Hyponatremia: Difference between revisions
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==Background== | ==Background== | ||
*Urine Na only useful before beginning tx | |||
*Low = <135meq/L | *Low = <135meq/L | ||
*Symptomatic = <120meq/L (may be higher if occurs abruptly) | *Symptomatic = <120meq/L (may be higher if occurs abruptly) | ||
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==Treatment== | ==Treatment== | ||
*Hypertonic hyponatremia | |||
**Correct underlying disorder | |||
**Often volume depleted (give NS) | |||
*Isotonic (pseudo) hyponatremia | |||
**No tx needed | |||
*Hypotonic hyponatremia | |||
**Hypovolemic | |||
***Give NS (see below) | |||
* | **Euvolemic | ||
** | ***Water restrict | ||
** | ***Treat underlying cause | ||
** | **Hypervolemic | ||
***Water restriction | |||
***Diuresis | |||
***Treat underlying cause | |||
*Na | ===Na Therapy=== | ||
*Na Deficit (meq) = wt x 0.6 x (140 - Na) | |||
*Na Administered = (Desired Na - Measured Na)(0.6)(wt) | |||
== | *NS = 154 meq/L | ||
*3% = 513 meq/L | |||
*Severe (<120 or CNS changes): | |||
**3% NS @ 25-100 cc/hr | |||
***Rise in Na should be < 0.5-1 mEq/L/hr | |||
**Seizures | |||
***1. Benzos | |||
***2. 3% NS bolus | |||
****1.5cc/kg over 10min; repeat Q10min until stops (max total = 6cc/kg)) | |||
***If seizing ok to have Na incr by 1-2mEq/L/hr | |||
*Asympomatic | |||
**Replete with NS | |||
(120-100)(.6)(70kg)=840 meq | *Example | ||
**Measured Na = 100 | |||
**Desired Na = 120 | |||
***(120-100)(.6)(70kg)= 840 meq | |||
****if 513meq in 1L 3% then 840 meq in 1.6L | |||
*****Correct over 24hr so 68cc hypertonic Na /hr for 24 hr | |||
==Disposition== | ==Disposition== | ||
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==Source == | ==Source == | ||
Tintinalli | |||
[[Category:FEN]] | [[Category:FEN]] | ||
Revision as of 01:54, 4 May 2011
Background
- Urine Na only useful before beginning tx
- Low = <135meq/L
- Symptomatic = <120meq/L (may be higher if occurs abruptly)
- N/V
- Anorexia
- Muscle cramps
- AMS
- Sz (esp if Na < 113)
- Coma
- Rapid correction can cause CHF & CPM (AMS, dysphagia, dysarthria, paresis)
Diagnosis
- Must determine volume status and calculated osm
- In true hyponatremia the osm is reduced
DDX
- Hypertonic hyponatremia (osm > 295)
- Hyperglycemia
- Mannitol excess
- Isotonic (pseudo) hyponatremia (osm 275-295)
- Hyperlipidemia
- Hyperproteinemia
- Hypotonic hyponatremia (osm < 275)
- Hypovolemic
- Renal
- Diuretic use
- Na-wasting nephroathy (RTA, CRF)
- Osmotic diuresis (glucose, urea)
- Aldosterone deficiency
- Extra-renal
- GI loss
- 3rd space loss
- Burns
- Pancreatitis
- Peritonitis
- Renal
- Hypervolemic
- Urinary Na > 20
- Renal failure
- Urinary Na < 20
- CHF
- Nephrotic syndrome
- Cirrhosis
- Urinary Na > 20
- Euvolemic (urine Na usually > 20)
- SIADH
- Pain, stress, nausea
- Hypothyroidism
- Drugs
- NSAIDs, sulfonylureas
- H20 intoxication
- Glucocorticoid deficiency
- SIADH
- Hypovolemic
Treatment
- Hypertonic hyponatremia
- Correct underlying disorder
- Often volume depleted (give NS)
- Isotonic (pseudo) hyponatremia
- No tx needed
- Hypotonic hyponatremia
- Hypovolemic
- Give NS (see below)
- Euvolemic
- Water restrict
- Treat underlying cause
- Hypervolemic
- Water restriction
- Diuresis
- Treat underlying cause
- Hypovolemic
Na Therapy
- Na Deficit (meq) = wt x 0.6 x (140 - Na)
- Na Administered = (Desired Na - Measured Na)(0.6)(wt)
- NS = 154 meq/L
- 3% = 513 meq/L
- Severe (<120 or CNS changes):
- 3% NS @ 25-100 cc/hr
- Rise in Na should be < 0.5-1 mEq/L/hr
- Seizures
- 1. Benzos
- 2. 3% NS bolus
- 1.5cc/kg over 10min; repeat Q10min until stops (max total = 6cc/kg))
- If seizing ok to have Na incr by 1-2mEq/L/hr
- 3% NS @ 25-100 cc/hr
- Asympomatic
- Replete with NS
- Example
- Measured Na = 100
- Desired Na = 120
- (120-100)(.6)(70kg)= 840 meq
- if 513meq in 1L 3% then 840 meq in 1.6L
- Correct over 24hr so 68cc hypertonic Na /hr for 24 hr
- if 513meq in 1L 3% then 840 meq in 1.6L
- (120-100)(.6)(70kg)= 840 meq
Disposition
Admit Na < 125
Source
Tintinalli