low tidal volume, positive end-expiratory pressure (PEEP), plateau pressure, and driving pressure. However, the effects of these parameters on postoperative pulmonary outcomes in cardiac surgery patients remain unclear. In particular, PEEP- and driving pressure-guided approaches are controversial in terms of feasibility and safety in patients undergoing CPB, who may be hemodynamically vulnerable.
Mechanical power is a comprehensive parameter that reflects the total energy delivered to the respiratory system per unit of time by integrating ventilatory variables such as tidal volume, airway pressures, respiratory rate, and flow. Therefore, mechanical power may provide a more comprehensive assessment of the mechanical load applied to the lungs compared with individual ventilatory parameters. Previous studies have reported that higher mechanical power values may be associated with lung injury, postoperative pulmonary complications, and mortality (3).
The aim of this study is to evaluate the effect of monitoring mechanical power during perioperative mechanical ventilation on postoperative pulmonary complications in patients undergoing cardiac surgery with cardiopulmonary bypass. The study hypothesis is that a mechanical power-based ventilation approach may reduce the incidence of PPCs compared with strategies based on conventional ventilation parameters.
研究の種類
入学 (推定)
段階
- 適用できない
連絡先と場所
研究連絡先
- 名前:eralp cevikkalp
- 電話番号:905054554875
- メール:eralpcevikkalp@hotmail.com
研究連絡先のバックアップ
- 名前:İrem Aydoğmuş
- メール:driremaydogmus@hotmail.com
研究場所
-
-
nilüfer
-
Bursa、nilüfer、トルコ(Türkiye)、16000
- Bursa City Hospital
-
コンタクト:
- eralp cevikkalp
- 電話番号:905054554875
- メール:eralpcevikkalp@hotmail.com
-
-
参加基準
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
説明
Patients with ASA physical status II-III who are scheduled to undergo elective open-heart surgery via on-pump median sternotomy will be included in the study.
Patients scheduled for emergency surgery, those planned to undergo off-pump cardiac surgery, patients with a history of myocardial infarction within the last 3 months, patients with advanced COPD, patients with an ARISCAT score of 44 or higher, patients with a BMI of 35 kg/m² or higher, patients with NYHA class IV status, patients receiving preoperative immunotherapy, and patients with severe hepatic or renal failure will be excluded from the study.
研究計画
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:ランダム化
- 介入モデル:並列代入
- マスキング:トリプル
武器と介入
参加者グループ / アーム |
介入・治療 |
|---|---|
|
実験的:Mechanical Power Group
Driving pressure-guided individualized PEEP group
|
After hemodynamic stability is achieved, the ventilator will be switched to volume-controlled mode with 6 ml/kg tidal volume , and a recruitment maneuver will be performed by gradually increasing PEEP to 20 cmH₂O. Subsequently, during the decremental PEEP trial, PEEP will be reduced by 2 cmH₂O every 20 seconds down to 6 cmH₂O, and ΔP (Pplat-PEEP) will be calculated at each step. The PEEP level associated with the lowest ΔP on the ΔP-PEEP curve will be identified, a second recruitment maneuver will be performed, and PEEP will then be fixed at this level. Before sternotomy, the minimum PEEP value that provides the lowest driving pressure will be determined, and this value will be maintained throughout the perioperative period, except during cardiopulmonary bypass. |
|
他の:Lung Protective Ventilation
Conventional lung-protective ventilation group
|
In volume-controlled mechanical ventilation, tidal volume will be set at 6 mL/kg and PEEP will be fixed at 5 cmH₂O.
Ventilation will be maintained with these settings throughout the perioperative period, except during cardiopulmonary bypass.
Mechanical power values will also be calculated and recorded during all these periods.
|
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 |
|---|---|---|
|
postoperative pulmonary complications
時間枠:postoperative day 1,3,7
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Postoperative pulmonary complications, including atelectasis, pneumonia, respiratory failure, pleural effusion, pneumothorax, and bronchospasm, will be assessed according to the EPCO(European Perioperative Clinical Outcome) criteria.
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postoperative day 1,3,7
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二次結果の測定
結果測定 |
メジャーの説明 |
時間枠 |
|---|---|---|
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Inflammatory markers
時間枠:Postoperative 1., 24, 48,72 hour and day 7
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Postoperative biochemical markers, including CRP, neutrophil count, lymphocyte count, procalcitonin, white blood cell count, IL-6, and TNF-α, will be evaluated.
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Postoperative 1., 24, 48,72 hour and day 7
|
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İCU lenght of stay
時間枠:From postoperative ICU admission to ICU discharge, assessed up to 30 days
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Duration of İCU lenght of stay
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From postoperative ICU admission to ICU discharge, assessed up to 30 days
|
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Duration of mechanical ventilation
時間枠:Time from intubation to successfull extubation
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Duration of mechanical ventilation
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Time from intubation to successfull extubation
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30 day mortality
時間枠:postoperative 30 day mortality
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30 day mortality
|
postoperative 30 day mortality
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Hospital lenght of stay
時間枠:From hospital admission to hospital discharge, assessed up to 30 days
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Hospital lenght of stay
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From hospital admission to hospital discharge, assessed up to 30 days
|
協力者と研究者
スポンサー
捜査官
- スタディチェア:eralp cevikkalp、Burs City Hospital
出版物と役立つリンク
一般刊行物
- 1. Association between driving pressure and development of postoperative pulmonary complications in patients undergoing mechanical ventilation for general anaesthesia: a meta-analysis of individual patient data Neto, Ary Serpa et al. The Lancet Respiratory Medicine, Volume 4, Issue 4, 272 - 280 2. Jammer I, Wickboldt N, Sander M, Smith A, Schultz MJ, Pelosi P, Leva B, Rhodes A, Hoeft A, Walder B, Chew MS, Pearse RM; European Society of Anaesthesiology (ESA) and the European Society of Intensive Care Medicine (ESICM); European Society of Anaesthesiology; European Society of Intensive Care Medicine. Standards for definitions and use of outcome measures for clinical effectiveness research in perioperative medicine: European Perioperative Clinical Outcome (EPCO) definitions: a statement from the ESA-ESICM joint taskforce on perioperative outcome measures. Eur J Anaesthesiol. 2015 Feb;32(2):88-105. 3. Gattinoni L, Tonetti T, Cressoni M, Cadringher P, Herrmann P, Moerer O, Protti A, Gotti M, Chiurazzi C, Carlesso E, Chiumello D, Quintel M. Ventilator-related causes of lung injury: the mechanical power. Intensive Care Med. 2016 Oct;42(10):1567-1575. doi: 10.1007/s00134-016-4505-2. Epub 2016 Sep 12. PMID: 27620287. 4. Li XF, Jiang RJ, Mao WJ, Yu H, Xin J, Yu H. The effect of driving pressure-guided versus conventional mechanical ventilation strategy on pulmonary complications following on-pump cardiac surgery: A randomized clinical trial. J Clin Anesth. 2023 Oct;89:111150. doi: 10.1016/j.jclinane.2023.111150. Epub 2023 Jun 10. PMID: 37307653.
研究記録日
主要日程の研究
研究開始 (推定)
一次修了 (推定)
研究の完了 (推定)
試験登録日
最初に提出
QC基準を満たした最初の提出物
最初の投稿 (実際)
学習記録の更新
投稿された最後の更新 (実際)
QC基準を満たした最後の更新が送信されました
最終確認日
詳しくは
本研究に関する用語
キーワード
その他の研究ID番号
- 25.03.2026 2026-6/7
- 26-AKD-57 (その他の識別子:Republic of Türkiye Ministry of Health, Turkish Medicines and Medical Devices Agency)
個々の参加者データ (IPD) の計画
個々の参加者データ (IPD) を共有する予定はありますか?
IPD プランの説明
医薬品およびデバイス情報、研究文書
米国FDA規制医薬品の研究
米国FDA規制機器製品の研究
この情報は、Web サイト clinicaltrials.gov から変更なしで直接取得したものです。研究の詳細を変更、削除、または更新するリクエストがある場合は、register@clinicaltrials.gov。 までご連絡ください。 clinicaltrials.gov に変更が加えられるとすぐに、ウェブサイトでも自動的に更新されます。
心臓手術の臨床試験
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