acid base balance
DESCRIPTION
physiology, acid base balance acid base homeostasis acid base regulation in the body acid base regulationTRANSCRIPT
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ACID - BASE Balance
PHYSIOLOGY
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ACID BASE HOMEOSTASIS
Acid-Base homeostasis involves chemical and physiologic processes responsible for the maintenance of the acidity of body fluids at levels that allow optimal function of the whole individual
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ACID BASE HOMEOSTASIS
The chemical processes represent the first line of defense to an acid or base load and include the extracellular and intracellular buffers
The physiologic processes modulate acid-base composition by changes in cellular metabolism and by adaptive responses in the excretion of volatile acids by the lungs and fixed acids by the kidneys
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ACID BASE HOMEOSTASIS
The need for the existence of multiple mechanisms involved in Acid-Base regulation stems from the critical importance of the hydrogen ion (H+) concentration on the operation of many cellular enzymes and function of vital organs, most prominently the brain and the heart
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ACID BASE HOMEOSTASIS◦Metabolic pathways are continuously consuming or producing H+
◦The daily load of waste products for excretion in the form of volatile and fixed acids is substantial
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EFFECTS OF pH The most general effect of pH changes are on enzyme function
◦Also affect excitability of nerve and muscle cells
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pH
pH
Excitability
Excitability
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ACID-BASE BALANCE
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ACID-BASE BALANCE
Acid - Base balance is primarily concerned with two ions:
◦Hydrogen (H+)
◦Bicarbonate (HCO3- )
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H+ HCO3-
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ACID-BASE BALANCE Derangements of hydrogen and bicarbonate concentrations in body fluids are common in disease processes
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ACID-BASE BALANCE
H+ ion has special significance because of the narrow ranges that it must be maintained in order to be compatible with living systems
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ACID-BASE BALANCE
Primarily controlled by regulation of H+ ions in the body fluids
◦Especially extracellular fluids
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ACID-BASE REGULATION
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ACID-BASE REGULATION
Maintenance of an acceptable pH range in the extracellular fluids is accomplished by three mechanisms:
◦1) Chemical Buffers
React very rapidly(less than a second)
◦2) Respiratory Regulation
Reacts rapidly (seconds to minutes)
◦3) Renal Regulation
Reacts slowly (minutes to hours)13
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ACID-BASE REGULATION
Chemical Buffers◦ The body uses pH buffers in the blood to guard against sudden changes in acidity
◦ A pH buffer works chemically to minimize changes in the pH of a solution
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OH
H
H
OH
OH
Buffer
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ACID-BASE REGULATION Respiratory Regulation
◦ Carbon dioxide is an important by-product of metabolism and is constantly produced by cells
◦ The blood carries carbon dioxide to the lungs where it is exhaled
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CO2CO2 CO2
CO2CO2
CO2
Cell Metabolism
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ACID-BASE REGULATION
Respiratory Regulation◦ When breathing is increased,the blood carbon dioxide leveldecreases and the bloodbecomes more Base
◦ When breathing is decreased,the blood carbon dioxide levelincreases and the blood becomes more Acidic
◦ By adjusting the speed and depth of breathing, the respiratory control centers and lungs are able to regulate the blood pH minute by minute
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ACID-BASE REGULATION
Kidney Regulation◦ Excess acid is excreted by the kidneys, largely in the form of ammonia
◦ The kidneys have some ability to alter the amount of acid or base that is excreted, but this generally takes several days
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ACID-BASE REGULATION Enzymes, hormones and ion distribution are all affected by Hydrogen ion concentrations
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ACIDS
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ACIDS Acids can be defined as a proton (H+) donor Hydrogen containing substances which dissociate
in solution to release H+
Many other substance (carbohydrates) also contain hydrogen but they are not classified as acids because the hydrogen is tightly bound within their molecular structure and it is never liberated as free H+
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ACIDS Physiologically important acids include:
◦Carbonic acid (H2CO3)◦Phosphoric acid (H3PO4)◦Pyruvic acid (C3H4O3)◦Lactic acid (C3H6O3)
These acids are dissolved in body fluids
Lactic acid
Pyruvic acid
Phosphoric acid
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BASES
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BASES
Bases can be defined as:◦A proton (H+) acceptor◦Molecules capable of accepting a hydrogen ion (OH-)
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BASES
Physiologically important bases include:◦Bicarbonate (HCO3
- )◦Biphosphate (HPO4
-2 )
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Biphosphate
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pH SCALE
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pH SCALE pH refers to Potential Hydrogen
Expresses hydrogen ion concentration in water solutions
Water ionizes to a limited extent to form equal amounts of H+ ions and OH- ions
◦H2O H+ + OH-
H+ion is an acid
OH-ion is a base
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pH SCALE
Pure water is Neutral◦ ( H+ = OH- ) pH = 7
Acid◦ ( H+ > OH- ) pH < 7
Base◦ ( H+ < OH- ) pH > 7
Normal blood pH is 7.35 - 7.45 pH range compatible with life is 6.8 - 8.0
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OH-
OH-
OH-
OH-
OH-
OH-
H+
H+
H+
H+
OH-
OH-
OH-
OH-OH-
H+
H+
H+
H+
OH-
OH-
OH-
H+
H+
H+
H+H+
H+
H+
ACIDS, BASES OR NEUTRAL???
1
2
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pH SCALE
pH = 4 is more acidic than pH = 6
pH = 4 has 10 times more free H+
concentration than pH = 5 and 100 times more free H+ concentration than pH = 6
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ACIDOSIS ALKALOSISNORMAL
DEATH DEATH
Venous Blood
Arterial Blood
7.3 7.57.46.8 8.0
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ACIDOSIS / ALKALOSIS
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ACIDOSIS / ALKALOSIS
An abnormality in one or more of the pH control mechanisms can cause one of two major disturbances in Acid-Base balance
◦Acidosis
◦Alkalosis
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ACIDOSIS / ALKALOSIS
Acidosis and alkalosis are not diseases but rather are the results of a wide variety of disorders
The presence ofacidosis oralkalosis providesan important clueto physicians thata seriousmetabolicproblem exists 31
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ACIDOSIS / ALKALOSIS
Acidosis◦ A condition in which the blood has too much acid (or too little base), frequently resulting in a decrease in blood pH
Alkalosis◦ A condition in which the blood has too much base (or too little acid), occasionally resulting in an increase in blood pH
ACID BASE
ACID BASE
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ACIDOSIS / ALKALOSIS
pH changes have dramatic effects on normal cell function
◦1) Changes in excitability of nerve and muscle cells
◦2) Influences enzyme activity
◦3) Influences K+ levels
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CHANGES IN CELL EXCITABILITY
pH decrease (more acidic) depresses the central nervous system
◦Can lead to loss of consciousness
pH increase (more basic) can cause over-excitability
◦Tingling sensations, nervousness, muscle twitches
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INFLUENCES ON ENZYME ACTIVITY
pH increases or decreases can alter the shape of the enzyme rendering it non-functional
Changes in enzyme structure can result in accelerated or depressed metabolic actions within the cell
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INFLUENCES ON K+ LEVELS When reabsorbing
Na+ from the filtrate of the renal tubules K+
or H+ is secreted (exchanged)
Normally K+ issecreted in muchgreater amountsthan H+
K+
K+K+K+K+K+K+Na+Na+Na+Na+Na+Na+
H+
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INFLUENCES ON K+ LEVELS
If H+ concentrations are high (acidosis) H+ is secreted in greater amounts
This leaves less K+ than usual excreted The resultant K+ retention can affect cardiac function and other systems
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K+K+K+Na+Na+Na+Na+Na+Na+
H+H+H+H+H+H+H+
K+K+K+K+K+
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ACIDOSIS / ALKALOSISNormal values of bicarbonate (arterial)
◦pH = 7.4
◦PCO2 = 40 mm Hg
◦HCO3- = 24 meq/L
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RESPONSES TO:ACIDOSIS AND ALKALOSIS
Mechanisms protect the body against life-threatening changes in hydrogen ion concentration
◦1) Buffering Systems in Body Fluids
◦2) Respiratory Responses
◦3) Renal Responses
◦4) Intracellular Shifts of Ions
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1) Buffer Systems2) Respiratory Responses3) Renal Responses4) Intracellular Shifts of Ions
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BUFFERS Buffering systems provide an immediate response to fluctuations in pH◦1) Phosphate◦2) Protein◦3) Bicarbonate Buffer System
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BUFFERS A buffer is a combination of chemicals in solution that resists any significant change in pH
Able to bind or release free H+ ions
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BUFFERS Chemical buffers are able to react immediately (within milliseconds)
Chemical buffers are the first line of defense for the body for fluctuations in pH
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1) Phosphate buffer system
Na2HPO4 + H+ NaH2PO4 + Na+
◦ Most important in the intracellular system◦ Alternately switches Na+ with H+
PHOSPHATE BUFFER SYSTEM
H+ Na2HPO4+
NaH2PO4Click to animate
Na++
Disodium hydrogen phosphate
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Na2HPO4 + H+ NaH2PO4 + Na+
Phosphates are more abundant within the cell and are rivaled as a buffer in the ICF by even more abundant protein
PHOSPHATE BUFFER SYSTEM
Na2HPO4
Na2HPO4
Na2HPO4
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Regulates pH within the cells and the urine◦Phosphate concentrations are higher intracellularly and within the kidney tubules
◦Too low of aconcentration inextracellular fluidto have muchimportance as anECF buffer system
PHOSPHATE BUFFER SYSTEM
HPO4-2
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PROTEIN BUFFER SYSTEM 2) Protein Buffer System
◦Behaves as a buffer in both plasma and cells
◦Hemoglobin is by far the most important protein buffer
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PROTEIN BUFFER SYSTEM
Most important intracellular buffer (ICF)
The most plentiful buffer of the body
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PROTEIN BUFFER SYSTEM Proteins are excellent buffers because they contain both acid and base groups that can give up or take up H+
Proteins are extremely abundant in the cell
The more limited number of proteins in the plasma reinforce the bicarbonate system in the ECF
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PROTEIN BUFFER SYSTEM Hemoglobin buffers H+ from metabolically produced CO2 in the plasma only
As hemoglobin releases O2 it gains a great affinity for H+
Hb
O2
O2 O2
O2
H
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PROTEIN BUFFER SYSTEM
H+ generated at the tissue level from the dissociation of H2CO3 produced by the addition of CO2
Bound H+ to Hb (Hemoglobin) does not contribute to the acidity of blood
Hb
O2
O2 O2
O2
H
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PROTEIN BUFFER SYSTEM As H+Hb picks up O2 from the lungs the Hb which has a higher affinity for O2 releases H+ and picks up O2
Liberated H+ from H2O combines with HCO3
-
HCO3- H2CO3 CO2
(exhaled)
Hb
O2
O2 O2
H+
O
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PROTEIN BUFFER SYSTEM Venous blood is only slightly more acidic than arterial blood because of the tremendous buffering capacity of Hb
Even in spite of the large volume of H+
generating CO2 carried in venous blood
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Pr - added H+ + Pr -
PROTEIN BUFFER SYSTEM Proteins can act as a buffer for both acids and bases
Protein buffer system works instantaneously making it the most powerful in the body
75% of the body’s buffer capacity is controlled by protein◦Bicarbonate and phosphate buffer systems require several hours to be effective
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PROTEIN BUFFER SYSTEM Proteins are very large, complex molecules in comparison to the size and complexities of acids or bases
Proteins are surrounded by a multitude of negative charges on the outside and numerous positive charges in the crevices of the molecule
-
-
-- - - -
----
--
--------
-
----
--
-
- - --
+
+++
++
+++
+
+
++
++ +++
++
++
+++
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PROTEIN BUFFER SYSTEM H+ ions are attracted to and held from chemical interaction by the negative charges
-
-
-- - - -
----
--
--------
-
----
--
-
- - --
+
+++
++
+++
+
+
++
++ +++
++
++
+++
H+
H+
H+
H+ H+ H+ H+ H+ H+ H+
H+
H+
H+
H+
H+H+H+H+H+H+H+
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PROTEIN BUFFER SYSTEM
OH- ions which are the basis of alkalosis are attracted by the positive charges in the crevices of the protein
-
-
-- - - -
----
--
--------
-
----
--
-
- - --
+
+++
++
+++
+
+
++
++ +++
++
++
+++
OH-
OH-
OH-
OH-
OH-OH-
OH-
OH-
OH-
OH-OH-OH-
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PROTEIN BUFFER SYSTEM
-
-
-- - - -
----
--
--------
-
----
--
-
- - --
+
+++
++
+++
+
+
++
++ +++
++
++
+++
OH-
OH-
OH-
OH-
OH-OH-
OH-
OH-
OH-OH-
OH-
OH-H+
H+
H+
H+ H+ H+ H+ H+ H+ H+
H+
H+
H+
H+
H+H+H+H+H+H+H+
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BICARBONATE BUFFER SYSTEM
3) Bicarbonate Buffer System◦Predominates in extracellular fluid (ECF)
HCO3- + added H+ H2CO3
HCO3-
H2CO3
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BICARBONATE BUFFER SYSTEM This system is most important because the concentration of both components can be regulated:◦Carbonic acid by the respiratory system
◦Bicarbonate by the renal system
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BICARBONATE BUFFER SYSTEMH2CO3 H+ + HCO3
-
◦Hydrogen ions generated by metabolism or by ingestion react with bicarbonate base to form more carbonic acid
HCO3-
H2CO3
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BICARBONATE BUFFER SYSTEM Equilibrium shifts toward the formation of acid◦Hydrogen ions that are lost (vomiting) causes carbonic acid to dissociate yielding replacement H+ and bicarbonate
H+ HCO3-
H2CO3
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Loss of HCl
Addition of lactic acid
BICARBONATE BUFFER SYSTEM
H+ HCO3-
H2CO3H2OCO2 + +
Exercise
Vomiting
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1) Buffer Systems
2) Respiratory Responses3) Renal Responses4) Intracellular Shifts of Ions
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RESPIRATORY RESPONSE Neurons in the medulla oblongata and pons constitute the Respiratory Center
Stimulation and limitation of respiratory rates are controlled by the respiratory center
Control isaccomplished byresponding to CO2
and H+
concentrations inthe blood
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RESPIRATORY CENTER
Respiratory centers
Medulla oblongata
Pons
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CHEMOSENSITIVE AREAS Chemosensitive areas of the respiratory center are able to detect blood concentration levels of CO2 and H+
Increases in CO2 and H+ stimulate the respiratory center◦The effect is to raiserespiration rates But the effectdiminishes in1 - 2 minutes
CO2CO2
CO2
CO2CO2
CO2
CO2CO2
CO2Click to increase CO2
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CHEMOSENSITIVE AREAS
The effect of stimulating the respiratory centers by increased CO2
and H+ is weakened in environmentally increased CO2 levels
Symptoms may persist for several days
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CHEMORECEPTORS Chemoreceptors are also present in the carotid and aortic arteries which respond to changes in partial pressures of O2 and CO2 or pH
Increased levels ofCO2 (low pH) ordecreased levels ofO2 stimulaterespiration ratesto increase
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CHEMORECEPTORS Overall compensatory response is:
◦Hyperventilation in response to increased CO2 or H+ (low pH)
◦Hypoventilation in response to decreased CO2 or H+ (high pH)
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RESPIRATORY CONTROL OF pH
pH rises toward normal
rate and depth of breathing increase
CO2 eliminated in lungs
H+ stimulates respiratory center in medulla oblongata
H2CO3 H+ + HCO3-
H+ acidosis; pH drops
CO2 + H2O H2CO3
cell production of CO2 increases
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1) Buffer Systems
2) Respiratory Responses
3) Renal Responses4) Intracellular Shifts of Ions
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RENAL RESPONSE
The kidney compensates for Acid -Base imbalance within 24 hours and is responsible for long term control
The kidney in response:◦To AcidosisRetains bicarbonate ions and eliminates hydrogen ions
◦To AlkalosisEliminates bicarbonate ions and retains hydrogen ions
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ACIDIFICATION OF URINE BY EXCRETION OF AMMONIA
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ACIDIFICATION OF URINE BY EXCRETION OF AMMONIA
Capillary Distal Tubule Cells
Tubular urine to be excreted
NH2
H+
NH3
NH2
H+
NH3
WHAT HAPPENS
NEXT?
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Capillary Distal Tubule Cells
Tubular Urine
NH3
Na+
Cl-+H2CO3HCO3
-+NaCl
NaHCO3
Click Mouse to Start Animation
NaHCO3
NH3Cl-
H+
NH4Cl
Click Mouse to See Animation Again
Notice theH+ - Na+
exchange to maintain electrical neutrality
ACIDIFICATION OF URINE BY EXCRETION OF AMMONIA
Dissociation of carbonic acid
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RESPIRATORY / EXCRETORY RESPONSE
CO2 + H2O H2CO3 H+ + HCO3-
Hyperventilation removes H+ ion concentrations
Hypoventilation increases H+ ion concentrations
Kidneys eliminate or retainH+ or bicarbonate ions
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1) Buffer Systems
2) Respiratory Responses3) Renal Responses
4) Intracellular Shifts of Ions
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HYPERKALEMIA
Hyperkalemia is generally associated with acidosis
◦Accompanied by a shift of H+ ions into cells and K+ ions out of the cell to maintain electrical neutrality
H+ K+
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HYPERKALEMIA
Hyperkalemia is an elevated serum K+
◦H+ ions are buffered in cell by proteins
Acidosis may cause Hyperkalemiaand Hyperkalemia may cause Acidosis
H+ K+
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HYPOKALEMIA Hypokalemia is generally associated with reciprocal exchanges of H+ and K+
in the opposite direction
◦Associated with alkalosis
Hypokalemia is a depressed serum K+
H+ K+
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ELECTROLYTE SHIFTS
cell
H+
K+
AcidosisCompensatory Response Result
- H+ buffered intracellularly
- Hyperkalemia
H+
K+
cell
AlkalosisCompensatory Response Result
- Tendency to correct alkalosis
- Hypokalemia
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