TY - JOUR
T1 - Predictive value of unshielded magnetocardiographic mapping to differentiate atrial fibrillation patients from healthy subjects
AU - Guida, Gianluigi
AU - Sorbo, Anna Rita
AU - Fenici, Riccardo
AU - Brisinda, Donatella
PY - 2018
Y1 - 2018
N2 - Background: P‐wave duration, its dispersion and signal‐averaged ECG, are currently
used markers of vulnerability to atrial fibrillation (AF). However, since tangential atrial
currents are better detectable at the body surface as magnetic than electric signals,
we investigated the accuracy of magnetocardiographic mapping (MCG), recorded in
unshielded clinical environments, as predictor of AF occurrence.
Methods: MCG recordings, in sinus rhythm (SR), of 71 AF patients and 75 controls
were retrospectively analyzed. Beside electric and magnetic P‐wave and PR interval
duration, two MCG P‐wave subintervals, defined P‐dep and P‐rep, were measured,
basing on the point of inversion of atrial magnetic field (MF). Eight parameters were
calculated from inverse solution with “Effective Magnetic Dipole (EMD) model” and
5 from “MF Extrema” analysis. Discriminant analysis (DA) was used to assess MCG
predictive accuracy to differentiate AF patients from controls.
Results: All but one (P‐rep) intervals were significantly longer in AF patients. At univariate
analysis, three EMD parameters differed significantly: in AF patients, the dipole‐
angle‐elevation angular speed was lower during P‐dep (p < 0.05) and higher
during P‐rep (p < 0.001) intervals. The space‐trajectory during P‐rep and the angledynamics
during P‐dep were higher (p < 0.05), whereas ratio‐dynamics P‐dep was
lower (p < 0.01), in AF. At DA, with a combination of MCG and clinical parameters,
81.5% accuracy in differentiating AF patients from controls was achieved. At Cox‐regression,
the angle‐dynamics P‐dep was an independent predictor of AF recurrences
(p = 0.037).
Conclusions: Quantitative analysis of atrial MF dynamics in SR and the solution of
the inverse problem provide new sensitive markers of vulnerability to AF.
AB - Background: P‐wave duration, its dispersion and signal‐averaged ECG, are currently
used markers of vulnerability to atrial fibrillation (AF). However, since tangential atrial
currents are better detectable at the body surface as magnetic than electric signals,
we investigated the accuracy of magnetocardiographic mapping (MCG), recorded in
unshielded clinical environments, as predictor of AF occurrence.
Methods: MCG recordings, in sinus rhythm (SR), of 71 AF patients and 75 controls
were retrospectively analyzed. Beside electric and magnetic P‐wave and PR interval
duration, two MCG P‐wave subintervals, defined P‐dep and P‐rep, were measured,
basing on the point of inversion of atrial magnetic field (MF). Eight parameters were
calculated from inverse solution with “Effective Magnetic Dipole (EMD) model” and
5 from “MF Extrema” analysis. Discriminant analysis (DA) was used to assess MCG
predictive accuracy to differentiate AF patients from controls.
Results: All but one (P‐rep) intervals were significantly longer in AF patients. At univariate
analysis, three EMD parameters differed significantly: in AF patients, the dipole‐
angle‐elevation angular speed was lower during P‐dep (p < 0.05) and higher
during P‐rep (p < 0.001) intervals. The space‐trajectory during P‐rep and the angledynamics
during P‐dep were higher (p < 0.05), whereas ratio‐dynamics P‐dep was
lower (p < 0.01), in AF. At DA, with a combination of MCG and clinical parameters,
81.5% accuracy in differentiating AF patients from controls was achieved. At Cox‐regression,
the angle‐dynamics P‐dep was an independent predictor of AF recurrences
(p = 0.037).
Conclusions: Quantitative analysis of atrial MF dynamics in SR and the solution of
the inverse problem provide new sensitive markers of vulnerability to AF.
KW - atrial fibrillation
KW - magnetocardiographic mapping
KW - atrial fibrillation
KW - magnetocardiographic mapping
UR - http://hdl.handle.net/10807/212285
U2 - 10.1111/anec.12569
DO - 10.1111/anec.12569
M3 - Article
SN - 1082-720X
VL - 2018
SP - N/A-N/A
JO - Annals of Noninvasive Electrocardiology
JF - Annals of Noninvasive Electrocardiology
ER -