Circulatory and Respiratory Physiology - Anatomy
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The pulmonary veins carry oxygen-rich blood from the __________ to the __________.
The pulmonary veins carry oxygen-rich blood from the __________ to the __________.
The pulmonary veins carry oxygenated blood form the lungs to the left atrium of the heart. The pulmonary arteries carry deoxygenated blood from the right ventricle to the lungs.
The pulmonary veins carry oxygenated blood form the lungs to the left atrium of the heart. The pulmonary arteries carry deoxygenated blood from the right ventricle to the lungs.
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Which of the following muscles does NOT assist in forced inhalation?
Which of the following muscles does NOT assist in forced inhalation?
Normal inspiration typically involves the flattening (contraction) of the diaphragm in order to increase the volume of the thoracic cavity, and can be done unconsciously. In order to increase the amount of inhaled air, other muscles such as the external intercostals and the sternocleidomastoids are included by conscious control. Both of these muscles aim to raise and expand the thoracic cavity in order to assist in inhalation.
The rectus abdominis is involved in the opposite action of forced exhalation. The rectus abdominis aims to decrease the volume of the thoracic cavity by contracting. This assists in forced exhalation.
Normal inspiration typically involves the flattening (contraction) of the diaphragm in order to increase the volume of the thoracic cavity, and can be done unconsciously. In order to increase the amount of inhaled air, other muscles such as the external intercostals and the sternocleidomastoids are included by conscious control. Both of these muscles aim to raise and expand the thoracic cavity in order to assist in inhalation.
The rectus abdominis is involved in the opposite action of forced exhalation. The rectus abdominis aims to decrease the volume of the thoracic cavity by contracting. This assists in forced exhalation.
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Which of the following factors determines the oxygen saturation of hemoglobin?
Which of the following factors determines the oxygen saturation of hemoglobin?
Oxygen will attach to hemoglobin and be delivered to the body's tissues via gas exchange. In order to detach from hemoglobin, there needs to be a decrease in the partial pressure of oxygen. The oxygen pressure in the lungs is much higher than in the body. This is why oxygen attaches to hemoglobin in the lungs. As the hemoglobin goes to the body's tissues, oxygen pressure decreases. This causes the oxygen to detach and be diffused into the tissues.
Oxygen will attach to hemoglobin and be delivered to the body's tissues via gas exchange. In order to detach from hemoglobin, there needs to be a decrease in the partial pressure of oxygen. The oxygen pressure in the lungs is much higher than in the body. This is why oxygen attaches to hemoglobin in the lungs. As the hemoglobin goes to the body's tissues, oxygen pressure decreases. This causes the oxygen to detach and be diffused into the tissues.
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As the carbon dioxide partial pressure increases, what will happen to hemoglobin's affinity for oxygen?
As the carbon dioxide partial pressure increases, what will happen to hemoglobin's affinity for oxygen?
There are a few factors which can decrease the affinity of hemoglobin for oxygen: increased acidity, increased temperature, and carbon dioxide pressure. As carbon dioxide levels increase, hemoglobin's affinity for oxygen decreases. This means that it will release oxygen more readily in areas of high carbon dioxide levels, such as in the body's tissues. Since carbon dioxide is a product of cell metabolism, regions with high carbon dioxide content are likely very active in metabolism. This metabolism requires oxygen for the electron transport chain; thus, it is beneficial for hemoglobin to release oxygen in these regions in order to promote further metabolism.
There are a few factors which can decrease the affinity of hemoglobin for oxygen: increased acidity, increased temperature, and carbon dioxide pressure. As carbon dioxide levels increase, hemoglobin's affinity for oxygen decreases. This means that it will release oxygen more readily in areas of high carbon dioxide levels, such as in the body's tissues. Since carbon dioxide is a product of cell metabolism, regions with high carbon dioxide content are likely very active in metabolism. This metabolism requires oxygen for the electron transport chain; thus, it is beneficial for hemoglobin to release oxygen in these regions in order to promote further metabolism.
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What is the most common way for carbon dioxide to be carried in the blood?
What is the most common way for carbon dioxide to be carried in the blood?
There are three main ways that carbon dioxide can be carried in the blood: it can be in solution independently, it can be turned into a bicarbonate ion via the enzyme carbonic anhydrase, or it can be attached to hemoglobin and other proteins. Carbon dioxide transport as bicarbonate ions is ten times more common than any other method.
In the lungs, the bicarbonate ion will undergo the reverse reaction experienced in the tissues, and dissociate into carbon dioxide and water. This allows the carbon dioxide gas to be exhaled.
There are three main ways that carbon dioxide can be carried in the blood: it can be in solution independently, it can be turned into a bicarbonate ion via the enzyme carbonic anhydrase, or it can be attached to hemoglobin and other proteins. Carbon dioxide transport as bicarbonate ions is ten times more common than any other method.
In the lungs, the bicarbonate ion will undergo the reverse reaction experienced in the tissues, and dissociate into carbon dioxide and water. This allows the carbon dioxide gas to be exhaled.
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If an individual has a blood pH of 6.8, then they should __________.
If an individual has a blood pH of 6.8, then they should __________.
Normal blood pH is about 7.4 in most tissues (it is a bit lower in veins since they carry waste products, which are acidic). To get back to the physiological set point of pH = 7.4, we want to remove the acid from the blood. The major blood buffer system is shown in the following equation:

As we know, carbon dioxide is one of the major byproducts of respiration, and is considered waste for our bodies. Combined with water and catalyzed by carbonic anhydrase, it is converted into carbonic acid. Carbonic acid is a weak acid and will partially dissociate into hydrogen ions and bicarbonate ions. Thus, overall, carbon dioxide and water yields acid (hydrogen ions). As a result, excess carbon dioxide in the blood will lower the pH.
In order to increase the pH, we must stop this equation from proceeding in the forward direction; thus, (remember Le Chatelier's principle) we must remove carbon dioxide from the left side. This will push the reaction in the reverse direction, quenching hydrogen ions (acid) and removing them from the blood, increasing blood pH back to normal.
Since we want to get rid of excess carbon dioxide, we breathe faster. Oxygen does not have any effect on blood pH. Furthermore, the atmospheric oxygen level (21%) is plenty for our bodies to utilize, as when we exhale there is about 15% oxygen left over, meaning we only use about 25% of the oxygen we breathe (this is why CPR works!).
Normal blood pH is about 7.4 in most tissues (it is a bit lower in veins since they carry waste products, which are acidic). To get back to the physiological set point of pH = 7.4, we want to remove the acid from the blood. The major blood buffer system is shown in the following equation:
As we know, carbon dioxide is one of the major byproducts of respiration, and is considered waste for our bodies. Combined with water and catalyzed by carbonic anhydrase, it is converted into carbonic acid. Carbonic acid is a weak acid and will partially dissociate into hydrogen ions and bicarbonate ions. Thus, overall, carbon dioxide and water yields acid (hydrogen ions). As a result, excess carbon dioxide in the blood will lower the pH.
In order to increase the pH, we must stop this equation from proceeding in the forward direction; thus, (remember Le Chatelier's principle) we must remove carbon dioxide from the left side. This will push the reaction in the reverse direction, quenching hydrogen ions (acid) and removing them from the blood, increasing blood pH back to normal.
Since we want to get rid of excess carbon dioxide, we breathe faster. Oxygen does not have any effect on blood pH. Furthermore, the atmospheric oxygen level (21%) is plenty for our bodies to utilize, as when we exhale there is about 15% oxygen left over, meaning we only use about 25% of the oxygen we breathe (this is why CPR works!).
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A higher than normal concentration of __________ indicates cyanosis (a bluish color of the skin and mucous membranes).
A higher than normal concentration of __________ indicates cyanosis (a bluish color of the skin and mucous membranes).
Cyanosis in the body occurs due a reduced hemoglobin concentration that is at least 6-8 grams of hemoglobin per deciliter of blood lower than the normal hemoglobin range for men and women.
Hemoglobin is what carries oxygen in the blood. The blood then carries this oxygen to various tissues in the body. When hemoglobin is low, oxygen is not delivered fast and efficiently enough to the appropriate tissues of the body, thus turning them visibly blue (cyanosis).
Cyanosis in the body occurs due a reduced hemoglobin concentration that is at least 6-8 grams of hemoglobin per deciliter of blood lower than the normal hemoglobin range for men and women.
Hemoglobin is what carries oxygen in the blood. The blood then carries this oxygen to various tissues in the body. When hemoglobin is low, oxygen is not delivered fast and efficiently enough to the appropriate tissues of the body, thus turning them visibly blue (cyanosis).
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A man who has a residual lung volume of 2.5 liters has a value that is __________.
A man who has a residual lung volume of 2.5 liters has a value that is __________.
The man has above normal residual lung volume , as the normal residual volume (RV) for an adult male of average size is 1.2 liters. Causes for such high residual lung volumes in a man can occur from lung diseases, such as emphysema, that cause obstruction of the lungs and trapping of air.
The man has above normal residual lung volume , as the normal residual volume (RV) for an adult male of average size is 1.2 liters. Causes for such high residual lung volumes in a man can occur from lung diseases, such as emphysema, that cause obstruction of the lungs and trapping of air.
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In which of the following places is the partial pressure of carbon dioxide the highest?
In which of the following places is the partial pressure of carbon dioxide the highest?
The partial pressure of carbon dioxide would be the highest in systemic venous blood. This is because the systemic venous blood contains both the carbon dioxide that was in the systemic arterial blood and that which is added to the blood by tissue metabolism as the blood passes through the systemic capillaries.
The partial pressure of carbon dioxide would be the highest in systemic venous blood. This is because the systemic venous blood contains both the carbon dioxide that was in the systemic arterial blood and that which is added to the blood by tissue metabolism as the blood passes through the systemic capillaries.
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For a person who is at rest, an oxyhemoglobin saturation of mixed systemic venous blood of 25% is __________.
For a person who is at rest, an oxyhemoglobin saturation of mixed systemic venous blood of 25% is __________.
The normal oxyhemoglobin concentration in mixed systemic venous blood for a person at rest is 75%. Therefore, a person with a oxyhemoglobin concentration of 25% is much below normal.
The normal oxyhemoglobin concentration in mixed systemic venous blood for a person at rest is 75%. Therefore, a person with a oxyhemoglobin concentration of 25% is much below normal.
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IRV (inspiratory reserve volume), TV (tidal volume), ERV (expiratory reserve volume), RV (residual volume)
The total lung capacity (TLC) is equal to which of the following?
IRV (inspiratory reserve volume), TV (tidal volume), ERV (expiratory reserve volume), RV (residual volume)
The total lung capacity (TLC) is equal to which of the following?
The total lung capacity (TLC) = IRV (inspiratory reserve volume) + TV (tidal volume) + ERV (expiratory reserve volume) + RV (residual volume).
The total lung capacity (TLC ) is the maximum volume of gas present in the lungs after a maximal inspiration. It includes all of the possible lung volumes.
The total lung capacity (TLC) = IRV (inspiratory reserve volume) + TV (tidal volume) + ERV (expiratory reserve volume) + RV (residual volume).
The total lung capacity (TLC ) is the maximum volume of gas present in the lungs after a maximal inspiration. It includes all of the possible lung volumes.
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The lungs produces surfactant, which covers each alveolus; what is the function of surfactant?
The lungs produces surfactant, which covers each alveolus; what is the function of surfactant?
Surfactant coats each alveolus, and is a detergent that lowers surface tension that prevents the alveolus from collapsing on itself. Also, decreasing surface tension facilitates the diffusion of gasses across the alveolar epithelium.
Surfactant coats each alveolus, and is a detergent that lowers surface tension that prevents the alveolus from collapsing on itself. Also, decreasing surface tension facilitates the diffusion of gasses across the alveolar epithelium.
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Which of the following is the actual sites of gas exchange?
Which of the following is the actual sites of gas exchange?
Alveoli are the terminal point of the respiratory zone and closest to the blood vessels in the lung. Since gas exchange uses diffusion, using alveoli makes sense because they are closer to the blood vessels.
Alveoli are the terminal point of the respiratory zone and closest to the blood vessels in the lung. Since gas exchange uses diffusion, using alveoli makes sense because they are closer to the blood vessels.
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Which section of the brain controls unconscious breathing?
Which section of the brain controls unconscious breathing?
Unconscious breathing is controlled by the pons and the medulla oblongata, both of which are parts of the brain stem. This unconscious breathing can be consciously controlled by using the cerebral cortex, which manages most voluntary actions.
It helps to remember that the brain stem is responsible for unconscious control of the body: breathing, heart rate, blood pressure, etc. It is the addition of the cerebral cortex that allows humans to have conscious control over actions, such as breathing, and override the unconscious controls. For example, the cerebral cortex is used to consciously stop breathing when diving underwater.
Unconscious breathing is controlled by the pons and the medulla oblongata, both of which are parts of the brain stem. This unconscious breathing can be consciously controlled by using the cerebral cortex, which manages most voluntary actions.
It helps to remember that the brain stem is responsible for unconscious control of the body: breathing, heart rate, blood pressure, etc. It is the addition of the cerebral cortex that allows humans to have conscious control over actions, such as breathing, and override the unconscious controls. For example, the cerebral cortex is used to consciously stop breathing when diving underwater.
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What happens during inspiration?
What happens during inspiration?
At rest the diaphragm is slightly curved superiorly such that it makes this sort of shape:
When it contracts, it flattens out, with the middle of the muscle being pulled down until the muscle is roughly horizontal. Remembering that the diaphragm separates the thoracic and abdominal cavities, if it contracts, it physically increases the volume of the thoracic cavity. Now, remembering your fluid physics, an increase in volume is accompanied with a decrease in pressure. We know that high pressure flows to low pressure spontaneously. The atmospheric pressure is now higher than the intrapleural (or thoracic cavity) pressure, causing air to flow into the lungs.
Note that the external intercostals aid in inspiration and the internal intercostals aid in expiration.
At rest the diaphragm is slightly curved superiorly such that it makes this sort of shape: When it contracts, it flattens out, with the middle of the muscle being pulled down until the muscle is roughly horizontal. Remembering that the diaphragm separates the thoracic and abdominal cavities, if it contracts, it physically increases the volume of the thoracic cavity. Now, remembering your fluid physics, an increase in volume is accompanied with a decrease in pressure. We know that high pressure flows to low pressure spontaneously. The atmospheric pressure is now higher than the intrapleural (or thoracic cavity) pressure, causing air to flow into the lungs.
Note that the external intercostals aid in inspiration and the internal intercostals aid in expiration.
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Which of the following describes tidal volume?
Which of the following describes tidal volume?
Tidal volume is, by definition, the amount of air inspired/expired during normal breathing. The maximum volume of air that can be inspired after a normal expiration is the inspiratory capacity. The maximum volume of air that can be expired after a maximal inspiration is the vital capacity. The volume of air still in the lungs after a maximal expiration is the residual volume. The maximum volume of air that can be inspired after a normal inspiration is the inspiratory reserve volume.
Tidal volume is, by definition, the amount of air inspired/expired during normal breathing. The maximum volume of air that can be inspired after a normal expiration is the inspiratory capacity. The maximum volume of air that can be expired after a maximal inspiration is the vital capacity. The volume of air still in the lungs after a maximal expiration is the residual volume. The maximum volume of air that can be inspired after a normal inspiration is the inspiratory reserve volume.
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When the diaphragm contracts (is pulled downward), __________ occurs.
When the diaphragm contracts (is pulled downward), __________ occurs.
During a respiratory cycle, the diaphragm contracts and moves downward. When this occurs the pressure in the alveoli falls. This pulls air into the lungs. At the same time external intercostals muscles contract, raising ribs and sternum and enlarges the cavity even more. During exhalation the diaphragm relaxes (moves up) and air is foced out of the body. A hiccup is a muscular spasm of the respiratory muscles including the diaphragm. A pneumothorax is a "hole" in the lungs that causes air to accumulate in the pleural space.
During a respiratory cycle, the diaphragm contracts and moves downward. When this occurs the pressure in the alveoli falls. This pulls air into the lungs. At the same time external intercostals muscles contract, raising ribs and sternum and enlarges the cavity even more. During exhalation the diaphragm relaxes (moves up) and air is foced out of the body. A hiccup is a muscular spasm of the respiratory muscles including the diaphragm. A pneumothorax is a "hole" in the lungs that causes air to accumulate in the pleural space.
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While breathing, the diaphragm alternately contracts and relaxes to change the pressure of the lungs. Which of the following is correct during expiration?
While breathing, the diaphragm alternately contracts and relaxes to change the pressure of the lungs. Which of the following is correct during expiration?
When exhaling, the lungs elasticity compresses the walls increasing the pressure within so that it exceeds atmospheric pressure and forces air out. Humans, despite how it might feel, do not suck in air. Rather pressure differences allow air to rush in and out. During expiration, the diaphragm relaxes, bowing up into the thoracic cavity, thereby decreasing the volume of the thoracic cavity. This results in a corresponding increase in pressure (Boyle's law), and thus the movement of air from the lungs out of the body through the upper respiratory structures.
When exhaling, the lungs elasticity compresses the walls increasing the pressure within so that it exceeds atmospheric pressure and forces air out. Humans, despite how it might feel, do not suck in air. Rather pressure differences allow air to rush in and out. During expiration, the diaphragm relaxes, bowing up into the thoracic cavity, thereby decreasing the volume of the thoracic cavity. This results in a corresponding increase in pressure (Boyle's law), and thus the movement of air from the lungs out of the body through the upper respiratory structures.
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Which nerve is responsible for innervating the diaphragm during respiration?
Which nerve is responsible for innervating the diaphragm during respiration?
The phrenic nerve is the nerve responsible for innervation of the diaphragm. The term phrenic is often associated with descriptions of the diaphragm (i.e cardiophrenic ligament is a ligament associated with connecting the diaphragm to the pericardium of the heart)
The phrenic nerve is the nerve responsible for innervation of the diaphragm. The term phrenic is often associated with descriptions of the diaphragm (i.e cardiophrenic ligament is a ligament associated with connecting the diaphragm to the pericardium of the heart)
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Which of the following is not a layer found in blood vessels?
Which of the following is not a layer found in blood vessels?
The statum corneum is the superficialmost layer of the skin and is not a component of blood vessels.
The statum corneum is the superficialmost layer of the skin and is not a component of blood vessels.
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