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hyperosmolality

Hyperosmolality is a state in which the serum osmolality is increased above the normal range, typically about 275–295 mOsm/kg. It results from an excess of osmotically active solutes or a relative water deficit, causing water to move from the intracellular to the extracellular space and producing cellular dehydration, notably in brain tissue.

Serum osmolality is primarily determined by sodium, glucose, and urea. A common calculation is Osm_calc = 2

Causes include hypernatremia from water loss (diabetes insipidus, gastrointestinal losses, insensible losses) or inadequate water intake,

Clinical features range from thirst and dry mucous membranes to confusion, lethargy, seizures, and coma, depending

Management focuses on treating the underlying cause and correcting the hyperosmolality gradually to avoid neurologic complications.

×
[Na+]
+
glucose/18
+
BUN/2.8
(with
glucose
and
BUN
in
mg/dL).
The
osmolal
gap,
the
difference
between
measured
and
calculated
osmolality,
helps
detect
exogenous
osmoles
such
as
ethanol,
methanol,
ethylene
glycol,
or
mannitol
that
raise
osmolality
without
matching
changes
in
sodium.
and
hyperglycemia
with
osmotic
diuresis
(diabetic
ketoacidosis
or
hyperosmolar
hyperglycemic
state).
Additional
contributors
are
administration
of
osmotically
active
substances
(mannitol,
glycols),
renal
failure
with
reduced
water
excretion,
and
significant
losses
of
water
or
ingestion
of
hypertonic
fluids
or
saline.
on
the
rapidity
and
degree
of
osmolality
rise.
Diagnosis
rests
on
elevated
serum
osmolality
with
a
high
osmolal
gap
and
assessment
of
sodium,
glucose,
BUN,
ketones,
and
potential
exogenous
osmoles.
Initial
fluid
resuscitation
may
be
with
isotonic
saline
if
volume
depleted,
followed
by
hypotonic
fluids
to
restore
free
water.
In
hyperglycemic
states,
manage
glucose
and
electrolytes
with
insulin
as
indicated.
Monitor
osmolality
and
electrolytes;
the
prognosis
depends
on
the
underlying
cause
and
the
safety
of
correction.