J. Zeravik scite author profile

Positive pressure ventilation in patients with acute respiratory failure (ARF) may render the interpretation of central venous pressure (CVP) or pulmonary wedge pressure (PCWP) difficult as indicators of circulating volume. The preload component of cardiac (CI) and stroke index (SI) is also influenced by the increased intrathoracic pressures of positive pressure ventilation. Moreover CI and SI do not indicate volume status exclusively but also contractility and afterload. We investigated whether intrathoracic blood volume (ITBV) more accurately reflects blood volume status and the resulting oxygen transport (DO2). CVP, PCWP, cardiac (CI) and stroke index (SI) were measured, oxygen transport index (DO2I) and oxygen consumption index (VO2I) were calculated in 21 ARF-patients. Ventilatory patterns were adjusted as necessary. CI, SI and intrathoracic blood volume index (ITBVI) were derived from thermal dye dilution curves which were detected with a 5 F fiberoptic thermistor femoral artery catheter and fed into a thermal-dye-computer. All data were collected in intervals of 6 h. There were 224 data sets obtained. Linear regression analysis was performed between absolute values as well as between the 6 changes (prefix delta).(ABSTRACT TRUNCATED AT 250 WORDS)

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Time constant/volume relationship of passive expiration in mechanically ventilated ARDS patients

Guttmann¹,

Eberhard²,

Fabry³

et al. 1995

Eur Respir J

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T Ti im me e c co on ns st ta an nt t/ /v vo ol lu um me e r re el la at ti io on ns sh hi ip p o of f p pa as ss si iv ve e e ex xp pi ir ra at ti io on n i in n m me ec ch ha an ni ic ca al ll ly y v ve en nt ti il la at te ed d A AR RD DS S p pa at ti ie en nt ts s The mean values of τE for each volume slice did not differ significantly throughout expiration, averaging 690±218 ms (mean±SD of five slices and 12 patients). We show that the flow-dependent resistance of the endotracheal tube (RETT) is mainly responsible for the observed time constant homogeneity.We conclude that in ARDS patients during uninterrupted mechanical ventilation the time constants of passive expiration are markedly modified by the flow-dependent resistance of the endotracheal tube (RETT), and also by the external resistance of tubing and ventilator (REX). RETT and REX render τE about three times larger than the time constant of the patient's respiratory system alone.

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A Fiberoptics-Based System for Integrated Monitoring of Cardiac Output, Intrathoracic Blood Volume, Extravascular Lung Water, O2 Saturation, and a-v Differences

Pfeiffer¹,

Backus²,

Blümel³

et al. 1990

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Intrinsic PEEP monitored in the ventilated ARDS patient with a mathematical method

Eberhard¹,

Guttmann²,

Wolff³

et al. 1992

Journal of Applied Physiology

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Under mechanical volume-controlled ventilation, the intensive care patient can develop intrinsic positive end-expiratory pressure (iPEEP); that is, the passive expiration is terminated by the following inspiration before the alveolar pressure comes to its physical equilibrium value. We present a mathematical method to estimate this alveolar dynamic iPEEP breath by breath, without the need of a maneuver. We tested it in paralyzed patients ventilated for adult respiratory distress syndrome after multiple trauma and/or sepsis, and we compared the results obtained with the new mathematical method with those from the occlusion method introduced by Pepe and Marini. The results agreed well (median difference of 0.8 mbar in 201 investigations in 12 patients). However, the mathematically determined values, representing dynamic iPEEP, are systematically slightly smaller than those measured by the occlusion maneuver. A variation of expiratory time suggests that this difference might be due to mechanical time-constant inhomogeneity, viscoelastic processes, or other mechanisms showing time dependence.

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Maneuver-Free Determination of Compliance and Resistance in Ventilated ARDS Patients

Guttmann¹,

Eberhard²,

Wolff³

et al. 1992

Chest

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J. Zeravik

Intrathoracic blood volume accurately reflects circulatory volume status in critically ill patients with mechanical ventilation

Time constant/volume relationship of passive expiration in mechanically ventilated ARDS patients

A Fiberoptics-Based System for Integrated Monitoring of Cardiac Output, Intrathoracic Blood Volume, Extravascular Lung Water, O2 Saturation, and a-v Differences

Intrinsic PEEP monitored in the ventilated ARDS patient with a mathematical method

Maneuver-Free Determination of Compliance and Resistance in Ventilated ARDS Patients

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