Artificial dipolar sources were applied inside a physical thorax phantom to
experimentally investigate the accuracy obtainable for non-invasive magnet
ocardiographic equivalent current dipole localisation. For the measurements
, the phantom was filled with saline solution of electrical conductivity 0.
21 Sm-1. A multichannel cardiomagnetometer was employed to record the magne
tic fields generated by seven dipolar sources at distances from 25 mm to 14
5 mm below the surface of the phantom. The inverse problem was solved using
an equivalent current dipole in a homogeneous boundary element torso model
. The dipole parameters were determined with a non-linear least squares fit
ting algorithm. The signal-to-noise ratio (SNR) and the goodness of fit of
the calculated localisations were used in assessing the quality of the resu
lts. The dependence between the SNR and the goodness of fit was derived, an
d the results were found to correspond to the model. With SNR between 5 and
10, the average localisation error was found to be 9 +/- 8 mm, while for S
NR between 30 and 40 and goodness of fit between 99.5% and 100%, the averag
e error reduced to 3.2 +/- 0.3 mm. The SNR values obtained in this study we
re also compared with typical clinical values of SNR.