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Hyponatremia

Syndrome of Inappropriate Antidiuretic Hormone Secretion




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AUTHOR AND EDITOR INFORMATION

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Author: James Springate, MD, Professor, Department of Pediatrics, State University of New York at Buffalo

James Springate is a member of the following medical societies: American Academy of Pediatrics, American Physiological Society, American Society of Pediatric Nephrology, and Society for Pediatric Research

Editors: Erawati V Bawle, MD, FAAP, FACMG, Director, Division of Genetic and Metabolic Disorders, Department of Pediatrics, Children's Hospital of Michigan; Professor (Clinician-Educator), Wayne State University School of Medicine; Mary L Windle, PharmD, Adjunct Assistant Professor, University of Nebraska Medical Center College of Pharmacy, Pharmacy Editor, eMedicine.com, Inc; Barry B Bercu, MD, Professor, Departments of Pediatrics, Molecular Pharmacology and Physiology, University of South Florida College of Medicine, All Children's Hospital; Merrily P M Poth, MD, Professor, Department of Pediatrics and Neuroscience, Uniformed Services University of the Health Sciences; Stephen Kemp, MD, PhD, Professor, Department of Pediatrics, Section of Pediatric Endocrinology, University of Arkansas and Arkansas Children's Hospital

Author and Editor Disclosure

Synonyms and related keywords: cerebral salt-wasting syndrome, CSWS, intracranial disease, salt wasting, renal salt wasting, natriuresis, hyponatremic dehydration, syndrome of inappropriate secretion of antidiuretic hormone, SIADH, hyponatremia, cerebral edema

INTRODUCTION

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Background

First described by Peters et al in 1950, cerebral salt-wasting syndrome (CSWS) is defined by the development of excessive natriuresis and subsequent hyponatremic dehydration in patients with intracranial disease.1 Differentiation of this disorder from the syndrome of inappropriate secretion of antidiuretic hormone (SIADH), a common cause of hyponatremia in this setting, can be difficult but is important because treatment options differ.

Pathophysiology

The exact mechanism underlying renal salt wasting in this syndrome remains unclear. One hypothesis is that an exaggerated renal pressure–natriuresis response caused by increased activity of the sympathetic nervous system and dopamine release is responsible for urinary sodium loss. Another hypothesis involves release of natriuretic factors, possibly including brain natriuretic peptide (C-type natriuretic peptide or an oubainlike peptide) by the injured brain. Kojima et al have described an animal model of CSWS that may allow better clarification of CSWS pathophysiology.2

Frequency

United States

Exact incidence data for this disorder are not available. Approximately 60% of children with brain injuries or tumors develop hyponatremia during their hospital course. Some experts suggest that CSWS is responsible for hyponatremia at least as often as SIADH, particularly in neurosurgical patients.

Mortality/Morbidity

CSWS usually appears in the first week after brain injury and spontaneously resolves in 2-4 weeks. Death and complication rates for this syndrome are not available. Failure to distinguish CSWS from SIADH as the cause of hyponatremia can lead to improper therapy (ie, fluid restriction), thereby exacerbating intravascular volume depletion and potentially jeopardizing cerebral perfusion.

Age

CSWS can occur at any age. Published reports include patients aged 6 months to 65 years.


CLINICAL

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History

  • Hyponatremia
    • As the decline in serum sodium concentration reduces serum osmolality, a tonicity gradient develops across the blood-brain barrier that causes cerebral edema.
    • Symptoms include lethargy, agitation, headache, altered consciousness, seizures, and coma.
    • Severity of symptoms typically reflects the magnitude and rapidity of the decrease in serum sodium concentration.
  • Intravascular volume depletion: Historical features suggesting hypovolemia include thirst, abrupt weight loss, decreasing urinary frequency, and negative fluid balance.

Physical

  • Physical signs include those associated with severe hyponatremia or intravascular volume depletion. Hyponatremia can be indicated by acute CNS dysfunction such as altered mental status, seizures, and coma.
  • Unfortunately, no single physical finding can accurately and reproducibly measure effective circulating volume. Commonly used signs of hypovolemia include orthostatic tachycardia or hypotension, increased capillary refill time, increased skin turgor, dry mucous membranes, and sunken anterior fontanel. These signs usually appear only when the degree of dehydration is moderate to severe.

Causes

Cerebral salt-wasting syndrome (CSWS) occurs in the setting of acute CNS disease. Conditions include the following:

  • Head injury
  • Brain tumor
  • Intracranial surgery
  • Stroke
  • Intracerebral hemorrhage
  • Tuberculous meningitis
  • Craniosynostosis repair


DIFFERENTIALS

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Hyponatremia
Syndrome of Inappropriate Antidiuretic Hormone Secretion

WORKUP

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Lab Studies

  • Serum sodium concentration: Patients with untreated cerebral salt-wasting syndrome (CSWS) are often hyponatremic.
  • Serum osmolality: If measured serum osmolality exceeds twice the serum sodium concentration and azotemia is not present, suspect hyperglycemia or mannitol as the cause of hyponatremia.
  • Urine output: Urine is dilute and flow rate is often high in CSWS but is usually very concentrated, and flow rate is low, in SIADH.
  • Urine sodium concentrations: These concentrations are typically elevated in both SIADH and CSWS (>40 mEq/L). However, urinary sodium excretion (urine sodium concentration [mEq/L] X urine volume [L/24 h]) is substantially higher than sodium intake in CSWS but generally equals sodium intake in SIADH. Therefore, net sodium balance (intake minus output) is negative in CSWS.
  • Fractional excretion of uric acid
    • Fractional excretion of uric acid (FEUA) is defined as the percentage of urate filtered by glomeruli that is excreted in urine. It is calculated by dividing the product of (urinary uric acid [mg/mL] X serum creatinine [mg/mL]) by the product of (serum uric acid [mg/mL] X urine creatinine [mg/mL]) and multiplying the result by 100%. Normal values are less than 10%.
    • Patients with either CSWS or SIADH can have hypouricemia and elevated FEUA. However, after correction of hyponatremia, hypouricemia and elevated FEUA may normalize in SIADH but persist in CSWS.


TREATMENT

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Medical Care

  • Evaluation and treatment typically occurs in the inpatient setting because most patients are seriously ill with acute CNS disease.
  • Management centers on correction of intravascular volume depletion and hyponatremia as well as replacement of ongoing urinary sodium loss usually with intravenous hypertonic saline solutions. Some clinicians have reported a favorable response to mineralocorticoid therapy in cerebral salt-wasting syndrome (CSWS).
  • Once the patient is stabilized, enteral salt supplementation can be considered.


MEDICATION

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Drug Category: Mineralocorticoids

Mineralocorticoids enhance sodium reabsorption in the kidney by direct action on distal tubule cells, resulting in expanded extracellular fluid volume. They increase renal excretion of potassium and hydrogen ion.

Drug NameFludrocortisone (Florinef)
DescriptionPromotes increased reabsorption of sodium and loss of potassium by renal distal tubules.
Adult Dose0.05-0.2 mg/d PO
Pediatric DoseAdminister as in adults
ContraindicationsDocumented hypersensitivity; congestive heart failure; systemic fungal infections
InteractionsBarbiturates, phenytoin, and rifampin can increase hepatic metabolism of fludrocortisone diminishing its effect; fludrocortisone-induced hypokalemia can enhance digoxin toxicity
PregnancyC - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus
PrecautionsAdverse effects include hypertension, edema, congestive heart failure, and hypokalemic alkalosis; dose should be carefully titrated to level of patient tolerance and effectiveness; monitor for dizziness, severe or continuing headaches, swelling feet or lower legs, or unusual weight gain; administer with food to minimize GI adverse effects


FOLLOW-UP

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Further Inpatient Care

  • Children with cerebral salt-wasting syndrome (CSWS) are usually hospitalized for management of their underlying CNS disease.
  • Ongoing monitoring of body weight, fluid balance, and serum sodium concentration is essential during the hospital course.

Further Outpatient Care

  • Patients whose neurologic insult has improved and who demonstrate normal intravascular volume and serum sodium concentrations on enteral salt supplements, fludrocortisone, or both can be closely observed as outpatients until CSWS resolves.

In/Out Patient Meds

  • Medications include sodium chloride tablets or solution (adjust based on serum and urine sodium levels) and fludrocortisone.

Complications

  • Symptomatic hyponatremia
  • Dehydration

Prognosis

  • CSWS usually develops in the first week following a brain insult. Its duration is usually brief (spontaneously resolves in 2-4 wk), although it can last for several months.


MISCELLANEOUS

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Medical/Legal Pitfalls

  • Failure to distinguish cerebral salt-wasting syndrome (CSWS) from SIADH in a hyponatremic patient with brain injury could lead to inappropriate therapy with fluid restriction.


MULTIMEDIA

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Media file 1:  Possible mechanisms for cerebral salt-wasting syndrome. The injured brain may release natriuretic proteins that act directly on the kidney. In addition, cerebral injury may increase sympathetic nervous system activity, elevating renal perfusion pressure and releasing dopamine.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  Graph


REFERENCES

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  1. Peters JP, Welt LG, Sims EA, et al. A salt-wasting syndrome associated with cerebral disease. Trans Assoc Am Physicians. 1950;63:57-64. [Medline].
  2. Kojima J, Katayama Y, Moro N, et al. Cerebral salt wasting in subarachnoid hemorrhage rats: model, mechanism, and tool. Life Sci. Apr 1 2005;76(20):2361-70. [Medline].
  3. Celik US, Alabaz D, Yildizdas D, et al. Cerebral salt wasting in tuberculous meningitis: treatment with fludrocortisone. Annals of Tropical Paediatrics. 2005;25:297-302. [Medline].
  4. Diringer MN, Zazulia AR. Hyponatremia in neurologic patients: consequences and approaches to treatment. The Neurologist. 2006;12:117-126. [Medline].
  5. Feld LG, Cimino M. Fludrocortisone acetate. In: Pediatric Dosing Handbook. 2002:429-30.
  6. Gutierrez OM, Lin HY. Refractory hyponatremia. Kidney Int. Jan 2007;71(1):79-82. [Medline].
  7. Harrigan MR. Cerebral salt wasting syndrome: a review. Neurosurgery. Jan 1996;38(1):152-60. [Medline].
  8. Kappy MS, Ganong CA. Cerebral salt wasting in children. Adv Pediatr. 1996;43:271-308. [Medline].
  9. Levine JP, Stelnicki E, Weiner HL, et al. Hyponatremia in the postoperative craniofacial pediatric patient population: a connection to cerebral salt wasting syndrome and management of the disorder. Plast Reconstr Surg. Nov 2001;108(6):1501-8. [Medline].
  10. Maesaka JK, Gupta S, Fishbane S. Cerebral salt-wasting syndrome: does it exist?. Nephron. Jun 1999;82(2):100-9. [Medline].
  11. Maesaka JK, Miyawaki N, Palaia T, Fishbane S, Durham JH. Renal salt wasting without cerebral disease: diagnostic value of urate determinations in hyponatremia. Kidney Int. Apr 2007;71(8):822-6. [Medline].
  12. McGirt MJ, Blessing R, Nimjee SM, et al. Correlation of serum brain natriuretic peptide with hyponatremia and delayed ischemic neurological deficits after subarachnoid hemorrhage. Neurosurgery. 2004;54:1369-1374. [Medline].
  13. Singh S, Bohn D, Carlotti AP, et al. Cerebral salt wasting: truths, fallacies, theories, and challenges. Crit Care Med. Nov 2002;30(11):2575-9. [Medline].
  14. Sterns RH, Silver SM. Cerebral salt wasting versus SIADH: what difference?. J Am Soc Nephrol. Feb 2008;19(2):194-6. [Medline].
  15. Taplin CE, Cowell CT, Silink M, Ambler GR. Fludrocortisone therapy in cerebral salt wasting. Pediatrics. Dec 2006;118(6):e1904-8. [Medline].

Cerebral Salt-Wasting Syndrome excerpt

Article Last Updated: Jul 18, 2008