When
one encounters really high Na levels- 170-200meq/L range, adipsic hypernatremia
should be in the differential; especially if they are asymptomatic. The key
question to ask is “ are you thirsty?” Once called essential hypernatremia,
this disorder is now called adipsic diabetes insipidus or central diabetes
insipidus with deficient thirst or easier to call them adipsic hypernatremia. The
most common reasons
for these are lesions that affect the thirst center in the brain-
craniopharyngiomas, CNS sarcoidosis, germinomas and clipping or rupture aneurysms
of the anterior communicating artery of the circle of Willis.
Tight
regulation of water balance is accomplished via the thirst mechanism and ADH.
Both are crucial to maintaining a remarkably narrow range of plasma osmolarity
of 282–298 mOsm/kg. Osmoregulation of ADH is mediated by osmoreceptors located
in the anteromedial hypothalamus near the neurohypophyseal cell bodies in the
supraoptic nucleus. These osmoreceptors are extremely sensitive to changes in
osmotic pressure. For example, an increase in osmolarity of 1 to 2 percent
increases ADH secretion. However, ADH secretion alone is not adequate to
prevent dehydration, and an intact thirst mechanism is vital for water
homeostasis. Thirst is regulated by hypothalamic osmoreceptors that are
sensitive to changes in effective osmotic pressure of body fluids. The osmotic
threshold at which the thirst mechanism is activated begins approximately 5–10
mOsm higher than the threshold for ADH release. These two systems work together
to maintain plasma osmolality. With both systems intact, hypernatremia is a
rare development, but can occur in patients who have lost their ability to
maintain or increase free water intake, for example hospitalized patients and
particularly the geriatric population.
There
are four variants of adipsic hypernatremia. Type A adipsia is characterized by
an upward setting of the osmotic threshold for both thirst and vasopressin
release, sometimes called essential hypernatremia. Type B adipsia is
characterized by subnormal thirst and vasopressin responses to osmotic stimuli.
This is due to partial destruction of the osmoreceptors. Complete destruction
of these receptors is classified as type C adipsia, and these patients have
complete absence of ADH release and a lack of thirst mechanism. Type D is an
extremely rare form that manifests as only a thirst mechanism failure with an
intact ADH production.
In
all patients with adipsic hypernatremia, a careful neurologic and
radiologic evaluation should be performed, looking for a possible treatable
disease (such as a benign tumor) that might restore osmoreceptor function.
Forced
drinking to make patients eunatremic is the treatment—that is, scheduled water
drinking because there is no thirst mechanism, with some desmopressin if need
be—is usually what helps. Surgical correction of the cause will be helpful in
cases where it is possible.
An old case of detective nephron
that discusses this in a fun way at ASN Kidney
News.
