Textbook Question
If the papillary muscles fail to contract:
(a) The ventricles will not pump blood
(b) The atria will not pump blood
(c) The semilunar valves will not open
(d) The AV valves will not close properly
(e) None of these happen
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Ch. 20 The Heart
Martini, Nath, Bartholomew12th EditionFundamentals of Anatomy and PhysiologyISBN: 9780137854011
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Table of contents
- Ch. 1 An Introduction to Anatomy and Physiology25
- Ch. 2 The Chemical Level of Organization34
- Ch. 3 The Cellular Level of Organization29
- Ch. 4 The Tissue Level of Organization24
- Ch. 5 The Integumentary System17
- Ch. 6 Bones and Bone Structure33
- Ch. 7 The Axial Skeleton11
- Ch. 8 The Appendicular Skeleton17
- Ch. 9 Joints13
- Ch. 10 Muscle Tissue12
- Ch. 11 The Muscular System28
- Ch. 12 Nervous Tissue18
- Ch. 13 The Spinal Cord, Spinal Nerves, and Spinal Reflexes22
- Ch. 14 The Brain and Cranial Nerves20
- Ch. 15 Sensory Pathways and the Somatic Nervous System17
- Ch. 16 The Autonomic Nervous System and Higher-Order Functions30
- Ch. 17 The Special Senses15
- Ch. 18 The Endocrine System21
- Ch. 19 Blood31
- Ch. 20 The Heart31
- Ch. 21 Blood Vessels and Circulation26
- Ch. 22 The Lymphatic System and Immunity25
- Ch. 23 The Respiratory System4
- Ch. 24 The Digestive System18
- Ch. 26 The Urinary System31
- Ch. 27 Fluids & Electrolytes30
- Ch. 28 The Reproductive System12
- Ch. 29 Development and Inheritance17
Martini, Nath, Bartholomew12th EditionFundamentals of Anatomy and PhysiologyISBN: 9780137854011Not the one you use?Change textbook
Chapter 20, Problem 19
Which of the following is longer?
(a) The refractory period of a cardiac contractile cell.
(b) The refractory period of skeletal muscle fiber.
Verified step by step guidance1
Step 1: Understand what the refractory period means in muscle physiology. The refractory period is the time during which a muscle cell cannot be re-excited after an action potential has occurred.
Step 2: Recall that cardiac contractile cells have a unique action potential characterized by a plateau phase, which prolongs their refractory period to prevent tetanus and allow proper heart filling.
Step 3: Compare this to skeletal muscle fibers, which have a much shorter refractory period because their action potentials are brief, allowing rapid repeated contractions.
Step 4: Recognize that the longer refractory period in cardiac muscle ensures rhythmic contractions and prevents summation, while the shorter refractory period in skeletal muscle allows for quick, repeated contractions.
Step 5: Conclude that the refractory period of a cardiac contractile cell is longer than that of a skeletal muscle fiber due to the physiological differences in their action potentials and functional requirements.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Refractory Period
The refractory period is the time during which a muscle cell cannot be re-excited after an action potential. It ensures proper timing of contractions and prevents continuous, uncontrolled stimulation. Understanding this period is essential to compare different muscle types.
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Refractory Period
Cardiac Contractile Cell Physiology
Cardiac contractile cells have a prolonged action potential due to calcium influx, resulting in a longer refractory period. This extended refractory period prevents tetanus and allows the heart to relax between beats, ensuring effective pumping.
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Skeletal Muscle Fiber Physiology
Skeletal muscle fibers have a shorter refractory period because their action potentials are brief, allowing rapid repeated contractions. This enables skeletal muscles to sustain tetanic contractions necessary for voluntary movements.
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Related Practice
Textbook Question
What three factors regulate stroke volume to ensure that the left and right ventricles pump equal volumes of blood?
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Textbook Question
The cells of the conducting system differ from the contractile cells of the heart in that:
(a) Conducting cells are larger and contain more myofibrils
(b) Contractile cells exhibit pacemaker potentials
(c) Contractile cells do not normally exhibit autorhythmicity
(d) Both a and b are correct
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Textbook Question
Describe the function of the SA node in the cardiac cycle. How does this function differ from that of the AV node?
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Textbook Question
Cardiac output cannot increase indefinitely because:
(a) The available filling time decreases as heart rate increases
(b) The heart becomes unable to contract at faster rates
(c) Stroke volume increases too much, leading to overfilling
(d) The heart’s muscle fibers lose their ability to stretch
(e) None of these reasons
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Textbook Question
What is the cardiac cycle? What phases and events are necessary to complete a cardiac cycle?
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