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Evaluation of heavy water for indicator dilution cardiac output measurement (1989)

Schreiner, Mark S. ; Leksell, Lars G. ; Neufeld, Gordon R.

Springer

Journal of clinical monitoring and computing 5 (1989), S. 236-242

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ISSN: 1573-2614

Keywords: Monitoring: cardiac output ; Measurement techniques: indicator dilution thermodilution

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science , Medicine

Notes: Abstract We evaluated deuterium oxide (D2O) as a tracer for cardiac output measurements. Cardiac output measurements made by thermodilution were compared with those made by indicator dilution with D2O and indocyanine green as tracers. Five triplicate measurements for each method were made at intervals of 30 minutes in each of 9 anesthetized, mechanically ventilated goats. Cardiac output ranged between 0.68 and 3.79 L/min. The 45 data points yielded a correlation coefficient of 0.948 for the comparison of D2O indicator dilution cardiac output measurements with thermodilution measurements and a linear regression slope of 1.046. D2O indicator dilution measurements were biased by −0.11±0.22 L/min compared with thermodilution measurements and had a standard deviation of ±0.12 L/min for triplicate measurements. Hematocrits ranging between 20 and 50 vol% had no effect on optical density for D2O. D2O is more stable than indocyanine green and approximately one-tenth the price (40 cents per injection compared with $4). The basic instrumentation cost of approximately $9,000 is an additional initial expense, but provides the ability to perform pulmonary extravascular water measurements with a double-indicator dilution technique. D2O has potential as a tracer for the clinical determination of indicator dilution cardiac output measurements and pulmonary extravascular water measurements.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01618253

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Sensitivity of CO2 washout to changes in acinar structure in a single-path model of lung airways (1991)

Schwardt, Jeffrey D. ; Gobran, Sherif R. ; Neufeld, Gordon R. ; [et al.]

Springer

Annals of biomedical engineering 19 (1991), S. 679-697

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ISSN: 1573-9686

Keywords: Convection ; Diffusion ; Pulmonary gas exchange ; Numerical model ; Phase III slope

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Abstract A numerical solution of the convection-diffusion equation with an alveolar source term in a single-path model (SPM) of the lung airways simulates steady state CO2 washout. The SPM is used to examine the effects of independent changes in physiologic and acinar structure parameters on the slope and height of Phase III of the single-breath CO2 washout curve. The parameters investigated include tidal volume, breathing frequency, total cardiac output, pulmonary arterial CO2 tension, functional residual capacity, pulmonary bloodflow distribution, alveolar volume, total acinar airway cross sectional area, and gas-phase molecular diffusivity. Reduced tidal volume causes significant steepening of Phase III, which agrees well with experimental data. Simulations with a fixed frequency and tidal volume show that changes in blood-flow distribution, model airway cross section, and gas diffusivity strongly affect the slope of Phase III while changes in cardiac output and in pulmonary arterial CO2 tension strongly affect the height of Phase III. The paper also discusses differing explanations for the slope of Phase III, including sequential emptying, stratified inhomogeneity, and the issue of asymmetry, in the context of the SPM.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02368076

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