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myotoxins

Myotoxins are substances that directly damage skeletal muscle tissue or disrupt its function, leading to myopathy or rhabdomyolysis. They can arise from external sources such as venomous animals or bacteria, or from endogenous disease processes. In venom, myotoxic proteins—particularly phospholipases A2 and related peptides found in many viperid and some elapid venoms—injure muscle fibers by disrupting cell membranes, disturbing calcium homeostasis, and triggering inflammatory responses. Bacterial toxins can also act as myotoxins; for example, Clostridium perfringens alpha-toxin promotes myonecrosis and gas gangrene through phospholipase activity and membrane damage.

Clinical features typically include sudden muscle pain, swelling, and weakness, often in proximal muscles, with dark

Diagnosis relies on clinical history (exposure to venomous bites or bacterial infection, or other toxin exposure)

Management focuses on addressing the underlying cause and limiting muscle damage. For envenomation, prompt administration of

urine
from
myoglobin
release
if
rhabdomyolysis
occurs.
Laboratory
findings
include
markedly
elevated
creatine
kinase
(CK)
levels
and
myoglobin
in
urine.
Complications
can
include
acute
kidney
injury
from
rhabdomyolysis
and
electrolyte
disturbances
such
as
hyperkalemia.
and
laboratory
evidence
of
muscle
injury.
Identification
of
the
specific
myotoxin
may
be
pursued
in
specialized
settings,
though
management
is
largely
supportive.
appropriate
antivenom
and
supportive
care
is
essential.
General
measures
include
aggressive
intravenous
hydration
to
prevent
renal
injury,
careful
electrolyte
management,
and
monitoring
for
rhabdomyolysis-related
complications.
Necrotic
tissue
or
secondary
infection
may
require
surgical
intervention.
Prevention
and
research
efforts
aim
to
characterize
myotoxins,
develop
targeted
inhibitors,
and
improve
antivenom
therapies.