Noninvasive detection of graft rejection by in vivo 19F MRI in the early stage

Abstract

Diagnosis of transplant rejection requires tissue biopsy and entails risks. Here, we describe a new 19F MRI approach for noninvasive visualization of organ rejection via the macrophage host response. For this, we employed biochemically inert emulsified perfluorocarbons (PFCs), known to be preferentially phagocytized by monocytes and macrophages. Isografts from C57BL/6 or allografts from C57B10.A mice were heterotopically transplanted into C57BL/6 recipients. PFCs were applied intravenously followed by 1H/ 19F MRI at 9.4 T 24 h after injection. 1H images showed a similar position and anatomy of the graft in the abdomen for both cases. However, corresponding 19F signals were only observed in allogenic tissue. 1H/19F MRI enabled us to detect the initial immune response not later than 3 days after surgery, when conventional parameters did not reveal any signs of rejection. In allografts, the observed 19F signal strongly increased with time and correlated with the extent of rejection. In separate experiments, rapamycin was used to demonstrate the ability of 19F MRI to monitor immunosuppressive therapy. Thus, PFCs can serve as positive contrast agent for the early detection of transplant rejection by 19F MRI with high spatial resolution and an excellent degree of specificity due to lack of any 19F background. © 2011 The American Society of Transplantation and the American Society of Transplant Surgeons.