Presentation is loading. Please wait.

Presentation is loading. Please wait.

Acute Treatment of Hyponatraemia. Sodium concentration less than 135meq/L ICCU treats those with much lower levels, or very acute drops (as they are symptomatic)

Published byUrsula Lang Modified over 8 years ago

Similar presentations

Presentation on theme: "Acute Treatment of Hyponatraemia. Sodium concentration less than 135meq/L ICCU treats those with much lower levels, or very acute drops (as they are symptomatic)"— Presentation transcript:

1 Acute Treatment of Hyponatraemia

2 Sodium concentration less than 135meq/L ICCU treats those with much lower levels, or very acute drops (as they are symptomatic)

3 Background Remember the value is a concentration Hyponatraemia is usually XS water Water balance is mediated via ADH In hyponatraemia there’s usually either an ADH problem (too much), or it has been overwhelmed (primary polydipsia)

4 Pseudohyponatraemia Serum is 93% water and electrolytes, 7% fat and protein. If fat increased (e.g. Propofol infusion syndrome) or protein increased (e.g. myeloma) the water component proportion is reduced. The Na conc of the water component is unchanged. The Na conc of the sample is reduced.

5 Osmolarity 2(Na+K)+Urea+Glc Urea is an ineffective solute as crosses cell membrane. The effects of Glucose usually small as rarely high. Na main determinant As water moves freely, this is the osmolarity of total body water.

6 Osm is usually reduced in hyponatraemia As expected (osm = 2(Na+K)+Urea+Glc) Unless the issue is: –Advanced renal failure Can’t pass dilute urine so water can’t be excreted, which would decrease osm BUT urea increases. –The addition of osmolar active molecules drawing water into the ECF. Mannitol, Glucose, Alcohol – Gap between measured and calculated

7 High ADH Volume depletion leading to ADH & RAAS activation. –True (D&V, Bleeding, Thiazide diuretics) –Effective Vasodilation in liver fauilure Pump failure (cardiac) –Nb in these conditions chronic Na conc <130 = end stage SIADH

8 Endocrine Causes Hypothyroid Addisons Mechanisms unclear

9 Others Exercise & Ecstasy –XS fluid intake combined with RAAS activation Primary Polydipsia –Oral water intake so high that ADH overwhelmed.

10 History & Examination Volume Status Signs Ht, renal, liver failure Hypothyroidism & Addisons Causes of volume depletion Lung Ca or neurological disorders

11 Check Serum Osm Expect it to be low. If high consider osmolar active molecules & advanced renal failure

12 Check Urine Osm This is to exclude Primary Polydipsia & to track treatment response. If primary polydipsia maximally dilute urine (osm<100) Urine osm will decrease if a cause of increased ADH is treated (in reality this is only true hypovolaemia) It will be fixed in SIADH – see later

13 Urine Sodium Conc To help dx hypovolaemia. If present urine Na conc <25 – the body is retaining salt and water (more water than salt).

14 Treatment If volume deplete give volume If overloaded fluid restrict If SIADH fluid restrict Treat underlying disease Treat more quickly if acute (<1 day) Treat more quickly if seizures or unconscious

15 Demyelination A complication of over-enthusiastic correction. Not a risk if <1 day as the CNS protective measures are not yet in place, and it is these measures that cause the issue. Raise conc by <10/24hrs and <1/hour A rise of 5-6 is said to be enough to correct seixures / decreased LOC

16 Fluid restriction Aim is to decrease water Commonly 800ml/day Must be <UOP or isn’t restriction! If UOP <800 other measures required.

17 If volume depleted Isotonic saline (although it won’t be isotonic as osm decreased). –Is a salt load (fluid conc > serum conc) –Switches off ADH –Treats the underlying disorder

18 TBW (L) = 60% weight (1L=1kg) A 50kg woman has a Na conc of 110meq/L Her TBW is therefore 30L (0.6x50)

19 TBW (L) = 60% weight (1L=1kg) A 50kg woman has a Na conc of 110meq/L Her TBW is therefore 30L (0.6x50) Her total body sodium amount is 110x30 = 3300meq

20 TBW (L) = 60% weight (1L=1kg) A 50kg woman has a Na conc of 110meq/L Her TBW is therefore 30L (0.6x50) Her total body sodium amount is 110x30 = 3300meq ECV = 1/3 of TBW = 10L Her extracellular Na amount is 110X10 = 1100meq

21 TBW (L) = 60% weight (1L=1kg) A 50kg woman has a Na conc of 110meq/L Her TBW is therefore 30L (0.6x50) Her total body sodium amount is 110x30 = 3300meq ECV = 1/3 of TBW = 10L Her extracellular Na amount is 110X10 = 1100meq She is given 1000ml 0.9%NaCl, containing 154meq Na Extracelular Na amount is now 1254 (1100+154) TBW is now 31L

22 TBW (L) = 60% weight (1L=1kg) A 50kg woman has a Na conc of 110meq/L Her TBW is therefore 30L (0.6x50) Her total body sodium amount is 110x30 = 3300meq ECV = 1/3 of TBW = 10L Her extracellular Na amount is 110X10 = 1100meq She is given 1000ml 0.9%NaCl, containing 154meq Na Extracelular Na is now 1254 (1100+154) TBW is now 31L Her new Na conc is 3454/31 = 111meq/L

23 TBW (L) = 60% weight (1L=1kg) A 50kg woman has a Na conc of 110meq/L Her TBW is therefore 30L (0.6x50) Her total body sodium amount is 110x30 = 3300meq ECV = 1/3 of TBW = 10L Her extracellular Na amount is 110X10 = 1100meq She is given 1000ml 0.9%NaCl, containing 154meq Na Extracelular Na is now 1254 (1100+154) TBW is now 31L Her new Na conc is 3454/31 = 111meq/L Her ECV is now 1254/110 = 11.4L –(It has increase by >1L as the sodium has drawn water out of the cells)

24 TBW (L) = 60% weight (1L=1kg) A 50kg woman has a Na conc of 110meq/L Her TBW is therefore 30L (0.6x50) Her total body sodium amount is 110x30 = 3300meq ECV = 1/3 of TBW = 10L Her extracellular Na amount is 110X10 = 1100meq She is given 1000ml 0.9%NaCl, containing 154meq Na Extracelular Na is now 1254 (1100+154) TBW is now 31L Her new Na conc is 3454/31 = 111meq/L Her ECV is now 1254/110 = 11.4L So in hypovolaemia 1L saline increases Na conc by about 1meq/L and increases ECV by just over a litre.

25 SIADH Increased ADH whatever the water status is (inappropriate) Sodium handling is intact (regulated by Aldosterone) Pathogenesis –Increased ADH leads to increased TBW and decreased Na conc. –The hypervolaemia triggers increased Na and water loss –The patient is now euvolaemic but with decreased sodium amount –Potassium is also excreted to reduce cellular swelling

26 Causes Medication Surgery Malignancy Infection CNS disease It’s therefore not a diagnosis on it’s own!

27 Treatment Fluid restriction if possible Not possible if: –Seizures or unconcious –Associated with SAH (risk of vasospasm) Nb differentiate from CSW by volume status In these situations give fluid

28 Fluid Tx in SIADH The solute conc in the administered fluid MUST be > that of the urine. In SIADH the urine Osm is fixed (as ADH is unchanged) so if increased solute increased urine output & vice versa. The aim is to make the patient loose water not gain Na

29 If urine osm is 616meq/L and serum Na conc is 120meq/L 1000ml 0.9%NaCl given (osm = 308) –Initially Na conc will rise (154>120) –But the increased Na will be excreted (not hypovolaemic and RAAS system unaffected) –To excrete 308 osm with a fixed urine osm of 616, 500ml urine will be passed. –1000ml in, 500ml out so water increased, Na conc decreases further.

30 So in SIADH…. Fluid restrict if you can Give hypertonic saline if you can’t

Download ppt "Acute Treatment of Hyponatraemia. Sodium concentration less than 135meq/L ICCU treats those with much lower levels, or very acute drops (as they are symptomatic)"

Similar presentations

Charles Cline MD, PhD Medical Director Otsuka Pharma Scandinavia

Charles Cline MD, PhD Medical Director Otsuka Pharma Scandinavia
Fluids & Electrolytes Pediatric Emergency Medicine Boston Medical Center Boston University School of Medicine.

Fluids & Electrolytes Pediatric Emergency Medicine Boston Medical Center Boston University School of Medicine.
Electrolyte management in the PICU 2012. Goals To discuss the pathophysiology of electrolyte disturbances To review the acute management of electrolyte.

Electrolyte management in the PICU Goals To discuss the pathophysiology of electrolyte disturbances To review the acute management of electrolyte.
Fluid & Electrolyte Imbalance

Fluid & Electrolyte Imbalance
Fluid and Electrolyte Balance

Fluid and Electrolyte Balance
Fluid & Electrolyte Disorders

Fluid & Electrolyte Disorders
LPN-C Unit Three Fluids and Electrolytes. Why are fluids and electrolytes important for the nurse to understand? Fluids and electrolytes are essential.

LPN-C Unit Three Fluids and Electrolytes. Why are fluids and electrolytes important for the nurse to understand? Fluids and electrolytes are essential.
INTERACTIVE CASE DISCUSSION

INTERACTIVE CASE DISCUSSION
Sodium and Water: What Laboratory Scientists Need to Know Graham Jones Staff Specialist in Chemical Pathology St Vincent’s Hospital, Sydney Presented RCPA/AACB.

Sodium and Water: What Laboratory Scientists Need to Know Graham Jones Staff Specialist in Chemical Pathology St Vincent’s Hospital, Sydney Presented RCPA/AACB.
Fluid and Electrolyte Management Presented by :sajede sadeghzade.

Fluid and Electrolyte Management Presented by :sajede sadeghzade.
Zehra Eren,M.D..  explain general principles of disorders of water balance  explain general principles of disorders of sodium balance  explain general.

Zehra Eren,M.D..  explain general principles of disorders of water balance  explain general principles of disorders of sodium balance  explain general.
Fluid and electrolyte imbalance Emad Al Khatib, RN,MSN,CNS 1-11-2010.

Fluid and electrolyte imbalance Emad Al Khatib, RN,MSN,CNS
Hyponatremia and Other Critical Electrolyte Abnormalities

Hyponatremia and Other Critical Electrolyte Abnormalities
Electrolyte Disturbance Dr. Khalid Jamal Hamdi.

Electrolyte Disturbance Dr. Khalid Jamal Hamdi.
This lecture was conducted during the Nephrology Unit Grand Ground by Medical Student under Nephrology Division under the supervision and administration.

This lecture was conducted during the Nephrology Unit Grand Ground by Medical Student under Nephrology Division under the supervision and administration.
Of Disorders Sodium By Mohammad El-Tahlawi.  To Understand : The differences between sodium concentration and content. The causes and management of hypernatermia.

Of Disorders Sodium By Mohammad El-Tahlawi.  To Understand : The differences between sodium concentration and content. The causes and management of hypernatermia.
Nadin Abdel Razeq, PhD. Objectives To gain awareness of the proper procedure of peripheral IV access in pediatrics To review types of IV fluids used in.

Nadin Abdel Razeq, PhD. Objectives To gain awareness of the proper procedure of peripheral IV access in pediatrics To review types of IV fluids used in.
Tuesday Conference Approach to Hyponatremia Selim Krim, MD Assistant Professor TTUHSC.

Tuesday Conference Approach to Hyponatremia Selim Krim, MD Assistant Professor TTUHSC.
Severe hyponatraemia Detlef Bockenhauer. Objectives To provide an overview of hyponatraemia by giving case scenarios Aetiology Assessment management.

Severe hyponatraemia Detlef Bockenhauer. Objectives To provide an overview of hyponatraemia by giving case scenarios Aetiology Assessment management.
Hyponatremia in neonatology Kirsten L Brunsvig 03.05.10.

Hyponatremia in neonatology Kirsten L Brunsvig

Similar presentations

Ads by Google