Home

magnetocardiography

Magnetocardiography (MCG) is a noninvasive method for recording the magnetic fields generated by the heart's electrical activity. The magnetic signals reflect currents flowing in the myocardium during depolarization and repolarization. Because magnetic fields are less distorted by the conductive tissues of the chest than electric potentials, MCG can provide a direct, time-resolved view of cardiac electrophysiology, though the signals are extremely small and require sensitive instruments. Typical cardiac magnetic fields at the body surface are on the order of tens to hundreds of picoTesla.

Measurement is performed with arrays of ultra-sensitive sensors, most commonly superconducting quantum interference devices (SQUIDs) housed

Applications include assessment of cardiac rhythm disorders, evaluation of ischemia and other myocardial conditions, and in

Limitations include high cost, need for specialized shielding and cryogenic or room-temperature sensors, limited accessibility, and

in
a
magnetically
shielded
room,
often
with
gradiometer
configurations
to
suppress
external
noise.
More
recently,
optically
pumped
magnetometers
(OPMs)
operating
at
room
temperature
have
been
explored
as
a
portable
alternative.
The
patient
remains
still
during
acquisition;
recordings
are
typically
synchronized
with
ECG,
which
helps
with
interpretation
and
localization.
research
settings
for
studying
conduction
and
repolarization.
Fetal
magnetocardiography
(fMCG)
uses
similar
principles
to
monitor
fetal
heart
rate
and
rhythm,
aiding
diagnosis
of
fetal
arrhythmias
and
hypoxia.
MCG
is
usually
a
supplementary
tool
to
ECG
and
echocardiography,
rather
than
a
standalone
diagnostic
test.
challenges
in
precise
spatial
localization
due
to
the
inverse
problem.
Ongoing
work
aims
to
improve
sensor
technology,
data
analysis
methods,
and
standardization
to
widen
clinical
adoption.