Anion gap: Difference between revisions
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{{SI}} | {{SI}} | ||
{{CMG}}; '''Associate Editor(s)-In-Chief:''' [[Priyamvada Singh|Priyamvada Singh, M.D.]] [mailto: | {{CMG}}; '''Associate Editor(s)-In-Chief:''' [[Priyamvada Singh|Priyamvada Singh, M.D.]] [mailto:psingh13579@gmail.com] | ||
==Overview== | ==Overview== | ||
The anion gap is a representative of the unmeasured anions in the plasma, and is made of negatively charged phosphates, sulfates, organic acids and plasma proteins (including albumin). Rather than measuring all these anions in a patient, an indirect way is to measure the difference of the dominant cation i.e. sodium to the dominant anion i.e. chloride and bicarbonate, with the understanding that the difference in anions is caused due to the unmeasured anions i.e. phosphate, sulfate, and albumin. Chloride and bicarbonate comprise 85% of the anions in the serum. The differential diagnosis of a patient with a metabolic acidosis is broad and can be narrowed and further evaluated by calculating the anion gap. Normal reference range AG is between 3 and 11 meq/L (average 6 meq/L). | The anion gap is a representative of the unmeasured anions in the plasma, and is made of negatively charged phosphates, sulfates, organic acids and plasma proteins (including albumin). Rather than measuring all these anions in a patient, an indirect way is to measure the difference of the dominant cation i.e. sodium to the dominant anion i.e. chloride and bicarbonate, with the understanding that the difference in anions is caused due to the unmeasured anions i.e. phosphate, sulfate, and albumin. Chloride and bicarbonate comprise 85% of the anions in the serum. The differential diagnosis of a patient with a metabolic acidosis is broad and can be narrowed and further evaluated by calculating the anion gap. Normal reference range AG is between 3 and 11 meq/L (average 6 meq/L). | ||
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==Calculation== | ==Calculation== | ||
It is calculated by subtracting the serum concentrations of [[chloride]] and [[bicarbonate]] (anions) from the concentrations of [[sodium]] plus [[potassium]] ([[cations]]): | It is calculated by subtracting the serum concentrations of [[chloride]] and [[bicarbonate]] (anions) from the concentrations of [[sodium]] plus [[potassium]] ([[cations]]): | ||
: Serum AG = Measured cations - measured anions; Serum AG = Na - (Cl + HCO3) | |||
: Serum AG = Unmeasured anions - unmeasured cations | |||
: Anion Gap = ( [Na<sup>+</sup>]+[K<sup>+</sup>] ) - ( [Cl<sup>-</sup>]+[HCO<sub>3</sub><sup>-</sup>] ) | |||
However, for daily practice, the potassium is frequently ignored, leaving the following equation: | |||
: Anion Gap = ( [Na<sup>+</sup>] ) - ( [Cl<sup>-</sup>]+[HCO<sub>3</sub><sup>-</sup>] ) | |||
==Interpretation== | ==Interpretation== | ||
Anion gap can be classified as either high, normal or, in rare cases, low. A high anion gap indicates that there is loss of HCO<sub>3</sub><sup>-</sup> without a subsequent increase in Cl<sup>-</sup>. Electroneutrality is maintained by the increased production of anions like [[ketone|ketones]], [[lactate]], PO<sub>4</sub><sup>-</sup>, and SO<sub>4</sub><sup>-</sup>; these anions are not part of the anion-gap calculation and therefore a high anion gap results. In patients with a normal anion gap the drop in HCO<sub>3</sub><sup>-</sup> is compensated for by an increase in Cl<sup>-</sup> and hence is also known as [[hyperchloremic acidosis]]. | Anion gap can be classified as either high, normal or, in rare cases, low. A high anion gap indicates that there is loss of HCO<sub>3</sub><sup>-</sup> without a subsequent increase in Cl<sup>-</sup>. Electroneutrality is maintained by the increased production of anions like [[ketone|ketones]], [[lactate]], PO<sub>4</sub><sup>-</sup>, and SO<sub>4</sub><sup>-</sup>; these anions are not part of the anion-gap calculation and therefore a high anion gap results. In patients with a normal anion gap the drop in HCO<sub>3</sub><sup>-</sup> is compensated for by an increase in Cl<sup>-</sup> and hence is also known as [[hyperchloremic acidosis]]. | ||
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===Low anion gap=== | ===Low anion gap=== | ||
A low anion gap is relatively rare but may occur from the presence of abnormal positively charged proteins, as in [[multiple myeloma]], or in the setting of a low [[human serum albumin|serum albumin]] level. The mnemonic for low anion gap is '''BAM''' | A low anion gap is relatively rare but may occur from the presence of abnormal positively charged proteins, as in [[multiple myeloma]], or in the setting of a low [[human serum albumin|serum albumin]] level. The mnemonic for low anion gap is '''BAM''' | ||
* '''B''' - Bromism | * '''B''' - [[Bromism]] | ||
* '''A''' - (Low) Albumin | * '''A''' - (Low) Albumin ([[Hypoalbuminemia]]) | ||
* '''M''' - Multiple myeloma | * '''M''' - [[Multiple myeloma]] | ||
===Normal anion gap ([[hyperchloremic acidosis]])=== | ===Normal anion gap ([[hyperchloremic acidosis]])=== | ||
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The mnemonic for the most common causes of a normal-anion gap metabolic acidosis is "DURHAM." | The mnemonic for the most common causes of a normal-anion gap metabolic acidosis is "DURHAM." | ||
* '''D'''- Diarrhea | * '''D'''- [[Diarrhea]] | ||
* '''U'''- Ureteral diversion | * '''U'''- [[Ureteral diversion]] | ||
* '''R'''- Renal tubular acidosis | * '''R'''- [[Renal tubular acidosis]] | ||
* '''H'''- Hyperailmentation | * '''H'''- [[Hyperailmentation]] | ||
* '''A'''- Addison's disease, acetazolamide, ammonium chloride | * '''A'''- [[Addison's disease]], [[acetazolamide]], [[ammonium chloride]] | ||
* '''M'''- Miscellaneous (chloridorrhea, amphotericin B, toluene - toluene causes high anion gap metabolic acidosis followed by normal anion gap metabolic acidosis. | * '''M'''- Miscellaneous (chloridorrhea, [[amphotericin B]], [[toluene]] - toluene causes high anion gap metabolic acidosis followed by normal anion gap metabolic acidosis. | ||
===High anion gap=== | ===High anion gap=== | ||
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The mnemonic "MUDPILES" is used to remember the causes of a high anion gap. | The mnemonic "MUDPILES" is used to remember the causes of a high anion gap. | ||
'''M''' - [[methanol]]/[[ | '''M''' - [[methanol]]/[[Metformin]]<br /> | ||
'''U''' - [[ | '''U''' - [[Uremia]]<br /> | ||
'''D''' - [[ | '''D''' - [[Diabetic ketoacidosis]]<br /> | ||
'''P''' - [[ | '''P''' - [[Paraldehyde]]/[[Propylene glycol]]<br /> | ||
'''I''' - [[Infection]]/[[ | '''I''' - [[Infection]]/[[Ischemia]]/[[Isoniazid]]<br /> | ||
'''L''' - [[ | '''L''' - [[Lactate]]<br /> | ||
'''E''' - [[ | '''E''' - [[Ethylene glycol]]/[[Ethanol]]<br /> | ||
'''S''' - [[ | '''S''' - [[Salicylates]]/[[Starvation]] | ||
Some people, especially those not in the emergency room, find the mnemonic KIL-U easier to remember and also more useful clinically: | Some people, especially those not in the emergency room, find the mnemonic KIL-U easier to remember and also more useful clinically: | ||
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'''Lactate''': including that caused by infection and shock | '''Lactate''': including that caused by infection and shock | ||
===Coexistent elevated anion gap and normal anion gap metabolic acidosis=== | |||
* An elevated anion gap can coexist with a normal anion gap [[metabolic acidosis]]. | |||
* In a single [[acid-base disorder]] of elevated anion gap metabolic acidosis, serum bicarbonate (HCO3) will decrease by the same amount that the anion gap increases. | |||
* However, a situation in which the [[anion gap]] increases less and serum bicarbonate decreases significantly indicates that there is another metabolic acidosis present, which is decreasing the the serum bicarbonate, but not affecting the anion gap i.e. normal anion gap metabolic acidosis is also present. | |||
* Thus, it is advised to compare the changes in the anion gap with the changes in the serum bicarbonate. | |||
* This is often referred as the delta-delta equation, or the corrected bicarbonate equation. | |||
* '''Delta-Delta equation''': Change in anion gap = Change in bicarbonate | |||
==References== | ==References== | ||
<div class="references-small" style="-moz-column-count:2; column-count:2;"> | <div class="references-small" style="-moz-column-count:2; column-count:2;"> | ||
<references/> | <references/> | ||
</div> | </div> | ||
== | |||
*[ | ==Related Chapters== | ||
*[ | * [[Metabolic alkalosis]] | ||
*[ | * [[Acid-base imbalance]] | ||
* [ | * [[Metabolic acidosis]] | ||
* [[Respiratory acidosis]] | |||
* [[Respiratory alkalosis]] | |||
* [[Hypocalcemia]] | |||
[[Category:Electrolyte disturbance]] | [[Category:Electrolyte disturbance]] | ||
[[Category: | [[Category:Inborn errors of metabolism]] | ||
[[Category: | [[Category:Medical tests]] | ||
[[Category:Laboratory Test]] | |||
[[ | |||
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-In-Chief: Priyamvada Singh, M.D. [2]
Overview
The anion gap is a representative of the unmeasured anions in the plasma, and is made of negatively charged phosphates, sulfates, organic acids and plasma proteins (including albumin). Rather than measuring all these anions in a patient, an indirect way is to measure the difference of the dominant cation i.e. sodium to the dominant anion i.e. chloride and bicarbonate, with the understanding that the difference in anions is caused due to the unmeasured anions i.e. phosphate, sulfate, and albumin. Chloride and bicarbonate comprise 85% of the anions in the serum. The differential diagnosis of a patient with a metabolic acidosis is broad and can be narrowed and further evaluated by calculating the anion gap. Normal reference range AG is between 3 and 11 meq/L (average 6 meq/L).
Uses
The primary function of the anion gap measurement is to allow a clinician to narrow down the possible causes of a patient's metabolic acidosis. For example, if a patient presents with metabolic acidosis, but a normal anion gap, then conditions that cause a high anion gap can be ruled out as being the cause of the acidosis.
Calculation
It is calculated by subtracting the serum concentrations of chloride and bicarbonate (anions) from the concentrations of sodium plus potassium (cations):
- Serum AG = Measured cations - measured anions; Serum AG = Na - (Cl + HCO3)
- Serum AG = Unmeasured anions - unmeasured cations
- Anion Gap = ( [Na+]+[K+] ) - ( [Cl-]+[HCO3-] )
However, for daily practice, the potassium is frequently ignored, leaving the following equation:
- Anion Gap = ( [Na+] ) - ( [Cl-]+[HCO3-] )
Interpretation
Anion gap can be classified as either high, normal or, in rare cases, low. A high anion gap indicates that there is loss of HCO3- without a subsequent increase in Cl-. Electroneutrality is maintained by the increased production of anions like ketones, lactate, PO4-, and SO4-; these anions are not part of the anion-gap calculation and therefore a high anion gap results. In patients with a normal anion gap the drop in HCO3- is compensated for by an increase in Cl- and hence is also known as hyperchloremic acidosis.
Complete Differential Diagnosis of the Causes of Anion gap
Low anion gap
A low anion gap is relatively rare but may occur from the presence of abnormal positively charged proteins, as in multiple myeloma, or in the setting of a low serum albumin level. The mnemonic for low anion gap is BAM
- B - Bromism
- A - (Low) Albumin (Hypoalbuminemia)
- M - Multiple myeloma
Normal anion gap (hyperchloremic acidosis)
Usually the HCO3- lost is replaced by a chloride anion, and thus there is a normal anion gap. In normal anion gap acidosis, the increased anion is chloride, which is measured, so the anion gap does not increase. Thus, normal anion gap acidosis is also known as hyperchloremic acidosis. Urine anion gap is useful in evaluating a patient with a normal anion gap.
The mnemonic for the most common causes of a normal-anion gap metabolic acidosis is "DURHAM."
- D- Diarrhea
- M- Miscellaneous (chloridorrhea, amphotericin B, toluene - toluene causes high anion gap metabolic acidosis followed by normal anion gap metabolic acidosis.
High anion gap
The bicarbonate lost is replaced by an unmeasured anion and thus you will see a high anion gap. The mnemonic "MUDPILES" is used to remember the causes of a high anion gap.
M - methanol/Metformin
U - Uremia
D - Diabetic ketoacidosis
P - Paraldehyde/Propylene glycol
I - Infection/Ischemia/Isoniazid
L - Lactate
E - Ethylene glycol/Ethanol
S - Salicylates/Starvation
Some people, especially those not in the emergency room, find the mnemonic KIL-U easier to remember and also more useful clinically:
K - Ketones
I - Ingestion
L - lactic acid
U - uremia
All of the components of "mudpiles" are also covered with the "KIL-U" device, with the bonus that these are things that can kill you.
Ketones: more straightforward than remembering diabetic ketosis and starvation ketosis, etc.
Ingestion: methanol, metformin, paraldehyde, propylene glycol, isoniazid, ethylene glycol, ethanol, and salicilates are covered by ingestion. These can be thought of as a single group: "ingestions" during the initial consideration, especially when not triaging a patient in the emergency room.
Lactate: including that caused by infection and shock
Coexistent elevated anion gap and normal anion gap metabolic acidosis
- An elevated anion gap can coexist with a normal anion gap metabolic acidosis.
- In a single acid-base disorder of elevated anion gap metabolic acidosis, serum bicarbonate (HCO3) will decrease by the same amount that the anion gap increases.
- However, a situation in which the anion gap increases less and serum bicarbonate decreases significantly indicates that there is another metabolic acidosis present, which is decreasing the the serum bicarbonate, but not affecting the anion gap i.e. normal anion gap metabolic acidosis is also present.
- Thus, it is advised to compare the changes in the anion gap with the changes in the serum bicarbonate.
- This is often referred as the delta-delta equation, or the corrected bicarbonate equation.
- Delta-Delta equation: Change in anion gap = Change in bicarbonate