Acid base balance

Question 1

what is an acid?

Answer 1

a molecule capable of releasing a hydrogen ion
* an acidic solution has a H+ concentration greater than water (PH less than 7)

Question 2

WHAT ARE VOLTAILE ACIDS?

Answer 2

• Acids produced by the oxidative metabolism of CHO, fat & protein
• excreted through lungs as CO2 gas

Question 3

what are fixed acids?

Answer 3

acids that do not leave solution, ie once they are produced they remain in body fluids until eliminated by the kidneys
eg phosphoric acid

Question 4

how are fixed acids generated?

Answer 4

through the catabolism of amino acids, phospholipids and nucleic acids

Question 5

what is a base?

Answer 5

a molecule capable of combining a hydrogen ion
* an alkaline solution has a H+ concentration lower than water ( ie PH greater than 7)

Question 6

Why is acid base balance important?

Answer 6

• H+ ions affect the activity of enzymes and** interact with many electrically charged molecules**
• most chemical reactions in the body are** highly sensitive to H+**
• the maintenance of H+ within a normal range** is essential for normal metabolic reactions**

Question 7

Describe the Ph scale

Answer 7

• acidity and alkalinity are expressed on the PH scale
  * PH 0 - is strongly acidic - increase in H+
• **PH 14 **is strongly basic or alkaline - decrease in H+
• a PH of 7 in the middle of this scale is neutral

Question 8

what is the equation for PH?

Answer 8

PH = -LOG [H+]

Question 9

in order to function properly, what is the PH of the blood (approx)?

Answer 9

close to 7.4
* range PH (6.8-7.8)

Question 10

what are the 3 mechanisms controlling blood PH?

Answer 10

1. Buffers
2. respiratory - ie increasing or decreasing ventilation
3. renal contributions

Question 11

what are PH buffer systems?

Answer 11

PH buffer systems are a combination of a weak acid and weak base that exist in balance under normal PH conditions

Question 12

what is the most important buffer system for blood and ECF?

Answer 12

• bicarbonate/carbonic acid buffer system

Question 13

what is **another example **of a buffer system (other than HCO3-/H2CO3)?

Answer 13

haemoglobin buffer system

Question 14

When body fluids become acidic, what is used to nuetralise the H+?

Answer 14

• HCO3-
• therefore [HC03-] is reduced

Question 15

when body fluids become alkaline, what is used to neutralise the PH?

Answer 15

• H+ is consumed to neutralise the PH, therefore more HCO3- is produced from dissocaition of carbonic acid
• therefore [HCO3-] increased

Question 16

What are the main functions of the H2CO3/HCO3- buffer system?

what does this system do when body fluids are acidic vs alkaline?

Answer 16

• most important system for blood and ECF
• when body fluids become acidic, the HCO3- is used to neutralise the PH - H+ conc increases
• when body fluids become alkaline, H+ is consumed to nuetralise the PH and therefore more HCO3- is produced from H2CO3 dissociation - HCO3- conc decreases

Question 17

Describe the haemoglobin buffering system

Answer 17

• hydrogen ions are buffered by haemoglobin molecules
• H+ combine with reduced Hb
• this system is the** only intracellular buffer system **with an **immediate effect on ECF PH **
• helps prevent major changes in PH when plasma PCO2 is rising or falling

Question 18

what are other examples of buffer systems - other than H2CO3/HCO3- and haemoglobin?

Answer 18

1. plasma proteins
2. phosphate buffer system

Question 19

describe the phosphate buffer system

Answer 19

• consists of the anion H2PO4- (weak acid)
• works like the carbonic acid-bicarbonate buffer system
• important buffering PH of ICF

Question 20

what are the limitations of the phosphate buffer system?

Answer 20

• provide only temporary solution to acid-base imbalance
• do not eliminate H+ ions
• supply of buffer molecules is limited

Question 21

How does the respiratory system contribute to acid base balance?

Answer 21

by increasing or decreasing ventilation

Question 22

in response to an increase in CO2 (acid) in the blood, what is the respiratory systems response?

Describe the steps and final outcome

Answer 22

• if there is an increase in CO2,** then the blood is more acidic** (decrease in PH)
• this stimulates the medullary respiratory centre
• the** brain increases the depth and rate of breathing **
• therefore increase in CO2- increase in PH- increase in ventilation -increase in CO2 exhaled-decrease of CO2 in blood - decrease in [H+]- increase in PH

Question 23

what is the respiratory systems response to a decrease in CO2?

describe steps and the final outcome

Answer 23

• a decrease in CO2 means an increase in PH (more basic)
• therefore the rate and depth of breathing declines
• reduction in the amount of CO2 eliminated from lungs
• therefore- an increase in PH - decrease in ventilation - decrease in exhaled CO2- increase of CO2 in blood - decrease in PH (more acidic)

Question 24

How does the renal system contirbute to acid base balance?

Answer 24

• if PH is acidic - then more H+ secretion
• if PH is basic - then less H+ secretion