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rheobase

Rheobase is a fundamental parameter of excitable tissue that describes the minimum current amplitude, with effectively infinite stimulus duration, required to elicit an action potential. The term combines Greek roots meaning flow and base, reflecting its association with electrical stimulation thresholds.

In practice, rheobase is estimated from the strength–duration curve, which plots the least stimulus current necessary

A common way to relate rheobase to pulse duration is through the Weiss–Lapicque equation: I = I_r

Historically, the concept was introduced by Louis Lapicque in 1909 as part of strength–duration theory in neurophysiology.

Notes: actual rheobase values vary with tissue type, electrode geometry, temperature, and experimental conditions, so rheobase

to
provoke
a
response
as
a
function
of
pulse
duration.
The
rheobase
corresponds
to
the
extrapolated
intercept
on
the
current
axis
as
the
duration
tends
toward
infinity,
representing
the
lowest
possible
current
capable
of
triggering
excitation
given
a
sufficiently
long
pulse.
(1
+
t_c
/
t),
where
I
is
the
stimulus
current,
t
is
the
pulse
duration,
I_r
is
the
rheobase,
and
t_c
is
the
chronaxie.
The
chronaxie
is
the
duration
required
for
activation
at
twice
the
rheobase
and
serves
as
a
characteristic
time
constant
for
the
tissue’s
excitability.
A
shorter
chronaxie
generally
indicates
higher
excitability.
Rheobase
remains
a
standard
descriptor
of
tissue
excitability
and
is
used
to
guide
stimulation
parameters
in
research
and
clinical
electrophysiology,
including
nerve
and
muscle
stimulation
techniques.
is
treated
as
a
relative
measure
of
excitability
rather
than
an
absolute
constant.