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dromotropic

Dromotropic refers to the effect on the rate at which electrical impulses travel through the heart, especially through the atrioventricular (AV) node. Dromotropy describes changes in AV nodal conduction velocity, which can influence the time between atrial activation and ventricular response. It is one aspect of cardiac modulation that is distinct from chronotropy (heart rate) and inotropy (contractile force). In clinical terms, dromotropic effects are often inferred from changes in the PR interval on an electrocardiogram.

Positive dromotropic effects increase conduction velocity through the AV node, shortening the conduction time. They are

Pharmacologic agents illustrate the spectrum of dromotropy. Beta-adrenergic agonists (eg, isoproterenol) have positive dromotropic effects; acetylcholine

Clinically, dromotropy is relevant in the management of arrhythmias and AV block, and is considered when evaluating

typically
produced
by
sympathetic
stimulation
or
beta-adrenergic
receptor
activation,
and
can
facilitate
faster
transmission
of
impulses
from
atria
to
ventricles.
Negative
dromotropic
effects
slow
AV
nodal
conduction,
lengthening
the
PR
interval.
These
effects
are
usually
mediated
by
parasympathetic
(vagal)
activity
and
acetylcholine
acting
on
M2
receptors,
or
by
drugs
that
enhance
vagal
tone.
and
other
anticholinergic
influences
can
produce
negative
dromotropic
effects.
Antimuscarinic
drugs
like
atropine
reduce
vagal
tone
and
can
yield
a
positive
dromotropic
effect.
Digitalis
glycosides
increase
vagal
tone
and
commonly
exert
a
negative
dromotropic
effect.
drug
effects
on
AV
nodal
conduction
and
PR
interval.