Visualization of magnetic resonance-compatible needles at 1.5 and 0.2 Tesla

PurposeFor two types of passively visualizable magnetic resonance (MR)-compatible needles, the size of susceptibility artifacts was investigated at 0.2 and 1.5 Tesla (T) and assessed regarding their suitability for needle visualization.MethodsPhantom trials were performed using T1-weighted spin echo (SE), turbospin echo (TSE) and gradient echo (GE) sequences and different angles β between the needles and the main magnetic field (B0).ResultsDepending on the needle angle β and the applied pulse sequence, we found artifact diameters of 0–9.7 mm employing SE, of 1.7–9.4 mm employing TSE, and of 1.4–20.6 mm employing GE at 1.5 T. At 0.2 T, we found artifact diameters of 0–5.7 mm employing SE, of 0–6.3 mm employing TSE, and of 0–11.3 mm employing GE.ConclusionComparing artifact sizes at 1.5T and 0.2 T, low field strength is superior for passive visualization of the needles tested—especially if GE imaging is performed.