99mTc-Annexin-V (ANX), which allows in vivo detection of apoptotic cells, is potentially a promising noninvasive tool to diagnose myocarditis. To test this assumption, we compared the myocardial uptake of ANX (imaging and quantitative autoradiography) in experimental subacute myocarditis (Wistar Bonn/Kobori rats [WBN/Kob]) and in normal Wistar rats. WBN/Kob is an inbred strain of Wistar rat in which myocardial injury mimicking subacute catecholamine-induced myocarditis spontaneously develops (course duration, 18 mo). The apoptotic myocardial rates were determined by immunohistochemical studies.
Methods: Fourteen WBN/Kob rats (8-10 mo old) and 12 control rats were injected with ANX (7.4 MBq/100 g). Ten-minute anterior planar thoracic images (matrix, 128 x 128) were obtained using a pinhole collimator, 1 and 4 h after injection. Heart-to-lung activity ratios were calculated on the scintigrams. Four hours after ANX injection, quantitative autoradiography of myocardial slices was performed, as well as histologic studies with hematoxylin-eosin and with a staining assay specific for apoptotic cells.
Results: Heart-to-lung activity ratios were higher in WBN/Kob rats than in control rats on 4-h images (2.07 +/- 0.07 vs. 1.66 +/- 0.06, P = 0.0007). Autoradiographic studies showed moderate diffuse, homogeneous myocardial ANX uptake significantly higher in WBN/Kob rats than in control rats: 54 +/- 4 versus 37 +/- 3 counts/mm(2) (P < 0.007). The apoptotic rate, evaluated with an apoptotic cell-staining assay, was 0.51% +/- 0.14% of cells in WBN/Kob rats versus 0.0042% +/- 0.0008% in control rats (P < 0.008).
Conclusion: Compared with control rats, rats with subacute myocarditis mimicking catecholamine-induced myocarditis showed increased ANX myocardial uptake. This suggests a potential role for ANX imaging in the diagnosis of myocarditis.