Anatomy Chapter 22; Part 4
Factors that Increase Release of O2 by Hemoglobin
( Bohr effect ) As cells metabolize glucose and use O2: - *Pco2 and H+ increase in capillary blood* - *Declining blood pH and increasing Pco2* Heat production increases ---> *directly and indirectly decreases Hb affinity for O2* ----> increased oxygen unloading to active tissues
Simultaneous Cortical Motor
*Activation of skeletal muscles and respiratory centers.*
Haldane Effect
*Amount of CO2 transported affected by Po2* - Reduced hemoglobin (less oxygen saturation) forms carbaminohemoglobin and buffers H+ more easily ---> - Lower Po2 and hemoglobin saturation with O2; more CO2 carried in the blood. https://www.youtube.com/watch?v=dHi9ctwDUnc
Psychological Stimuli
*Anticipation of exercise.*
Apnea
*Breathing cessation (ending, being brought to an end) from abnormally low Pco2.*
Hyperventilation
*Increased depth and rate of breathing that exceeds body's need to remove CO2.* - Leads to decreased blood CO2 levels (hypocapnia) - And cerebral vasoconstriction and cerebral ischemia ---> dizziness, fainting.
Hypercapnea
*Increased ventilation (10 to 20 fold) in response to metabolic needs.*
Acclimatization
*Respiratory and hematopoietic adjustments to long-term move to high altitude.* - Chemoreceptors become more responsive to Pco2 when Po2 declines. - Substantial decline in Po2 directly stimulates peripheral chemoreceptors. *Result---minute ventilation increases and stabilizes in few days to 2-3 L/min higher than at sea level.*
Respiratory,
*Rising CO2 levels is the most powerful ________________ stimulant.*
60, Respiration,
*When arterial Po2 falls below ____ mm Hg, it becomes major stimulus for _____________.*(via peripheral chemoreceptors)
Respiratory Adjustments: Exercise
- Adjustments geared to both intensity and duration of exercise - *Hypercapnea* ---> Increased ventilation (10 to 20 fold) in response to metabolic needs - Pco2, Po2, and pH remain surprisingly constant during exercise
Factors Influencing Hemoglobin Saturation
- Increases in temperature, H+, Pco2 - Modify structure of hemoglobin; decrease its affinity for O2 ----> Occur in systemic capillaries ----> *Enhance O2 unloading from blood* ----> Shift O2-hemoglobin dissociation curve to right - *Decreases in these factors shift curve to left* (Decreases oxygen unloading from blood).
3 Neural Factors that Cause an Increase in Ventilation as Exercise Begins
1.) *Psychological Stimuli* 2.) *Simultaneous Cortical Motor* 3.) *Excitatory Impulses* https://www.youtube.com/watch?v=9j6BpanhpKY
Bohr Effect
A decrease in the amount of oxygen associated with hemoglobin and other respiratory compounds in response to a lowered blood pH resulting from an increased concentration of carbon dioxide in the blood..
Increase,
Acclimatization to High Altitude *RBC numbers ____________ slowly to provide long-term compensation.*
Haldane Effect at Tissues
As more CO2 enters blood: - More oxygen dissociates from hemoglobin (Bohr effect) - As HbO2 releases O2, it more readily forms bonds with CO2 to form carbaminohemoglobin
Chloride Shift
Bicarbonate leaving RBCs in place of Cl-
Influence of CO2 on Blood pH
Carbonic acid-bicarbonate buffer system-resists changes in blood pH. - If H+ concentration in blood rises, excess H+ is removed by combining with HCO3- = H2CO3 - If H+ concentration begins to drop, H2CO3 dissociates, releasing H+
Transport and Exchange of CO2 in Pulmonary Capillaries
HCO3- moves into RBCs (while Cl- move out); binds with H+ to form H2CO3 H2CO3 split by carbonic anhydrase into CO2 and water CO2 diffuses into alveoli https://www.youtube.com/watch?v=W7egri8t-iE
Excitatory Impulses
Impulses to respiratory centers from *proprioceptors* in moving muscles, tendons, joints.
Ventilation
Is the movement of a volume of gas into and out of the lungs.
Peripheral Chemoreceptors
Located in aortic and carotid bodies. They are *arterial O2 level sensors.* When excited, cause respiratory centers to increase ventilation
Indirectly,
Normally blood Po2 affects breathing only _______________ by influencing peripheral chemoreceptor sensitivity to changes in Pco2
Influence of Po2 on Hemoglobin Saturation
PO2 heavily influences binding and release of O2 with hemoglobin. - *Oxygen-hemoglobin dissociation curve* - Hemoglobin saturation plotted against Po2 not linear; *S-shaped curve.* https://www.youtube.com/watch?v=StpQmmuVnTA
Respiratory Adjustments: High Altitude
Quick travel to altitudes above 8000 feet (2400 meters) may produce *symptoms of acute mountain sickness* (AMS) - *Headaches, shortness of breath, nausea, and dizziness* - *Atmospheric pressure & PO2 levels are lower.*
Declining Po2 Effect on Ventilation
Slight effect... - *Huge O2 reservoir bound to Hb* - *Requires substantial drop in arterial Po2 (to 60 mm Hg) to stimulate increased ventilation.*
Encourages, Tissues, Lungs,
The *Haldane Effect* ______________ CO2 exchange in ___________ and ________.
Respiration
The exchange of oxygen and carbon dioxide across a membrane either in the lungs or at the cellular level.
Influence of CO2 on Blood pH; *Changes in Respiratory Rate & Depth*
This affects blood pH: - Slow, shallow breathing leads to increased CO2 in blood which results in a drop in pH. - Rapid, deep breathing leads to decreased CO2 in blood resulting in a rise in pH. Changes in ventilation can adjust pH when disturbed by metabolic factors
CO2 Transport
Transported in blood in three forms: 1.) 7 to 10% *dissolved in plasma* 2.) 20% *bound to globin of hemoglobin* 3.) *70% transported as bicarbonate ions (HCO3-) in plasma* https://www.youtube.com/watch?v=W7egri8t-iE
