Ch. 23 Respiratory System pt. 2
What four factors (excluding the pressure of oxygen) affect the affinity of hemoglobin for oxygen?
1. acidity (pH) 2. partial pressure of carbon dioxide 3. temperature 4. BPG
In what two ways does the bohr effect work? (remember, the bohr effect occurs when hemoglobin changes and is less saturated with oxygen)
1. an increase in hydrogen in blood causes oxygen to unload from hemoglobin 2. the binding of oxygen to hemoglobin causes unloading of hydrogen from hemoglobin
The rate of pulmonary and systemic gas exchange depends on what 4 factors?
1. partial pressure differences 2. surface area available for gas exchange 3. diffusion distance 4. molecular weight and solubility of the gases
98.5% of oxygen in the blood is bound to hemoglobin and trapped inside RBCs, therefore only the ___% that is dissolved is capable of diffusing out of tissue capillaries and into tissue cells
1.5
Only ___% of oxygen in the blood is available for diffusion
1.5
Oxygen does not dissolve easily in water, so only about ____% of inhaled oxygen is dissolved in blood plasma
1.5
Oxygen diffuses out of the capillaries, where its partial pressure is ____ mmhg, into the tissue cells where its partial pressure is ____ mmhg
100 mmhg in oxygenated blood, to systemic tissue cells with partial pressures of 40 mmhg for oxygen
In oxygenated blood, the partial pressure of oxygen is _____ mmhg, and the partial pressure of carbon dioxide is ______ mmhg
100mmhg for oxygen, 40 mmhg for carbon dioxide
Oxygen diffuses from alveolar air, where its partial pressure is ____ mmhg, into the blood in pulmonary capillaries, where its partial pressure is only ______ mmhg
105 mmhg in alveolar air, to 40 mmhg in pulmonary capillaries
In a person at rest, tissue cells, on average, need only _____% of the available oxygen in oxygenated blood
25
At rest, only ____% of oxygen in the blood is diffusing out to tissues
25 (so 75% of oxygen remains in the blood and acts as a reserve)
Each hemoglobin is capable of binding to ____ oxygen molecules
4
The heme portion of hemoglobin contains ______ atoms of iron, each capable of binding to a molecule of oxygen
4
In deoxygenated blood, the partial pressure of oxygen is _____ mmhg, and the partial pressure of carbon dioxide is ____ mmhg
40 mmhg for oxygen, 45 mmhg for carbon dioxide
In systemic tissue cells, the partial pressure of oxygen is _____ mmhg, and the partial pressure of carbon dioxide is ____ mmhg
40 mmhg for oxygen, 45 mmhg for carbon dioxide
Carbon dioxide diffuses from deoxygenated blood, where its partial pressure is ____ mmhg, into the alveoli air where its partial pressure is _____ mmhg
45 mmhg in deoxygenated blood, to 40 mmhg in the alveoli
Despite its name, deoxygenated blood retains _____% of its oxygen content
75
About ___% of the oxygen in blood does not dissolve in blood plasma and is instead bound to hemoglobin in red blood cells
98.5
As carbon dioxide enters the blood, much of it converts to carbonic acid. The carbonic acid then dissociates into hydrogen ions and bicarbonate ions. What does this result in?
As hydrogen concentration increases pH lowers. Therefore, the partial pressure of carbon dioxide creates a more acidic environment, helping to release oxygen from hemoglobin
________ is a substance found in red blood cells that decreases the affinity of hemoglobin for oxygen, and thus helps unload oxygen from hemoglobin
BPG (2, 3-bisphosphoglycerate)
colder temperatures increases __________ of hemoglobin for oxygen
affinity
When hemoglobin loses its affinity for oxygen, this is called the ______
bohr effect
Does oxygen or carbon dioxide diffuse more rapidly and why?
carbon dioxide diffuses 20 time more rapidly than oxygen. Even though oxygen has a lower molecular weight than carbon dioxide, oxygen has a lower solubility than carbon dioxide
As acidity increases (pH decreases), the affinity of hemoglobin for oxygen ______
decreases, and oxygen dissociates more readily from hemoglobin
the separation of oxygen and hemoglobin is termed ______
dissociation
________ is gas exchange in the lungs
external respiration
_________ in the lungs converts deoxygenated blood to oxygenated blood
external respiration
__________ is the diffusion of oxygen from air in the alveoli of the lungs to blood in pulmonary capillaries and the diffusion of carbon dioxide from pulmonary capillaries to alveoli of the lungs
external respiration
External respiration only occurs in the ________, while internal respiration occurs in ________
external respiration - only in the lungs internal respiration - in tissues throughout the body
T or F : elevated pH decreases affinity of hemoglobin for oxygen
false; elevated pH levels increases the affinity of hemoglobin for oxygen
T or F: As acidity increases (pH decreases), oxygen has a harder time dissociating from hemoglobin
false; oxygen dissociates more readily from hemoglobin with increased acidity/decreased pH
T or F: There are very few capillaries around the alveoli
false; there is a very large number of capillaries near alveoli in the lungs, and blood flows slowly enough through these capillaries that it picks up a maximal amount of oxygen (blood is fully saturated with oxygen)
Carbon dioxide diffuses from tissue cells, where its partial pressure is _____ mmhg, to systemic capillary blood where its partial pressure is _____ mmhg
from tissue cells with partial pressure of 45 mmhg, to systemic blood capillaries with partial pressure of 40 mmhg
the exchange of oxygen and carbon dioxide between systemic capillaries and tissue cells is called __________
internal respiration
The rate of oxygen diffusion into the blood is faster when the difference between oxygen pressure in alveolar air and pulmonary capillary blood is ______; diffusion is slower when the difference is ______
larger, smaller
The partial pressure of carbon dioxide and pH are related because low blood pH results from high......
low blood pH results from high partial pressures of carbon dioxide
As temperature increases, so does the amount of ______ released from hemoglobin
oxygen
As the partial pressure of carbon dioxide rises, hemoglobin releases _____ more readily
oxygen
Increased acidity enhances the unloading of ________ from hemoglobin
oxygen
At the systemic tissue cell level, ______ is diffusing into blood, and _______ is diffusing from blood into the tissues
oxygen diffusing from blood to tissue cells, carbon dioxide diffusing from tissue cells to blood
At alveoli, ______ is diffusing into the blood, and _______ is diffusing out of the blood
oxygen diffusing into the blood from air of alveoli, carbon dioxide diffusing out of blood to alveoli air
The higher the ______, the more oxygen that combines with hemoglobin
partial pressure of oxygen
The most important factor that determines how much oxygen binds to hemoglobin is the _______
partial pressure of oxygen
BPG is formed in _________
red blood cells
Each hemoglobin has a heme with four atoms of iron, each capable of binding to an oxygen molecule. Each time an oxygen binds to an iron, the next oxygen binds easier (this happens each time), this is a process called _____
subunit cooperativity
T or F : Hemoglobin binding to oxygen is an easily reversible process which can be used to dump oxygen in tissues in order to meet demands
true
T or F: At rest, 75% of oxygen remains in the blood, acting as an oxygen reserve
true
T or F: Blood leaving the lungs is 100% saturated with oxygen
true
T or F: Each gas diffuses independently of one another from an area where its partial pressure is higher to an area where its partial pressure is lower
true
T or F: lowered pH drives oxygen off of hemoglobin, making more oxygen available for tissue cells
true
T or F: the greater the level of BPG, the more oxygen that is unloaded from hemoglobin
true
