Respiratory System - NCLEX-PN
Card 1 of 300
What does the term "partial pressure" describe?
What does the term "partial pressure" describe?
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Many gases, such as room air, are composed of several gasses (in the case of room air, primarily nitrogen, oxygen, and several trace gasses). Partial pressure is the amount of pressure that each gas contributes. To find the total pressure of a gas mixture, one would find the sum of all partial pressures of each individual gas.
Many gases, such as room air, are composed of several gasses (in the case of room air, primarily nitrogen, oxygen, and several trace gasses). Partial pressure is the amount of pressure that each gas contributes. To find the total pressure of a gas mixture, one would find the sum of all partial pressures of each individual gas.
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Which of the following structures is the site of gas exchange in the lung?
Which of the following structures is the site of gas exchange in the lung?
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Gas exchange in the lung occurs exclusively in the alveoli, the tiny grape-like clusters of sacks at the terminus of the bronchioles of the lung. The gas contained in the larger structures of the lung - the trachea, bronchi, and bronchioles, is termed "dead space" as it does not participate in gas exchange.
Gas exchange in the lung occurs exclusively in the alveoli, the tiny grape-like clusters of sacks at the terminus of the bronchioles of the lung. The gas contained in the larger structures of the lung - the trachea, bronchi, and bronchioles, is termed "dead space" as it does not participate in gas exchange.
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How do oxygen and carbon dioxide cross the capillary epithelium and alveolar cell membranes during gas exchange?
How do oxygen and carbon dioxide cross the capillary epithelium and alveolar cell membranes during gas exchange?
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Gas exchange in the alveoli occurs by the process of simple diffusion. The blood that enters the lung capillaries is relatively low in oxygen and high in 
, in comparison to the room air that is drawn into the alveoli during respiration. The separation between the capillaries and the alveolar epithelium is thin enough that these gasses can exchange across their pressure gradients by the process of simple diffusion.
Gas exchange in the alveoli occurs by the process of simple diffusion. The blood that enters the lung capillaries is relatively low in oxygen and high in
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Which of the following is the main trigger for the impulse to breathe?
Which of the following is the main trigger for the impulse to breathe?
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The main trigger for the impulse to breathe is high carbon dioxide (decreased blood pH). In response to a decrease in blood pH, the medullary respiratory center triggers the diaphragm and the external intercostal muscles to increase breathing rate.
The main trigger for the impulse to breathe is high carbon dioxide (decreased blood pH). In response to a decrease in blood pH, the medullary respiratory center triggers the diaphragm and the external intercostal muscles to increase breathing rate.
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Myoglobin can bind with molecule(s) of oxygen, while hemoglobin can bind with molecule(s) of oxygen.
Myoglobin can bind with molecule(s) of oxygen, while hemoglobin can bind with molecule(s) of oxygen.
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Myoglobin, an oxygen-binding protein in the muscle tissue, can bind with one molecule of oxygen. Hemoglobin, the main oxygen-binding metalloprotein in red blood cells, can bind four molecules of oxygen.
Myoglobin, an oxygen-binding protein in the muscle tissue, can bind with one molecule of oxygen. Hemoglobin, the main oxygen-binding metalloprotein in red blood cells, can bind four molecules of oxygen.
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Hyperventilation results in which of the following?
Hyperventilation results in which of the following?
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While hyperventilation or tachypnea may be triggered by various forms of acidosis, they will not cause a decrease in blood pH, but rather push the blood into a more alkaline state. This occurs due to loss of carbon dioxide during respiration, followed by a compensatory decrease in bicarbonate ions. The result is in an elevation in the pH of the blood. This condition is known as respiratory alkalosis.
While hyperventilation or tachypnea may be triggered by various forms of acidosis, they will not cause a decrease in blood pH, but rather push the blood into a more alkaline state. This occurs due to loss of carbon dioxide during respiration, followed by a compensatory decrease in bicarbonate ions. The result is in an elevation in the pH of the blood. This condition is known as respiratory alkalosis.
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What does the term "partial pressure" describe?
What does the term "partial pressure" describe?
Tap to reveal answer
Many gases, such as room air, are composed of several gasses (in the case of room air, primarily nitrogen, oxygen, and several trace gasses). Partial pressure is the amount of pressure that each gas contributes. To find the total pressure of a gas mixture, one would find the sum of all partial pressures of each individual gas.
Many gases, such as room air, are composed of several gasses (in the case of room air, primarily nitrogen, oxygen, and several trace gasses). Partial pressure is the amount of pressure that each gas contributes. To find the total pressure of a gas mixture, one would find the sum of all partial pressures of each individual gas.
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Which of the following structures is the site of gas exchange in the lung?
Which of the following structures is the site of gas exchange in the lung?
Tap to reveal answer
Gas exchange in the lung occurs exclusively in the alveoli, the tiny grape-like clusters of sacks at the terminus of the bronchioles of the lung. The gas contained in the larger structures of the lung - the trachea, bronchi, and bronchioles, is termed "dead space" as it does not participate in gas exchange.
Gas exchange in the lung occurs exclusively in the alveoli, the tiny grape-like clusters of sacks at the terminus of the bronchioles of the lung. The gas contained in the larger structures of the lung - the trachea, bronchi, and bronchioles, is termed "dead space" as it does not participate in gas exchange.
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How do oxygen and carbon dioxide cross the capillary epithelium and alveolar cell membranes during gas exchange?
How do oxygen and carbon dioxide cross the capillary epithelium and alveolar cell membranes during gas exchange?
Tap to reveal answer
Gas exchange in the alveoli occurs by the process of simple diffusion. The blood that enters the lung capillaries is relatively low in oxygen and high in , in comparison to the room air that is drawn into the alveoli during respiration. The separation between the capillaries and the alveolar epithelium is thin enough that these gasses can exchange across their pressure gradients by the process of simple diffusion.
Gas exchange in the alveoli occurs by the process of simple diffusion. The blood that enters the lung capillaries is relatively low in oxygen and high in
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Which of the following is the main trigger for the impulse to breathe?
Which of the following is the main trigger for the impulse to breathe?
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The main trigger for the impulse to breathe is high carbon dioxide (decreased blood pH). In response to a decrease in blood pH, the medullary respiratory center triggers the diaphragm and the external intercostal muscles to increase breathing rate.
The main trigger for the impulse to breathe is high carbon dioxide (decreased blood pH). In response to a decrease in blood pH, the medullary respiratory center triggers the diaphragm and the external intercostal muscles to increase breathing rate.
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Myoglobin can bind with molecule(s) of oxygen, while hemoglobin can bind with molecule(s) of oxygen.
Myoglobin can bind with molecule(s) of oxygen, while hemoglobin can bind with molecule(s) of oxygen.
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Myoglobin, an oxygen-binding protein in the muscle tissue, can bind with one molecule of oxygen. Hemoglobin, the main oxygen-binding metalloprotein in red blood cells, can bind four molecules of oxygen.
Myoglobin, an oxygen-binding protein in the muscle tissue, can bind with one molecule of oxygen. Hemoglobin, the main oxygen-binding metalloprotein in red blood cells, can bind four molecules of oxygen.
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Hyperventilation results in which of the following?
Hyperventilation results in which of the following?
Tap to reveal answer
While hyperventilation or tachypnea may be triggered by various forms of acidosis, they will not cause a decrease in blood pH, but rather push the blood into a more alkaline state. This occurs due to loss of carbon dioxide during respiration, followed by a compensatory decrease in bicarbonate ions. The result is in an elevation in the pH of the blood. This condition is known as respiratory alkalosis.
While hyperventilation or tachypnea may be triggered by various forms of acidosis, they will not cause a decrease in blood pH, but rather push the blood into a more alkaline state. This occurs due to loss of carbon dioxide during respiration, followed by a compensatory decrease in bicarbonate ions. The result is in an elevation in the pH of the blood. This condition is known as respiratory alkalosis.
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How many lobes total are there in the human lungs?
How many lobes total are there in the human lungs?
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There are five lobes total in the human lungs: the right lung has three lobes (the upper lobe, the middle lobe, and the lower lobe) while the left lung has two lobes (the upper lobe and the lower lobe).
There are five lobes total in the human lungs: the right lung has three lobes (the upper lobe, the middle lobe, and the lower lobe) while the left lung has two lobes (the upper lobe and the lower lobe).
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What is the name for the topmost part of the lung?
What is the name for the topmost part of the lung?
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The topmost part of the lungs is the apex. This area extends into the neck above the 1st rib and is the location auscultated for a diagnosis of a pancost tumor. The lingula of the lung is a small flap of the lowest part of the upper lobe of the left lung. The hilum is the entry point of the lung for the bronchi, pulmonary artery and vein, and nerves. The trachea is not a part of the lung at all; it is the cartilaginous tube that connects the pharynx and larynx to the lung.
The topmost part of the lungs is the apex. This area extends into the neck above the 1st rib and is the location auscultated for a diagnosis of a pancost tumor. The lingula of the lung is a small flap of the lowest part of the upper lobe of the left lung. The hilum is the entry point of the lung for the bronchi, pulmonary artery and vein, and nerves. The trachea is not a part of the lung at all; it is the cartilaginous tube that connects the pharynx and larynx to the lung.
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Which of the following lists of airway structures is in order from largest to smallest?
Which of the following lists of airway structures is in order from largest to smallest?
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The largest airway structure is the trachea. This branches into two smaller bronchi, which enter the left and right lung and bifurcate further into smaller bronchioles. The bronchioles give way into the smallest structures of the lung, the tiny grape-like clusters of alveoli.
The largest airway structure is the trachea. This branches into two smaller bronchi, which enter the left and right lung and bifurcate further into smaller bronchioles. The bronchioles give way into the smallest structures of the lung, the tiny grape-like clusters of alveoli.
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What structure of the lung is primarily responsible for controlling volume of air flow during respiration?
What structure of the lung is primarily responsible for controlling volume of air flow during respiration?
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The main mediator of air flow during respiration is the bronchiole. These tiny airways are wrapped in smooth muscle, which allows them to contract or relax in order to restrict or increase air flow in the lung. The trachea and bronchioles are cartilaginous rather than muscular, and are unable to constrict, while the wall of the alveolar sac is also devoid of smooth muscle, made up only of epithelial cells, capillaries, and connective tissue.
The main mediator of air flow during respiration is the bronchiole. These tiny airways are wrapped in smooth muscle, which allows them to contract or relax in order to restrict or increase air flow in the lung. The trachea and bronchioles are cartilaginous rather than muscular, and are unable to constrict, while the wall of the alveolar sac is also devoid of smooth muscle, made up only of epithelial cells, capillaries, and connective tissue.
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Which of the following allows debris to be removed from the lung?
Which of the following allows debris to be removed from the lung?
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The system by which debris is removed from the lung is termed the mucociliary escalator. This is made up of two parts: the mucus produced by respiratory goblet cells, and the wave-like movement of cilia covering the bronchioles and bronchi of the lung. Bacteria and particles of debris are caught in the mucus coating the cilia, which is then passed in waves upward toward the trachea. Once it clears the trachea and enters the pharynx, it can either be coughed out or swallowed.
The system by which debris is removed from the lung is termed the mucociliary escalator. This is made up of two parts: the mucus produced by respiratory goblet cells, and the wave-like movement of cilia covering the bronchioles and bronchi of the lung. Bacteria and particles of debris are caught in the mucus coating the cilia, which is then passed in waves upward toward the trachea. Once it clears the trachea and enters the pharynx, it can either be coughed out or swallowed.
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What are the two types of alveolar cells?
What are the two types of alveolar cells?
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There are two types of alveolar cells: type I cells and type II cells. Each cell type has a unique function within the alveolus, and the dysfunction of either cell type results in serious respiratory pathology. Type I cells are simple squamous epithelial cells that account for about 95% of all alveolar cells. They are the primary cells responsible for diffusion of gasses across the respiratory membranes. Type I alveolar cells are responsible for secreting surfactant, which facilitates the diffusion of substances across the epithelium.
There are two types of alveolar cells: type I cells and type II cells. Each cell type has a unique function within the alveolus, and the dysfunction of either cell type results in serious respiratory pathology. Type I cells are simple squamous epithelial cells that account for about 95% of all alveolar cells. They are the primary cells responsible for diffusion of gasses across the respiratory membranes. Type I alveolar cells are responsible for secreting surfactant, which facilitates the diffusion of substances across the epithelium.
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The major alveolar cell type, making up 95% of alveolar cells, is type I. Only 5% of alveolar cells are type II, yet they serve a vital function in respiratory physiology. What is the function of type II alveolar cells?
The major alveolar cell type, making up 95% of alveolar cells, is type I. Only 5% of alveolar cells are type II, yet they serve a vital function in respiratory physiology. What is the function of type II alveolar cells?
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Type II alveolar cells secrete pulmonary surfactant, a lipoprotein complex that is essential for lung function. This surfactant acts to break up the surface tension of fluid coating the lung airspaces, allowing for alveolar compliance and reducing the buildup of fluid in the lung. Lack of surfactant can lead to atelectasis, or collapse of part of the lung.
Type II alveolar cells secrete pulmonary surfactant, a lipoprotein complex that is essential for lung function. This surfactant acts to break up the surface tension of fluid coating the lung airspaces, allowing for alveolar compliance and reducing the buildup of fluid in the lung. Lack of surfactant can lead to atelectasis, or collapse of part of the lung.
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Which of the following is the primary muscle of respiration?
Which of the following is the primary muscle of respiration?
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The most important muscle of respiration is the diaphragm, followed by the intercostals. The sternocleidomastoid and scalenes are considered accessory muscles of respiration.
The most important muscle of respiration is the diaphragm, followed by the intercostals. The sternocleidomastoid and scalenes are considered accessory muscles of respiration.
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