Transport of oxygen

Question 1

what is dalton’s law of partial pressure?

Answer 1

• each gas in a mixture of gases exerts a pressure that is proportional to its concentration and is independent of the other gases present

Question 2

how is the partial pressure of oxygen calculated?

Answer 2

• PO2= Patm x Fo2
• where Fo2 is the fraction of oxygen in the atmosphere and patm is 760mmHg
• therefore PO2 = 760 x 021 = 159.6mmHg

Question 3

why do we need to measure water vapour pressure?

Answer 3

• as when dry air is inhaled, the air gets in direct contact with water molcules in the respiratory tract
• the value is 47mmHg

Question 4

what does the total amount of oxygen in solution depend on?

Answer 4

• the** solubility of oxygen** in solution

Question 5

what is henry’s law?

Answer 5

• henrys law states that the amount of gas dissolved in a solution is directly proportional to the partial pressure of the gas in the solution
• ie conc of gas = S.P gas

Question 6

How is oxygen transferred from alveoli to tissues?

Answer 6

• via passive diffusion

Question 7

How is fick’s law related to oxygen transport?

Answer 7

• according to ficks law the rate of gas transfer across a tissue or plasma membrane is directly proportional to the** difference in partial pressure**s of the gas on the 2 sides of the membrane
• the rate of gas transfer is also proportional to the membranes diffusing capacity
• the membrane’s diffusing capacity is dependent on the solubility of the gas, membrane area and thickness & molecular weight

Question 8

In what** 2 forms **is oxygen transported in the blood?

Answer 8

1. dissolved in physical solution
2. bound to haemoglobin

Question 9

how much oxygen (in ml of O2) is transported in dissolved solution per 100ml of blood?

Answer 9

• 0.3ml of O2/100ml of blood

Question 10

Describe the structure of haemoglobin

Answer 10

• a tetramer consisting of 4 polypeptide chains - 2 alpha and 2 beta chains
• there are 4 haem groups, each bound to an alpha or beta

Question 11

what does each of the haem groups in haemoglobin contain?

Answer 11

• porphyrin ring and a ferrous atom (Fe++) which can bind reversibly with one oxygen

Question 12

what are the** two types of confirmations** of haemoglobin?

Answer 12

1. tense confirmation (T)- when oxygen is not bound to haemoglobin - the globin chains are tighly bound and have a low affinity for oxygen
   2. relaxed confirmation - the **binding of oxygen breaks these bonds **and exposes the remaining binding sites

Question 13

what are the 3 types of haemoglobin?

Answer 13

1. haemoglobin A (Hb A) - normal adult
   2. haemoglobin F (Hb F) - foetal
2. haemoglobin S - (Hb S) - sickle cell anaemia

Question 14

what % of oxygen is transported via dissolved solution vs haemoglobin?

Answer 14

• dissolved solution - 3%
• haemoglobin - 97%

Question 15

Describe the oxygen haemoglobin dissociation curve

Answer 15

• a curve that plots the proportion of haemoglobin that is bound to oxygen (oxyhaemoglobin) vs the partial pressure of oxygen
• sigmoidal shape

Question 16

why does the oxygen dissociation curve have a sigmoidal shape?

Answer 16

• the curve is sigmoidal because of the co-operative binding of oxygen to the 4 polypeptide chains
• co operative binding means that haemoglobin has a greater affinity to bind oxygen after a subunit is already bound - ie Hb has the most affinity for oxygen when 3/4 of its chains are bound

Question 17

what does a right vs left shift in the oxygen dissociation curve indicate?

Answer 17

• a right shift indicates decreased oxygen affinity of haemoglobin, allowing more oxygen to be available to the tissues
• a left shift indicates increased oxygen affinity of haemoglobin (ie Hb binds more tightly to O2), allowing less oxygen to be available for the tissues - as Hb is unable to unload oxygen

Question 18

what** factors** can affect the oxygen dissociation curve?

Answer 18

• PH
• CO2
• temperature
• organic phosphates eg 2,3 DPG

Question 19

Compare how each factor causes either a right or left shift

Answer 19

* decrease in PH shifts the curve to the right, while an** increase in PH shifts it the left
* a decrease in CO2 shifts the curve to the left while an increase in CO2 shifts the curve to the right
* a decrease in temp **shifts the curve to the left and an increase shifts curve to the right
* an increase in** 2,3 DPG** shifts the curve to the right while a decrease shifts the curve to the left

Question 20

why does a decrease in PH cause the HB-O2 curve to shift to the right?

Answer 20

this occurs as a higher H+ ion concentration causes an alteration in amino acid residues that stabilises deoxyhaemoglobin in a state ( the T state) that has a lower affinity for oxygen - the BOHR effect

Question 21

In what** 2 ways** does CO2 effect the curve?

Answer 21

1. the accumulation of CO2 causes carbamino compounds to be generated - which bind to oxygen and form carbaminohaemoglobin
   * carbaminohaemoglobin stabilises deoxyhaemoglobin in the T state
2. the accumulation of CO2** also causes an increase in the [H+] concentration** and therefore decreases the PH - which** shifts the curve to right**

Question 22

Describe the effect that an increase in temperature has on the curve?

Answer 22

• increasing the temperature denatures the bonds between oxygen and haemoglobin, which increases the amount of oxygen and haemoglobin and **decreases the concentration of oxyhaemoglobin **

Question 23

what promotes** tissue O2 unloading**?

Answer 23

• increased PO2
• increased H+
• increased temperature

these conditions are illustrated by exercising muscle

Question 24

How does carbon monoxide interfere with O2 transport?

Answer 24

• carbon monoxide binds to haemoglobin to form carboxyhaemoglobin (COHb)
• CO has a 240x greater affinity to Hb than oxygen
  * it prevents O2 binding to Hb

Question 25

what is** oxygen capacity**?

Answer 25

• the max amount of oxygen that can be combined with Hb
• 20.8ml O2/ 100ml blood

Question 26

what is oxygen saturation?

Answer 26

• percentage of available binding sites that have oxygen attached

Question 27

what is the oxygen saturation calculation?

Answer 27

(O2 combined with Hb/ O2 capacity) x 100

Question 28

what is moderate anaemia?

Answer 28

• reduced Hb concentration to 10g/100ml of blood

Question 29

what is severe anaemia?

Answer 29

• Hb concentration of 5g/100ml of blood