Download presentation
Presentation is loading. Please wait.
Published byOwen Gibson Modified over 8 years ago
1
Acid Base Balance B260 Fundamentals of Nursing
2
What is pH? pH is the concentration of hydrogen (H+) ions The pH of blood indicates the net result of normal acid-base regulation, any acid-base imbalance, and the body’s compensatory mechanisms The human body must maintain a very narrow pH range 7.35-7.45
3
What is pH? In terms of the human body: acidosis alkalosis Carbon dioxide is the “acid” (CO2) Normal: 35-45 mmHg Bicarbonate is the “base” (HCO3) Normal: 22-26 mEq/L
4
How does the body maintain pH? Kidneys Regulate bicarbonate in the ECF The kidneys will retain or excrete H+ ions or HCO3 ions as needed Normally acidic urine Lungs Control CO2 Adjust rate and depth of ventilation in response to amount of CO2 in the blood A rise in arterial blood CO2 stimulates respiration Oxygen content of arterial blood will also stimulate respiration
5
Acidosis and Alkalosis Metabolic acidosis Decreased HCO3 or increase in other acids Metabolic alkalosis Increased HCO3 and excess loss of acids Respiratory acidosis Increased PaCO2 due to hypoventilation Respiratory alkalosis Decreased PaC02 due to hyperventilation
6
Imbalances Imbalances in PaCO2 are influenced by respiratory causes Imbalances in HCO3 are influenced by metabolic processes
7
Acidosis
8
Alkalosis
9
Metabolic Acidosis Low pH (<7.35) Low HCO3 (<22 mEq/L) Primary feature is decrease in serum HCO3 Body may attempt to compensate by increasing respirations to decrease CO2 Hyperkalemia may also occur due to shift of potassium out of the cells Hypokalemia may occur once the acidosis is corrected Treatment is aimed at correcting the metabolic defect IV bicarbonate Potassium management Dialysis
10
Metabolic Acidosis
11
Metabolic Alkalosis High pH (>7.45) High serum HCO3 (>26) Body may attempt to compensate by decreasing respirations to increase CO2 Treatment is aimed at treating the underlying disorder Chloride supplementation Restore normal fluid volume Maintain potassium Carbonic anhydrase inhibitor if unable to tolerate volume resuscitation
12
Metabolic Alkalosis
13
Respiratory Acidosis Low pH (<7.35) High serum CO2 (>42) Body may attempt to compensate through renal retention of HCO3 (does not happen quickly - hours to days) Chronic respiratory acidosis occurs with chronic pulmonary disease (eg, emphysema, OSA) Pt. will often be asymptomatic, as the body has time to compensate Acute respiratory acidosis may be severe and will produce symptoms
14
Respiratory Acidosis Treatment is directed at improving ventilation --> treat the underlying cause Pulmonary hygiene to clear respiratory tract Adequate hydration to help clear secretions Supplemental oxygen Adjustment of mechanical ventilation as appropriate
15
Respiratory Acidosis
16
Respiratory Alkalosis High pH (>7.45) Low PaCO2 (<35) Always due to hyperventilation Body may compensate through increased kidney excretion of bicarbonate (does not happen quickly - hours to days) Treatment is aimed at correcting the cause of hyperventilation If anxiety-related, may breathe into a closed system (rebreathe CO2)
17
Respiratory Alkalosis
18
Interpreting Arterial Blood Gases pH (7.35-7.45) PaO2 (80-100 mmHg on room air) O2 saturation (95-100%) PaCO2 (35-45 mmHg) HCO3 (22-26 mEq/L) Acid Base Made Easy
19
Interpreting Arterial Blood Gases AcidNormalBase ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19
20
Interpreting Arterial Blood Gases AcidNormalBase pH ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19
21
Interpreting Arterial Blood Gases AcidNormalBase pH CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19
22
Interpreting Arterial Blood Gases AcidNormalBase HCO3 pH CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19
23
Interpreting Arterial Blood Gases AcidNormalBase HCO3 pH CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19 Respiratory Alkalosis
24
Interpreting Arterial Blood Gases AcidNormalBase ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19
25
Interpreting Arterial Blood Gases AcidNormalBase pH ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19
26
Interpreting Arterial Blood Gases AcidNormalBase pH CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19
27
Interpreting Arterial Blood Gases AcidNormalBase pH HCO3 CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19
28
Interpreting Arterial Blood Gases AcidNormalBase pH HCO3 CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH 7.35-7.45 PaCO245—35 (Respiratory) HCO3 22-26 (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19 Metabolic Acidosis
29
Practice pH: 7.25pH: 7.54 PaCO2: 55PaCO2: 24 HCO3: 26HCO3: 25 pH: 7.55pH: 7.48 PaCO2: 20PaCO2: 38 HCO3: 19HCO3: 28 pH: 7.4pH: 7.1 PaCO2: 42PaCO2: 35 HCO3: 25HCO3:18 pH: 7.15pH: 7.7 PaCO2: 46PaCO2: 28 HCO3: 34HCO3: 23 pH: 7.5pH: 7.2PaCO2: 48 HCO3: 28HCO3: 24 pH: 7.17pH: 7.26 PaCO2: 35PaCO2: 36 HCO3: 12HCO3: 16
30
Practice pH: 7.25pH: 7.54 PaCO2: 55PaCO2: 24 HCO3: 26HCO3: 25 pH: 7.55pH: 7.48 PaCO2: 20PaCO2: 38 HCO3: 19HCO3: 28 pH: 7.4pH: 7.1 PaCO2: 42PaCO2: 35 HCO3: 25HCO3:18 pH: 7.15pH: 7.7 PaCO2: 46PaCO2: 28 HCO3: 34HCO3: 23 pH: 7.5pH: 7.2PaCO2: 48 HCO3: 28HCO3: 24 pH: 7.17pH: 7.26 PaCO2: 35PaCO2: 36 HCO3: 12HCO3: 16 Resp. Acidosis Resp. Alkalosis Normal Metabolic. Alkalosis Met. Alkalosis Metabolic. Acidosis Met.. Acidosis
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.