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hydantoins

Hydantoins are a class of heterocyclic compounds based on the hydantoin ring, a five‑membered ring containing two carbonyl groups at positions 2 and 4 in an imide framework. The parent compound, hydantoin (2,4-imidazolidinedione), can be variably substituted at nitrogen atoms or at carbon positions to give a wide family of derivatives. Substituted hydantoins are widely used in medicinal chemistry, particularly for anticonvulsant activity.

Synthesis and derivatives commonly involve cyclization reactions that form the hydantoin ring from urea or carbamoyl

Pharmacology and use are dominated by anticonvulsant activity. Hydantoins act primarily by modulating neuronal excitability through

Clinical considerations include a narrow therapeutic index and potential drug interactions due to hepatic enzyme induction.

derivatives,
sometimes
via
glyoxal
or
glyoxylate
condensations.
The
resulting
compounds
can
bear
a
range
of
N-alkyl,
N-aryl,
or
aryl‑methyl
substituents.
A
well-known
subgroup
includes
5,5-disubstituted
hydantoins,
such
as
5,5-diphenylhydantoin,
which
corresponds
to
the
marketed
anticonvulsant
phenytoin
and
related
drugs
like
ethotoin
and
mephenytoin.
stabilization
of
the
inactivated
state
of
voltage-gated
sodium
channels,
reducing
repetitive
firing.
This
mechanism
underlies
their
effectiveness
in
partial
and
generalized
tonic–clonic
seizures.
Some
hydantoins
may
have
additional
actions
on
calcium
channels
or
neurotransmitter
systems,
but
sodium
channel
modulation
is
central
for
most
clinical
derivatives.
Adverse
effects
can
range
from
neurological
symptoms
to
gingival
hyperplasia
and
hirsutism
with
long-term
use.
Hydantoins
remain
a
historic
and,
in
some
settings,
still-used
scaffold
in
anticonvulsant
therapy
and
medicinal
chemistry
research.