NMR compartmentalization of free water in the perfused rat heart

Abstract

Spin-lattice (T₁) and spin-spin (T₂) relaxation times have been measured on perfused rat hearts under two experimental conditions. T₁ exhibits a monoexponential decay. On the other hand T₂ has a decay with two components: a short one T_2s and a long one T₂₁. These facts have been discussed according to cross-relaxation and a bicompartmen-talization of tissue assuming a slow exchange model for spin-spin relaxation and a fast exchange model for spin-lattice relaxation. Increasing the osmotic pressure of the perfusion solution decreased the absolute density proton of the T_2s compartment reflecting the loss of its water content. The paramagnetic ion manganese diminishes the values of T₁ and those of the long component T₂₁ without affceting its short component. Therefore the short component could be assigned to intracellular and the long component to extracellular free water. The extracellular T₂ (459 ms) is approximatively 10-fold higher than the intracellular T₂ (45 ms) With images of “pure T₂” such a difference could be useful to enhance the contrast between organs and the surrounding liquid or between organs with different water compartmentalization.