Quantification of circumferential, longitudinal, and radial global fractional shortening using steady-state free precession cines: A comparison with tissue-tracking strain and application in fabry disease.

[fabry disease]

Conventional calculation of myocardial strain requires tissue-tracking . A surrogate for strain called global fractional shortening (GFS ) is proposed based on changes in dimensions of endocardial and epicardial surfaces without tissue-tracking .Three -dimensional endocardial and epicardial left ventricular surfaces traced at end-diastole and end-systole using conventional steady-state free precession cine images were used to calculate GFScc (circumferential ), GFSll (longitudinal ), and GFSrr (radial ) using fractional length changes in each direction over the heart surface . GFS values were validated using finite element models (FEM ) and in vivo using tagging-derived strains (εcc ,εll ,εrr ) in patients with a wide range of ejection fraction (EF ) and diagnosis (n = 32 ). GFS was also measured in 31 patients with Fabry disease and matched healthy controls .GFS values were within 3 % of average FEM-derived Lagrangian strains and had good agreement in vivo (GFScc = -14 ± 4 %, εcc = -14 ± 4 %, R (2 ) = 0 .85 ; GFSll = -12 ± 4 %, εll = -12 ± 4 %, R (2 ) = 0 .72 ; GFSrr = 46 ± 21 %). εrr could not be measured reliably from tagging . Compared with healthy controls with matched EF , patients with Fabry disease had significantly increased GFScc (Endo ) (-28 ± 3 % versus -25 ± 2 %), decreased GFScc (Epi ) (-10 ± 2 % versus -11 ± 2 %) and decreased GFSll for all components .GFS yields similar values to conventionally measured strains without requiring tissue-tracking . Compared with controls , patients with Fabry disease have significant differences in several GFS components . Magn Reson Med , 2014 . © 2014 Wiley Periodicals , Inc .