Acid-Base Balance (chapter 10) Flashcards

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1
Q

Function of Buffers

A

Absorb or release hydrogen ions in order to keep the pH within their narrow limits of stability.

Excess hydrogen ions are transported to the lungs for excretion.

Once buffers are used it takes time to replace them leaving the body less able to withstand further changes until replacement occurs.

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2
Q

Buffers

A

Fast acting regulatory system which provides immediate protection against changes in hydrogen ion concentration in the ECF.

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3
Q

Primary Buffer Systems in the ECF

A
  1. Hemoglobin system
  2. Plasma protein system
  3. Carbonic acid - bicarbonate system
  4. Phosphate buffer system
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4
Q

Hemoglobin Buffer System

A

Red blood cells contain hemoglobin. System maintains an acid-base balance via chloride shift whereby chloride shifts in and out of cells based on the amount of O2 in the blood. When a chloride ion leaves the cell it is replaced by a bicarbonate ion.

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5
Q

Plasma Protein Buffer System

A

System functions with the liver to vary the amount of hydrogen ions in the chemical structure of the plasma proteins which have the ability to attract or release hydrogen ions.

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6
Q

Carbonic acid - bicarbonate system

A

Primary buffer system in the body.

Maintains a pH of 7.4 (20 bicarbonate : 1 carbonic acid (H2CO3).

System is controlled by excretion of CO2 in the lungs and changing rate, rhythm and depth of respirations in response to changing CO2 levels.

Kidneys control the bicarbonate concentration through excretion and reabsorption.

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7
Q

Phosphate Buffer System

A

Present in the cells and body fluids, especially active in the kidneys.

System acts like bicarbonate to neutralize excess hydrogen ions.

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8
Q

Acidosis

A

When the pH level in the body is lowered due to an increase in H+ ions. The respiratory rate and depth increase to promote exhalation of excess acid.
Carbonic acid is created by the neutralization of bicarbonate where it is carried to the lungs and reduced to C02 and water and exhaled.

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9
Q

Alkalosis

A

When the pH in the body increases. The respiratory rate and depth decrease, C02 is retained and carbonic acid increases to neutralize and decrease the strength of excess bicarbonate.

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10
Q

Arterial Blood Gas Chart

A

pH A——————————————-B
7.35 7.45

PCO2 B—————————————A RESPIRATORY
35 45

HC03 A—————————————B METABOLIC
22 26

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11
Q

Respiratory Acidosis

A

The respiratory rate is depressed causing an increase in C02 in the lungs. This causes a pH below 7.35 and a PC02 above 45.

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12
Q

Respiratory Alkalosis

A

The respiratory rate is increased causing a loss of C02 acid in the lungs. The pH is greater than 7.45 and the PC02 is lower than 35.

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13
Q

Metabolic Alkalosis

A

The patient is vomiting and losing their acid causing the pH to rise and the HC03 to rise above 26.

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14
Q

Metabolic Acidosis

A

The patient has diarrhea and is losing base therefore becoming acidotic. The pH falls below 7.35 and the HC03 falls below 22.

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15
Q

The role of Potassium in the Acid-Base Balance

A

Potassium helps control the acid-base balance in the body by moving H+ ions in and out of cells.

Acidosis: H+ levels are high, therefore H+ move into the cells forcing K+ out of the cells and increasing the K+ levels.

Alkalosis: H+ levels are low, therefore H+ ions move out of the cells, forcing K+ into the cells and reducing the K+ levels.

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16
Q

Causes of Respiratory Acidosis

A
  1. Asthma
  2. Atelectasis (partial collapse or incomplete inflation of the lung)
  3. Brain trauma
  4. Bronchiectasis (abnormal widening of the bronchi or their branches)
  5. Bronchitis
  6. CNS depressants
  7. Emphysema
  8. Hypoventilation
  9. Pneumonia
  10. Pulmonary edema
  11. PE
17
Q

Atelectasis

A

Partial collapse or incomplete inflation of the lung

18
Q

Bronchiectasis

A

Abnormal widening of the bronchi or their branches

19
Q

Causes of Respiratory Alkalosis

A
  1. Fever
  2. Hyperventilation
  3. Hypoxia
  4. Hysteria
  5. Overventilation by mechanical ventilator
  6. Pain
20
Q

Tetany

A

A condition marked by intermittent muscular spasms, caused by malfunction of the parathyroid glands and a consequent deficiency of calcium.

21
Q

Metabolic acidosis

A

Condition where there is an increase in H+ ion concentration resulting from a loss of base or retention of acid.

22
Q

Causes of metabolic acidosis

A
  1. Diabetes mellitus or diabetic ketoacidosis
  2. Excessive ingestion of aspirin
  3. High fat diet
  4. Malnutrition
  5. Renal insufficiency (AKI or CKD)
  6. Severe diarrhea
23
Q

Metabolic alkalosis

A

A decrease in the H+ ion concentration due to accumulation of bases in the blood or loss of acids.

24
Q

Causes of metabolic alkalosis

A
  1. Diuretics
  2. Excessive vomiting or GI suctioning
  3. Hyperaldosteronism
  4. Ingestion of and/or infusion of excess sodium bicarbonate
  5. Massive transfusion of whole blood
25
Q

Allen’s Test for ABG

A

For the Allen test, the health professional drawing your blood will apply pressure to the arteries in your wrist for several seconds. This will stop the blood flow to your hand, and your hand will become cool and pale. Blood is then allowed to flow through the artery that will not be used to collect the blood sample. This is usually the ulnar artery, which is found on the outer (little finger side) of your wrist. Arterial blood gases are usually taken from the radial artery, which is found on the inner (thumb side) of the wrist.

Allen test
Normal (positive)
Your hand quickly becomes warm and returns to its normal color. This means that one artery alone will be enough to supply blood to your hand and fingers.

Abnormal (negative)
Your hand remains pale and cold. This means that one artery is not enough to supply blood to your hand and fingers. Blood will not be collected from an artery in this hand.

26
Q

Kussmaul’s Breathing

A

Deep and labored breathing pattern often associated with severe metabolic acidosis, particularly diabetic ketoacidosis (DKA) but also kidney failure.

A abnormal respiratory pattern characteized by rapid, deep breathing, often seen in patients with metabolic acidosis.

Abnormally deep, regular and an increased rate.

27
Q

Atelectasis

A

Partial collapse or incomplete inflation of the lung

28
Q

Manifestations of Respiratory Alkalosis

A
  • lethargy
  • lightheadedness
  • confusion
  • tachycardia
  • dysrhythmias
  • nausea
  • vomiting
  • epigastric pain
  • numbness and tingling of extremities
  • hyperventilation