The Open Critical Care Medicine Journal

2008, 1 : 54-62
Published online 2008 December 5. DOI: 10.2174/1874828700801010054
Publisher ID: TOCCMJ-1-54

Analysis of Sigmoidal Equations To Describe the Pulmonary Pressure- Volume Curve in Acute Respiratory Distress Syndrome

Sandra Orfao , Nadine Hochhausen , Ralf Kuhlen and Dietrich Henzler
Dalhousie University Halifax, Departments of Anesthesia and Critical Care, Queen Elisabeth II Health Sciences Centre, 10 West Victoria, 1278 South Park St., Halifax, Nova Scotia B3H 2Y9, Canada.

ABSTRACT

Pulmonary pressure-volume curves (P-V curves) of patients with acute lung injury are commonly analyzed using a parametric algorithm with symmetrical properties. Some of the aspects observed after performing nonlinear regression for two models capable of fitting symmetric, respectively asymmetric data are discussed.

One analyzed aspect was the algebraic complexity of the asymmetric model that does not allow for an estimation of the boundaries of the zone of maximal compliance directly from the parameter estimates in contrast to the symmetric model. Moreover, mathematical evidence is provided.

Using a sigmoid equation for analysis of P-V curves a systematic deviation caused by asymmetrical distribution was encountered, leading to non-robust definitions of lower and upper inflection points. Increasing the number of parameters to fit asymmetric data does not increase physiological expression.

We conclude that some of the drawbacks in using P-V curves may be attributed to imprecise analysis tools. To increase the value of P-V curves other forms of mathematical analysis should be investigated.