Quantitative CT Predicts the Severity of Physiologic Dysfunction in Patients With Lymphangioleiomyomatosis

doi:10.1378/chest.109.1.131

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Quantitative CT Predicts the Severity of Physiologic Dysfunction in Patients With Lymphangioleiomyomatosis

Robert S. Crausman MMS, MD¹; David A. Lynch MB²; Rebecca L. Mortenson MD¹; Talmadge E. King Jr MD, FCCP¹; Charles G. Irvin PhD¹; Valerie A.E. Hale MD²; and John D. Newell Jr MD, FCCP²

¹ From the Department of Medicine, Pulmonary Division, National Jewish Center for Immunology and Respiratory Medicine, and Department of Medicine, University of Colorado Health Sciences Center, Denver
² From the Department of Radiology, National Jewish Center for Immunology and Respiratory Medicine, and Department of Radiology, University of Colorado Health Sciences Center, Denver

Purpose: To assess quantitative high-resolution CT (quantitativeCT) as a diagnostic and prognostic tool in pulmonary lymphangioleiomyomatosis.

Methods:Spirometry, lung volumes, diffusing capacity, exercise physiology,and expiratory high-resolution CT (HRCT) examinations were performedon a cohort of ten patients with the diagnosis of lymphangioleiomyomatosis(LAM) referred to a tertiary care center. HRCT examinationswere also done on ten normal control subjects. A thresholdingtechnique was used to quantitatively assess the amount of abnormalcystic parenchyma present on each of the two images obtainedfor each subject with LAM and for each normal control subject.This numeric index of cystic parenchyma, the quantitative CTindex, was then examined (1) as a diagnostic measure to distinguishthe subjects with LAM from the normal control subjects and (2)as a prognostic measure to assess disease severity in the subjectswith LAM. Linear regression of the quantitative CT index againstphysiologic indexes of pulmonary function and exercise performancewas analyzed to determine the relationship between this radiologicassessment of disease severity and functional impairment.

Results:The quantitative CT index was significantly greater for theLAM patients, 37.2±6.9 (SEM), compared with the controlgroup, 0.8±0.2 (p=0.0001). Linear regression analysis demonstratedsignificant linear correlation between the quantitative CT indexand measures of airflow (FEV₁, r= $minus$ 0.90, p=0.0005), air trapping(residual volume, r=0.70, p=0.02), diffusing capacity (diffusingcapacity for carbon monoxide, r= $minus$ 0.76, p=0.01), gas exchange(alveolar to arterial oxygen gradient) at rest, r=0.69, p=0.007,and at maximum exercise, r=0.79, p=0.007) and exercise performance(maximum workload, r= $minus$ 0.84, p=0.002), and oxygen utilization(oxygen utilization at maximum exercise, r= $minus$ 0.76, p=0.01).

Conclusion:Quantitative CT techniques can distinguish subjects with LAMfrom normal controls. Further, the quantitative CT index correlateswell with physiologic measurements of airflow, lung volumes,diffusing capacity, and exercise performance and, thus, mayprovide a useful measure of disease severity.

Key Words: computed tomography • exercise physiology • pulmonary lymphangioleiomyomatosis (LAM) • pulmonary mechanics

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