A Scanographic Assessment of Pulmonary Morphology in Acute Lung Injury . Significance of the Lower Inflection Point Detected on the Lung Pressure-Volume Curve

A Scanographic Assessment of Pulmonary Morphology in Acute Lung Injury
Significance of the Lower Inflection Point Detected on the Lung Pressure-Volume Curve

SILVIA R. R. VIEIRA,^* LOUIS PUYBASSET, QIN LU, JACK RICHECOEUR, PHILIPPE CLUZEL, PIERRE CORIAT, and JEAN-JACQUES ROUBY

Surgical Intensive Care Unit, Department of Anesthesiology, and Department of Radiology (Thoracic Division), La Pitié-Salpêtrière Hospital, University of Paris VI, Paris, France

The goal of this study was to assess lung morphology in patients with acute lung injury according to the presence or the absenceof a lower inflection point (LIP) on the lung pressure-volume(P-V) curve and to compare the effects of positive end-expiratorypressure (PEEP). Eight patients with and six without an LIP underwenta spiral thoracic CT scan performed at zero end-expiratory pressure(ZEEP) and at two levels of PEEP: PEEP₁ = LIP + 2 cm H₂O and PEEP₂= LIP + 7 cm H₂O, or PEEP₁ = 10 cm H₂O and PEEP₂ = 15 cm H₂O inthe absence of an LIP. The volumes of air and tissue within thelungs were measured from the gas-tissue ratio and the volumesof overdistended and normally, poorly, and nonaerated lung areaswere determined by the analysis of the frequency histogram distribution.In the ZEEP condition, although total lung volume, volume of gas,and volume of tissue were similar in both groups, the percentageof normally aerated lung was lower (24 ± 22% versus 55 ± 12%,p < 0.05) and the percentage of poorly aerated lung was greater(40 ± 12% versus 23 ± 8%, p < 0.05) in patients with an LIP thanin patients without an LIP. Lung density histograms of patientswith an LIP showed a unimodal distribution with a peak at 7 Hounsfieldunits (HU). Lung density histograms of patients without an LIPhad a bimodal distribution, with a first peak at $-$ 727 HU and asecond peak at 27 HU. Total respiratory system and lung complianceswere lower in patients with an LIP whereas all other cardiorespiratoryparameters were similar in the two groups. In both groups, PEEPinduced an alveolar recruitment that was associated with lungoverdistension only in patients without an LIP. The amount oflung overdistension was related to the volume of lung parenchyma,characterized by a CT number less than $-$ 800 HU before PEEP implementation(y = 0.52x + 4, R = 0.87, and p < 0.0001). This study shows thatthe presence or the absence of an LIP on the lung P-V curve isassociated with differences in lung morphology. In patients withoutan LIP on the lung P-V curve, normally aerated lung areas coexistwith nonaerated lung areas and increasing levels of PEEP resultin lung overdistension rather than in additional alveolar recruitment.In patients with an LIP, air and tissue are more homogeneouslydistributed within the lungs and increasing levels of PEEP resultin additional alveolar recruitment without lungoverdistention.

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