ADIPSIC HYPERNATREMIA PDF

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Post a Comment. 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. 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. Labels: Consult Rounds , natremias. No comments:. Newer Post Older Post Home. Subscribe to: Post Comments Atom.

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Adipsic Hypernatremia in Two Sisters

Adipsia , also known as hypodipsia , is a symptom of inappropriately decreased or absent feelings of thirst. This causes the person to retain water and ultimately become unable to feel thirst. Due to its rarity, the disorder has not been the subject of many research studies. Adipsia may be seen in conditions such as diabetes insipidus [3] and may result in hypernatremia.

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Case Report: Severe hypernatremia from psychogenic adipsia.

Post a Comment. 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. 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.

HUMAYUN AHMED MISIR ALI PDF

Adipsic hypernatremia is a rare disease presenting as persistent hypernatremia with disturbance of thirst regulation and hypothalamic dysfunction. As a result of congenital disease, tumors, or inflammation, most cases are accompanied by structural abnormalities in the hypothalamic-pituitary area. While cases with no hypothalamic-pituitary structural lesion have been reported, their etiology has not been elucidated. Recently, we reported three patients with adipsic hypernatremia whose serum-derived immunoglobulin Ig specifically reacted with mouse subfornical organ SFO tissue. As one of the circumventricular organs CVOs that form a sensory interface between the blood and brain, the SFO is a critical site for generating physiological responses to dehydration and hypernatremia. These results support a new autoimmunity-related mechanism for inducing adipsic hypernatremia without demonstrable hypothalamic-pituitary structural lesions. In this review, we aim to highlight the characteristic clinical features of these patients, in addition to etiological mechanisms related to SFO function.

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Only one sister, who presented with microcephaly and developmental delay, showed signs of dysplasia of the midline structures ie, septum pellucidum and corpus callosum and a large intracranial cyst. In both patients, the vasopressin secretion did not respond to either osmotic or nonosmotic stimuli or was suppressed by a water load. Plasma osmolality values returned to normal after treatment with forced hydration and a vasopressin analogue, desamino-D-arginine vasopressin. These findings indicate a severe defect in the hypothalamic osmoreceptors that control thirst and vasopressin secretion. To our knowledge, this is the first report of such a disorder in two sisters.

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