Copyright
©The Author(s) 2017.
World J Nephrol. Jan 6, 2017; 6(1): 1-13
Published online Jan 6, 2017. doi: 10.5527/wjn.v6.i1.1
Published online Jan 6, 2017. doi: 10.5527/wjn.v6.i1.1
Table 1 Body sodium and water changes leading to hypernatremia
| Nae | Body H2O | Clinical example |
| ↔ | ↓ | Diabetes insipidus |
| ↑ | ↔ | Salt tablet ingestion |
| ↑↑ | ↑ | Hypertonic infusions containing sodium salts |
| ↓ | ↓↓ | Loop diuretics, excessive sweating, osmotic diarrhea, osmotic diuresis |
| ↑ | ↓ | Not seen in practice |
Table 2 Clinical states causing hypernatremia from inadequate water intake
| Lack of water sources |
| Subject lost in desert |
| Inability of patient to drink water or ask for it |
| Tracheal intubation and sedation |
| Dementia |
| Delirium |
| Paranoia |
| Severe depression |
| Adipsia or hypodipsia caused by central nervous system disorder compromising the neural pathways of thirst |
| Granulomas, e.g., sarcoidosis |
| Tumors, e.g., craniopharyngioma, seminoma, lymphoma, astrocytoma |
| Degenerative processes, e.g., Parkinson’s disease |
| Congenital syndromes, e.g., ectodactyly-ectodermal dysplasia- cleftlip-palate syndrome |
| Diabetes insipidus (a fraction of the patients) |
Table 3 Clinical states causing excessive water loss
| Extrarenal water loss |
| Gastrointestinal losses |
| Vomiting |
| Nasogastric drainage |
| Ileostomy |
| Pancreatobiliary fistula |
| Diarrhea (non-secretory) |
| Laxatives, e.g., lactulose |
| Skin |
| Excessive sweating |
| Respiratory airways |
| Hyperpnea |
| Tracheal intubation |
| Mechanical ventilation |
| Excessive renal water losses |
| Osmotic (solute) diuresis |
| Osmotic diuretics, e.g., mannitol |
| Glucosuria, e.g., hyperglycemia, sodium-glucose transporter 2 (SGLT2) inhibitors |
| Urea diuresis, e.g., diuresis post-acute tubular necrosis, post- obstructive diuresis, use of catabolic medications (corticosteroids, tetracyclines, etc.), high protein intake, urea treatment for hyponatremia |
| Salt diuresis, e.g., intravenous infusion of saline, high salt intake |
| Water diuresis |
| Central diabetes insipidus |
| Idiopathic (most common) |
| Genetic: Familial (mutation causing misfolding of vasopressin), congenital hypopituitarism, Wolfram syndrome (diabetes insipidus, diabetes mellitus, optic atrophy, deafness) |
| Acquired: Neurosurgery, head trauma, brain tumors, infiltrative disorders (sarcoidosis, Langerhans cell histiocytosis, etc.) |
| Nephrogenic diabetes insipidus |
| Genetic: Inactivating mutations of V2 receptor gene (most common) or aquaporin 2 gene |
| Acquired: |
| Renal disease (chronic renal failure, post-acute tubular necrosis, obstructive nephropathy, sickle cell disease, autosomal dominant polycystic kidney disease) |
| Electrolyte disorders: Hypokalemia, hypercalcemia |
| Drugs: Lithium, amphotericin, demeclocycline, ifosfamide, V2 receptor antagonists |
| Gestation: Increased placental production of vasopressinase |
| Upward resetting of the osmostat (reset osmostat): Primary hyperaldosteronism (thought to be secondary to volume expansion and resulting in modest hypernatremia, up to 147 mmol/L) |
Table 4 Electrolyte composition of various gastrointestinal fluids
| Fluid source | Sodium (mmol/L) | Potassium (mmol/L) |
| Vomiting, nasogastric drainage | 20-100 | 10-15 |
| Secretory diarrhea | 40-140 | 15-40 |
| Non-secretory diarrhea | 50-100 | 15-20 |
| Adapted ileostomy | 40-90 | 5 |
| New ileostomy | 115-140 | 5-15 |
| Sweat | 38-45 | 5 |
- Citation: Rondon-Berrios H, Argyropoulos C, Ing TS, Raj DS, Malhotra D, Agaba EI, Rohrscheib M, Khitan ZJ, Murata GH, Shapiro JI, Tzamaloukas AH. Hypertonicity: Clinical entities, manifestations and treatment. World J Nephrol 2017; 6(1): 1-13
- URL: https://www.wjgnet.com/2220-6124/full/v6/i1/1.htm
- DOI: https://dx.doi.org/10.5527/wjn.v6.i1.1