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Determination of functional residual capacity (FRC) by multibreath nitrogen washout in a lung model and in mechanically ventilated patients (1998)

Wrigge, H. ; Sydow, M. ; Zinserling, J. ; [et al.]

Springer

Intensive care medicine 24 (1998), S. 487-493

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ISSN: 1432-1238

Keywords: Key words Aged ; Functional residual capacity ; Lung volume measurement ; Mechanical ventilation ; Critical care ; Chronic obstructive pulmonary disease ; Acute lung injury

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective: Validation of an open-circuit multibreath nitrogen washout technique (MBNW) for measurement of functional residual capacity (FRC). The accuracy of FRC measurement with and without continuous viscosity correction of mass spectrometer delay time (TD) relative to gas flow signal and the influence of baseline FIO2 was investigated. Design: Laboratory study and measurements in mechanically ventilated patients. Setting: Experimental laboratory and anesthesiological intensive care unit of a university hospital. Patients: 16 postoperative patients with normal pulmonary function (NORM), 8 patients with acute lung injury (ALI) and 6 patients with chronic obstructive pulmonary disease (COPD) were included. Interventions: Change of FIO2 from baseline to 1.0. Measurements and main results: FRC was determined by MBNW using continuous viscosity correction of TD (TDdyn), a constant TD based on the viscosity of a calibration gas mixture (TD0) and a constant TD referring to the mean viscosity between onset and end of MBNW (TDmean). Using TDdyn, the mean deviation between 15 measurements of three different lung model FRCs (FRCmeasured) and absolute volumes (FRCmodel) was 0.2 %. For baseline FIO2 ranging from 0.21 to 0.8, the mean deviation between FRCmeasured and FRCmodel was −0.8 %. However, depending on baseline FIO2, the calculation of FRC using TDmean and TD0 increased the mean deviation between FRCmeasured and FRCmodel to 2–4 % and 8–12 %, respectively. In patients (n = 30) the average repeatability coefficient was 6.0 %. FRC determinations with TDmean and TD0 were 0.8–13.3 % and 4.2–23.9 % (median 2.7 % and 8.7 %) smaller than those calculated with TDdyn. Conclusion: A dynamic viscosity correction of TD improves the accuracy of FRC determinations by MBNW considerably, when gas concentrations are measured in a sidestream. If dynamic TD correction cannot be performed, the use of constant TDmean might be suitable. However, in patient measurements this can cause an FRC underestimation of up to 13 %.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001340050601

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Intrinsic PEEP determined by static pressure-volume curves — application of a novel automated occlusion method (1993)

Sydow, M. ; Burchardi, H. ; Zinserling, J. ; [et al.]

Springer

Intensive care medicine 19 (1993), S. 166-171

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ISSN: 1432-1238

Keywords: Intrinsic PEEP ; External PEEP ; Static compliance ; Mechanical ventilation ; Alveolar recruitment

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective Evaluation of new computer-controlled occlusion procedure for determination of intrinsic PEEP in mechanically ventilated patients and comparison with the standard end-expiratory occlusion method. Design Prospective controlled study. Setting Intensive care unit of a university hospital Patients 16 patients with acute respiratory failure of different degree and etiology. All patients were mechanically ventilated, heavily sedated and muscle paralyzed (non-depolarising relaxants). The type of ventilator, the inspiration/expiration ratio, FIO2 and PEEP were selected by the attending clinicians according to the patients' need and independently from the study. Interventions Static compliance of the respiratory system (Cstat) was determined at varying external end-expiratory pressure settings: ZEEP (=ambient pressure), PEEP of 5 cmH2O and 10 cmH2O. All other ventilator settings were kept constant during the entire procedure. Measurements and results A computer-controlled occlusion method (SCASS) was used for determination of Cstat. Intrinsic PEEP was determined by SCASS as the extrapolated zero-volume intercept of the regression line of multiple pressure/volume data pairs (PEEPSCASSinspir and PEEPSCASSexpir). Directly thereafter intrinsic PEEP in this particular ventilatory setting was determined by end-expiratory occlusions (PEPPEEO). The intrinsic PEEP values of the different methods were nearly identical with a significant correlation (p〈0.0001). Mean values±SD: PEEPSCASSinspir 7.1±4.3 cmH2O; PEEPSCASSexpir 7.1±4.5 cmH2O; PEEPEEO 7.1±4.2 cmH2O. Conclusion Since no significant difference between PEEPi values measured by the inspiratory and expiratory occlusion method (SCASS) was seen, this indicates that no alveolar recruitment occurred during the respiratory cycle. This study demonstrates that the automated occlusion method for measuring Cstat system can also be used with high accuracy for determination of intrinsic PEEP in mechanically ventilated patients.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01720534

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