Textbook Question
Sympathetic preganglionic neurons synapse:
a. directly on target cells.
b. on skeletal muscle fibers.
c. on sympathetic chain or collateral ganglia.
d. on vagal ganglia.
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Ch. 14 The Autonomic Nervous System and Homeostasis
Amerman2nd EditionHuman Anatomy & PhysiologyISBN: 9780136873822
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Table of contents
- Ch. 1 Introduction to Anatomy and Physiology26
- Ch. 2 The Chemistry of Life38
- Ch. 3 The Cell55
- Ch. 4 Histology47
- Ch. 5 The Integumentary System30
- Ch. 6 Bones and Bone Tissue36
- Ch. 7 The Skeletal System40
- Ch. 8 Articulations19
- Ch. 9 The Muscular System36
- Ch. 10 Muscle Tissue and Physiology29
- Ch. 11 Introduction to the Nervous System and Nervous Tissue28
- Ch. 12 The Central Nervous System42
- Ch. 13 The Peripheral Nervous System41
- Ch. 14 The Autonomic Nervous System and Homeostasis31
- Ch. 15 The Special Senses39
- Ch. 16 The Endocrine System42
- Ch. 17 The Cardiovascular System I: The Heart30
- Ch. 18 The Cardiovascular System II: The Blood Vessels43
- Ch. 19 Blood32
- Ch. 20 The Lymphatic System and Immunity45
- Ch. 21 The Respiratory System27
- Ch. 22 The Digestive System27
- Ch. 23 Metabolism and Nutrition7
- Ch. 24 The Urinary System39
- Ch. 25 Fluid, Electrolyte, and Acid-Base Homeostasis39
- Ch. 26 The Reproductive System10
- Ch. 27 Development and Heredity5
Chapter 14, Problem L3.A2
A patient, Dr. Young, has both asthma and high blood pressure. Her physician prescribed the drug propranolol to treat her hypertension; this drug blocks all types of β-adrenergic receptors. She also takes the drug albuterol for asthma, which activates β2 receptors on bronchial smooth muscle. Will the pairing of these two drugs cause problems for Dr. Young? Explain.
Verified step by step guidance1
Step 1: Understand the role of β-adrenergic receptors in the body. β1 receptors are primarily found in the heart and are involved in increasing heart rate and contractility, while β2 receptors are found in bronchial smooth muscle and are responsible for bronchodilation (relaxation of airway muscles).
Step 2: Analyze the mechanism of propranolol. Propranolol is a non-selective β-blocker, meaning it blocks both β1 and β2 adrenergic receptors. Blocking β1 receptors helps lower blood pressure by reducing heart rate and cardiac output, but blocking β2 receptors can interfere with bronchodilation, potentially causing bronchoconstriction.
Step 3: Examine the mechanism of albuterol. Albuterol is a β2 receptor agonist, meaning it activates β2 receptors on bronchial smooth muscle to promote bronchodilation, which is beneficial for asthma patients as it helps open up the airways.
Step 4: Consider the interaction between propranolol and albuterol. Since propranolol blocks β2 receptors, it can counteract the effects of albuterol, reducing its ability to promote bronchodilation. This could exacerbate asthma symptoms and lead to breathing difficulties for Dr. Young.
Step 5: Conclude that the pairing of these two drugs may cause problems for Dr. Young. The physician should consider prescribing a cardioselective β-blocker (e.g., atenolol or metoprolol) that primarily blocks β1 receptors and has minimal effect on β2 receptors, to avoid interfering with albuterol's action on bronchial smooth muscle.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
β-adrenergic receptors
β-adrenergic receptors are a class of G protein-coupled receptors that are activated by catecholamines like adrenaline. They are divided into three subtypes: β1, β2, and β3, each with different physiological roles. β1 receptors primarily affect the heart, increasing heart rate and contractility, while β2 receptors are mainly found in the lungs and cause bronchodilation. Understanding these receptors is crucial for evaluating the effects of drugs like propranolol and albuterol.
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Sensory Receptors
Propranolol
Propranolol is a non-selective β-adrenergic antagonist (beta-blocker) used primarily to manage hypertension and other cardiovascular conditions. By blocking β1 and β2 receptors, it reduces heart rate and myocardial contractility, but it can also lead to bronchoconstriction due to the inhibition of β2 receptors in the lungs. This dual action is significant in patients with respiratory conditions like asthma, as it may exacerbate their symptoms.
Albuterol
Albuterol is a selective β2-adrenergic agonist commonly used as a bronchodilator in the treatment of asthma. It works by stimulating β2 receptors in the bronchial smooth muscle, leading to relaxation and dilation of the airways, which helps alleviate asthma symptoms. The interaction between albuterol and propranolol is critical to consider, as propranolol's non-selective blockade can counteract the bronchodilatory effects of albuterol, potentially leading to respiratory complications.
Related Practice
Textbook Question
Describe all the changes initiated by the parasympathetic nervous system that will take place when you finish the race. How will these changes maintain homeostasis?
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Textbook Question
Many chemical warfare agents, such as the poisonous gas sarin, block the enzyme acetylcholinesterase in the synaptic cleft. What effects will this poison have on muscle contraction? What effects will it have on the autonomic nervous system? What symptoms would you expect to see from this poison?
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Textbook Question
Which cranial nerves would be affected by a drug that stimulates the parasympathetic nervous system? Predict potential adverse effects that one might experience.
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Textbook Question
Mr. Chevalier has been diagnosed with Horner syndrome, which is caused by dysfunction of the sympathetic neurons in the superior cervical ganglion that innervate structures of the head, face, and neck. What symptoms is Mr. Chevalier likely to face due to his disease? Explain.
Textbook Question
The poison curare (kyoo-RAH-ray) blocks the binding of acetylcholine to its receptors at the neuromuscular junction. What effects would you predict from such a poison? Can you think of any useful applications for it? Why might an overdose of it be lethal?
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