Acid-Base Balance By: Hannah Coakley 2/27/2014. Quick Review: Acids Acids are compounds which...
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Transcript of Acid-Base Balance By: Hannah Coakley 2/27/2014. Quick Review: Acids Acids are compounds which...
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Acid-Base Balance
By: Hannah Coakley2/27/2014
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Quick Review: AcidsAcids are compounds which function as
hydrogen (H+) donors in biochemical equations/solutes
The more free H+ ions available for donation, the more acidic the compound
Many foods that are “acidic” in taste are actually metabolized into basic compounds in the body
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Quick Review: Bases
Bases are compounds which can accept H+ ions.
This is accomplished by having an excess of OH- (hydroxide) ions
The terms “basic” and “alkaline” are used interchangeably
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Quick Review: pH
pH is the –log of H+ concentration in any given solute
Its range spans from 0 – 14
A lower pH implies a high H+ concentration (acidic). A higher pH implies a low H+ concentration (basic)
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The pH Scale
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Role of pH in the BodyIntra and extracellular pH levels are tightly
regulated:
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Acids & Bases in the Body
The body naturally produces more H+ than OH- ions
This occurs in several ways:-- The metabolism of fats (fatty acids) and proteins (amino acids)
-- The byproduct of cellular respiration: where carbonic acid breaks down into CO2 and H20 to be breathed out by the lungs
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The Chemical Buffer System
Works to regulate pH by taking up or releasing H+ ions accordingly
Protects neutrality, usually by pairing a weak acid with a base
Also functions by substituting a strong acid or base for a weak one
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Methods of Excretion
The other primary way to maintain pH homeostasis is through the excretion of excess acids or bases.
Respiratory excretion of CO2 using rate and depth of breath
Renal excretion, which eliminates acids and can also regulate the amount of circulating bicarbonate (HCO3
-)
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pH Balance Visualized
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Defining Acidosis and Alkalosis
Acidosis:• pH< 7.35 • Primary effect is in suppression of the CNS decreased Ca
binding to protein, high I-Cal• Weakness, coma, death
Alkalosis:• pH > 7.45• Primary effect is in overstimulation of CNS & PNS
increased Ca binding to protein, low I-Cal• Lightheadedness, spasms/tetany, death
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Metabolic vs Respiratory
Metabolic Acidosis loss of relative concentration of bicarbonate ion (< 22 mEq/L)
(Symptoms: Headache, lethargy, N/V/D, coma)
Metabolic Alkalosis excess of relative concentration of bicarbonate ion (> 26 mEq/L)
(Symptoms: electrolyte depletion, tetany, slow and/or shallow breathing, tachycardia)
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Metabolic vs Respiratory
Respiratory Acidosis carbonic acid excess leading to hypercapnia (pCO2 > 45 mm Hg)
(Symptoms: warm, flushed skin vasodilation, breathlessness, hypoventilation, disorientation, tremors)
Respiratory Alkalosis carbonic acid deficit leading to hypocapnia (pCO2 < 35 mm Hg)
(Symptoms: dizziness, lightheaded, numbness of extremities)
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Compensatory Mechanisms
Depending upon the primary acid-base
imbalance, the body will compensate using a
secondary mechanism in order to return pH
homeostasis to the body
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Compensation: Metabolic
Metabolic Acidosis Increased Ventilation to eliminate excess CO2
(Hyperventilation)
K+ & PO4 shifting from ICF to ECF to function as a buffer (H+ shifts into the cells)
Metabolic Alkalosis Decreased ventilation (Hypoventilation)
limited by constraints of hypoxia
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Compensation: Respiratory
Respiratory Acidosis Kidneys eliminate excess H+ ions, retain
Bicarbonate ions
Respiratory Alkalosis Kidneys conserve H+ ions and excrete excess
Bicarb ions K+ shift from ECF to ICF to increase circulating
H+ (sudden low serum K+)
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Calculating the Anion Gap
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Interpreting the Anion GapIf the Anion gap is > than 26 mEq/L this is
considered normochloremic acidosis
If the anion gap is WNL (6 – 12 mEq/L), this is considered hyperchloremic acidosis
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Understanding Base Excess
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Mixed Acid-Base Disorders
More than one acid/base disturbance can occur concomitantly in the body
If unexpected lab values are noted, there is good reason to suspect a mixed acid-base
disorder
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Treatment Strategies: Metabolic
Acidosis If Hyperchloremic: IV-Lactate solution is given, this is converted
to bicarb in the liver, thus raising the relative concentration of bicarbonate in the blood (shift of K+ back into ICF and may cause a need for it to be repleted)
If Normochloremic:Identify and correct sources of excess acids
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Treatment Strategies: Metabolic
AlkalosisSaline Responsive (urine Cl- < 10 mEq/L)IV-NaCl solution is given to physiologically replace the excess bicarbonate ions in the blood with Cl
** Administration of KCl is also essential, as adequate K+ buffer in the ECF is essential to fully correcting the alkalosis
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Treatment Strategies: Respiratory
Acidosis-- Treat the underlying dysfunction or disease
-- Restore appropriate ventilation
-- Add IV-lactate to aid in compensatory bicarb production
-- Ensure that the patient is not being overfed, as this will prolong acidosis (via excess CO2 production)
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Treatment Strategies: Respiratory
Alkalosis-- Treat underlying dysfunction or disease
-- Attempt to slow respiration
-- Add IV-Cl to aid in compensatory replacement of excess bicarb
-- Replete K+ as needed, since K+ shifts intracellularly in exchange for H+ in the ECF
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Correcting Acid/Base Imbalance:Step By Step
1) Analyze the pH
2) Analyze the pCO2
3) Analyze the HCO3
4) Match the pCO2 or the HCO3 with the pH
5) Assess AG and BE
6) Assess directionality/compensation
7) Analyze the pCO2 and O2 saturation
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Check Your Knowledge
Scenario #1a:
pH: acidic // CO2: high // HCO3: high
What is the primary imbalance? Is there evidence of compensation?
#1b: What if HCO3 was normal? Low?
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Take Home:What is the RD’s Role?
Monitoring
Treatment (Repletion of electrolytes and fluids)
Maintenance (appropriate TF or TPN)
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Thank You!
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ReferencesBrantley, Susan. The ABCs of ABGs. Support Line. UT Medical Center, Knoxville, TN.
Langley, Ginger. Fluid, Electrolytes, and Acid-Case Disorders. A.S.P.E.N Nutrition Support Core Curriculum, 2007.
Gilmore, Diane M. Acid Base Balance and Imbalance. Arkansas State University, Dept of Pathophysiology, 2012.
Ebihara, L. & West, John. Acid-Base Balance, A Respiratory Approach. Repiratory Physiology, The Essentials. 2011
Jaber, Bertrand. Metabolic Acidosis. Tufts University Open Courseware, Renal Pathophysiology. 2007.
Kibble, Jonathan D.& Colby R. Halsey, Medical Physiology: The Big Picture. 2009.
Skujor, Mario & Mira Milas. Endocrinology. Cleveland Clinic: Center for Continuing Education. 2013