Fluid and Electrolyte Requirements in Disease

Question 1

What is the normal pH range of arterial blood?

Answer 1

7.35-7.45

Question 2

What is the pH of extracellular fluid?

Answer 2

7.4

Question 3

At what pH levels would death occur?

Answer 3

less than 6.8

more than 8.0

Question 4

What pH level classifies as acidosis (acidemia)?

Answer 4

below 7.35

Question 5

What pH level classifies as alkalosis (alkalemia)?

Answer 5

above 7.45

Question 6

What would small changes in pH cause major disturbances to?

Answer 6

• enzyme functions (only function at narrow pH ranges)
• affect electrolytes (Na+, K+, CL-)
• affect hormones
• affect bone synthesis, re-absorption

Question 7

Which organs help regulate pH and how?

Answer 7

1. Lungs - through carbonic acid-bicarbonate buffer system
   - changing respiratory rates changes PCO2
2. Kidneys - through renal compensation

Question 8

Does the body produce more acid or more bases?

Answer 8

more acid

Question 9

Why does the body produce more acid?

Answer 9

• acid taken with food
• acids produced by metabolism of lipids/proteins
• cellular metabolism produces CO2

Question 10

How to calculate pH?

Answer 10

pH = - log [H+]

Question 11

What is buffering?

Answer 11

buffer system consist of weak acid and anion

Question 12

What are the 3 buffering systems?

Answer 12

1. Protein buffer system - amino acids, H+
2. Carbonic acid-bicarbonate
   - buffer changes caused by organic and fixed acids
3. Phosphate
   - buffer pH in the ICF

Question 13

What are the common acids?

Answer 13

• carbonic acid
• sulfuric/phosphoric acid
• organic acids

Question 14

What happens when carbonic acid affects of ECF?

Answer 14

• CO2 reacts with water to form carbonic acid

- inverse relationship between pH and conc of CO2

Question 15

When is sulfuric/phosphoric acid generated?

Answer 15

• during catabolism of amino acids

Question 16

What are some organic acids?

Answer 16

• lactic acid

- ketone bodies

Question 17

Explain protein buffering in terms of pH increasing and decreasing:

Answer 17

pH climbs = carboxyl group of amino acid acts as weak base

pH drops = amino group acts as weak base

Question 18

What does the haemoglobin buffer system do?

Answer 18

prevents pH changes when PCO2 is rising or falling

Question 19

Explain what happens in the carbonic acid-bicarbonate buffer system:

Answer 19

• classic chemical buffer
• body eliminates chemicals from either end of chemical reaction to maintain pH
• effective in converting carbonic acid to CO2 through carbonic anhydrase
• then removes CO2 through respiration

Question 20

What is the chemical reaction of carbonic-acid-bicarbonate buffer system

Answer 20

H+ + HCO3- H2CO3 H2O + CO2

Question 21

How is the alkali removed when in access?

Answer 21

through kidneys

Question 22

How fast does the buffer function work?

Answer 22

almost instantaneously

Question 23

How fast does respiratory mechanism take to do corrections?

Answer 23

several minutes to hours

Question 24

How fast does renal mechanism take to do corrections?

Answer 24

several hours to days

Question 25

What is the principle effect of acidosis?

Answer 25

depression of CNS through decrease in synaptic transmission

Question 26

What generally happens in acidosis?

Answer 26

• weakness
• deranged CNS function = greatest threat
• severe state causes: disorientation, coma, death

Question 27

What are the responses to acidosis? (alkalosis is opposite)

Answer 27

• increase respiratory rate to lower CO2
• other buffer systems absorb H+
• secrete H+ in kidneys

Question 28

What does alkalosis cause?

Answer 28

• over excitability of central/peripheral nervous systems
• numbness
• lightheadedness
• can cause: nervousness, muscle spasm, tetany, convulsions, loss consciousness, death

Question 29

What does the Bohr effect observe?

Answer 29

the relationship of Oxyhaemoglobin and pO2

Question 30

When do respiratory acid-base disorders occur?

Answer 30

when abnormal respiratory function cause rise/fall in CO2 in ECF

Question 31

When do metabolic acid-base disorders occur?

Answer 31

• generation of organic or fixed acids
• anything affecting concentration of bicarbonate ions in ECF
• bicarbonate loss during chronic diarrhea

Question 32

When does respiratory acidosis occur?

Answer 32

from excessive levels of CO2 in body fluids

Question 33

When does respiratory alkalosis occur?

Answer 33

• relative rare condition

- associated with hyperventilation

Question 34

what is hypercapnia?

Answer 34

high levels of CO2 in blood

Question 35

What are chronic conditions of respiratory acidosis?

Answer 35

• depression of respiratory center in brain that controls breathing rate - drugs/head trauma
• paralysis of respiratory/chest muscles
• emphysema

Question 36

what are the acute conditions of respiratory acidosis?

Answer 36

• adult respiratory distress syndrome
• pulmonary edema
• pneumothorax

Question 37

What do the kidneys specifically elimate and retain to compensate respiratory acidosis?

Answer 37

eliminate H+, retain bicarbonate ion

Question 38

Respiratory acidosis signs/symptoms:

Answer 38

• breathlessness
• restlessness
• lethargy, disorientation
• tremors, convulsions, coma
• respiratory rate rapid then gradually depressed
• skin warm, flushed, due to vasodilation from excess CO2

Question 39

Respiratory acidosis treatment?

Answer 39

• restore ventilation
• IV lactate solution
• treat underlying dysfunction/disease

Question 40

What is hypocapnea?

Answer 40

when pCO2 is less than 35mmHg

Question 41

What is the primary cause of respiratory alkalosis?

Answer 41

hyperventilation

Question 42

What conditions stimulate respiratory centre in regards to respiratory alkalosis?

Answer 42

• oxygen deficiency at high altitudes
• pulmonary disease + congestive heart failure by hypoxia
• acute anxiety
• fever, anaemia
• early salicylate intoxication
• cirrhosis
• gram-negative sepsis

Question 43

Respiratory alkalosis treatment?

Answer 43

• treat underlying cause
• breath into paper bag
• IV chloride containing solution (Cl- ions replace lost bicarbonate ions)

Question 44

When does metabolic alkalosis occur?

Answer 44

• when HCO3- concentrations become elevated (by repeated vomiting)

Question 45

What are the symptoms of metabolic acidosis?

Answer 45

• headache
• nausea
• vomiting
• coma, death

Question 46

What can be done to compensate metabolic acidosis?

Answer 46

• increase ventilation
• renal excretion of H+
• K+ exchange with H+ in ECF
• H+ into cells, K+ out of cells

Question 47

Metabolic acidosis treatment?

Answer 47

IV lactate solution

Question 48

What can cause metabolic alkalosis?

Answer 48

• excessive vomiting (lose stomach acid)
• excessive use of alkaline drugs
• certain diuretics
• endocrine disorders
• heavy ingestion of antacids
• severe dehydration

Question 49

What can be done to compensate metabolic alkalosis?

Answer 49

• can’t count on kidneys since it usually occurs with renal dysfunction
• hypoventilation limited by hypoxia
  BASICALLY, NOT MUCH CAN BE DONE???

Question 50

What are the symptoms of metabolic alkalosis?

Answer 50

• respiration = slow/shallow
• hyperactive reflexes, tetany
• often related to depletion of electrolytes
• atrial tachycardia
• dysrhythmias

Question 51

Metabolic alkalosis treatment?

Answer 51

• Electrolytes to replace lost ones
• IV chloride containing solution
• Treat underlying disorder

Question 52

How to diagnose acid-base imbalances?

Answer 52

1. Note pH low or high
2. Decide which values (pCO2 or HCO3-) is outside normal ranges and is the cause of the problem
3. if its change in pCO2 = respiratory problem
4. If change in HCO3- = metabolic problem