Acute and repair stage characteristics of magnetic resonance relaxation times in oxygen-induced pulmonary edema

Abstract

Proton magnetic relaxation times, T₁, and T₂, were determined for rat lungs exposed to 80% oxygen for a duration of 2 weeks. The transverse magnetization decay curve of the lung tissue was multiexponential. A linear combination of two decay curves with different T₂ values fits the multiexponential decay suggesting that there are at least two different components of tissue water in the lung. Remarkable prolongation of T₁ and T₂ was demonstrated as lung injuries progressed in the acute stage of pulmonary edema. Both 1/T₁, and 1/T₂ were significantly correlated with 1/water content of the lung tissue. In the repair stage, T₁, and T₂ were significantly shortened. Shortening coincided with the spontaneous resolution of pulmonary edema. Relaxation rates showed no significant correlation with 1/water content in this stage. These results indicate that the physical state ofwater in the tissue is affected not only by the water content but also by the derange- ment of macromolecules in pulmonary edema. T₂, was more sensitive than T₁ for detecting pulmonary damage. © 1988 Academic Press, Inc.