Hemodynamic Changes during a Deep Inspiration Maneuver Predict Fluid Responsiveness in Spontaneously Breathing Patients

Preau, Sébastien; Dewavrin, Florent; Soland, Vincent; Bortolotti, Perrine; Colling, Delphine; Chagnon, Jean-Luc; Durocher, A.; Saulnier, F.

doi:10.1155/2012/191807

Cited by 28 publications

(27 citation statements)

References 31 publications

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“…Alternatively, one can require the patient to perform a deep inspiration [37] or Valsalva manoeuvre [38]. This is not to say that clinicians should ignore the presence of exaggerated cardiopulmonary interaction in this population.…”

Section: Arterial Side or Stroke Volume Based Methodsmentioning

confidence: 99%

Cardiopulmonary interactions and volume status assessment

Broccard

2012

J Clin Monit Comput

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Assessment of the hemodynamics and volume status is an important daily task for physicians caring for critically ill patients. There is growing consensus in the critical care community that the "traditional" methods-e.g., central venous pressure or pulmonary artery occlusion pressure-used to assess volume status and fluid responsiveness are not well supported by evidence and can be misleading. Our purpose is to provide here an overview of the knowledge needed by ICU physicians to take advantage of mechanical cardiopulmonary interactions to assess volume responsiveness. Although not perfect, such dynamic assessment of fluid responsiveness can be helpful particularly in the passively ventilated patients. We discuss the impact of phasic changes in lung volume and intrathoracic pressure on the pulmonary and systemic circulation and on the heart function. We review how respirophasic changes on the venous side (great veins geometry) and arterial side (e.g., stroke volume/systolic blood pressure and surrogate signals) can be used to detect fluid responsiveness or hemodynamic alterations commonly encountered in the ICU. We review the physiological limitations of this approach.

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Section: Arterial Side or Stroke Volume Based Methodsmentioning

confidence: 99%

Cardiopulmonary interactions and volume status assessment

Broccard

2012

J Clin Monit Comput

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“…Some respiratory interventions have been conducted to improve the predictability of dynamic indices for fluid responsiveness even under spontaneous breathing conditions . Hong et al evaluated whether forced inspiratory breathing could improve the reliability of PPV in predicting fluid responsiveness.…”

Section: Discussionmentioning

confidence: 99%

“…ROC analysis revealed that PPV during forced inspiratory breathing could predict fluid responsiveness even in the presence of spontaneous breathing, with a high AUC of 0.910. Preau et al found that, in spontaneously breathing patients, the changes in pulse pressure and peak systolic velocity of the femoral artery, induced by a deep inspiration manoeuvre, were significant predictors of fluid responsiveness, with a sensitivity of 90% and a specificity of 100%. Additionally, a previous study conducted by Bronzwaer et al has shown that paced breathing (6 breaths min −1 ) and expiratory resistance increased the power of SPV and PPV for predicting fluid responsiveness.…”

Section: Discussionmentioning

confidence: 99%

“…The respiratory variations in preload during normal spontaneous breathing may be too small to identify fluid responders. Recent studies have investigated some interventions, such as forced respiratory manoeuvres and expiratory resistance, to improve the predictive performance of dynamic indices even in spontaneously breathing patients, but have found conflicting results …”

Section: Introductionmentioning

confidence: 99%

“…Recent studies have investigated some interventions, such as forced respiratory manoeuvres and expiratory resistance, to improve the predictive performance of dynamic indices even in spontaneously breathing patients, but have found conflicting results. [10][11][12] We hypothesized that deep breathing would increase the respiratory variations of ventricular preload, and thus improve the reliability of dynamic indices in predicting fluid responsiveness, even under spontaneous breathing conditions. To test this hypothesis, we investigated the ability of SVV during deep breathing to discriminate fluid responders among spontaneously breathing surgical patients.…”

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confidence: 99%

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Impact of deep breathing on predictability of stroke volume variation in spontaneous breathing patients

Mukai

Suehiro

Kimura

et al. 2020

Acta Anaesthesiol Scand

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Background This study investigated the ability of stroke volume variation (SVV) during deep breathing to discriminate fluid responders among spontaneously breathing patients. Methods Thirty patients undergoing general anaesthesia were enrolled and assessed before anaesthetic induction. Haemodynamic variables, including stroke volume (SV) and SVV, were measured using the ClearSight system during normal breathing. After these measurements, each patient was required to maintain deep breathing (6 breaths min−1) and haemodynamic variables were recorded. Then, the table was adjusted to the Trendelenburg position (15°) for 2 minutes, and haemodynamic variables were measured. Receiver operating characteristic curves were created for SVV during normal and deep breathing, and the difference in SVV between normal and deep breathing (ΔSVV) to discriminate fluid responders (SV increase >10% after changing position). The correlation between SV increase and ΔSVV was examined using Pearson's correlation coefficient. The grey zone approach was used to assess the inconclusive range of the haemodynamic variables. Results Receiver operating characteristic curve analysis indicated that ΔSVV showed good reliability in predicting fluid responsiveness (AUC: 0.850; 95% CI: 0.672‐0.953; threshold: 4%, sensitivity: 75.0%, specificity: 88.9%], while SVV during normal breathing did not (AUC: 0.579; 95% CI: 0.386‐0.756)]. Although SVV during deep breathing exhibited acceptable predictability (AUC: 0.778; 95% CI: 0.589‐0.908), the sensitivity was not good (58.3%). With the grey zone approach, the inconclusive range of ΔSVV was small with the range of 1.4%‐4.2% (23% of patients). Conclusion Deep breathing could improve the reliability of dynamic indices in spontaneously breathing patients. Trial registration UMIN‐CTR, identifer: UMIN000027970. https://upload.umin.ac.jp/cgi-open-bin/ctr/ctr_view.cgi?recptno=R000032040

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Use of invasive cardiopulmonary exercise testing to diagnose preload reserve failure in patients with liver disease

Ahlers,

Patel,

Parikh

et al. 2023

ESC Heart Failure

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In this case series, we describe the use of invasive cardiopulmonary exercise testing (iCPET) to diagnose heart failure due to preload reserve failure in two patients with progressive dyspnoea. We demonstrate that underlying liver disease contributes to preload reserve failure as a cause of exertional dysfunction. In liver diseases such as non‐alcoholic fatty liver disease (NAFLD), fibrotic changes to the sinusoidal liver architecture occur leading to an increased transhepatic sinusoidal pressure gradient. Even at the earliest stage of hepatic fibrosis in patients with NAFLD, changes in hepatic blood flow are seen due to outflow block in the sinusoidal area. In this way, changes to the sinusoidal liver architecture can lead to limitations in preload reserve. This case series describes two patients with exertional dyspnoea found to have preload failure on iCPET due to underlying liver disease.

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Hemodynamic Changes during a Deep Inspiration Maneuver Predict Fluid Responsiveness in Spontaneously Breathing Patients

Cited by 28 publications

References 31 publications

Cardiopulmonary interactions and volume status assessment

Cardiopulmonary interactions and volume status assessment

Impact of deep breathing on predictability of stroke volume variation in spontaneous breathing patients

Use of invasive cardiopulmonary exercise testing to diagnose preload reserve failure in patients with liver disease

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