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Example Questions
Example Question #1 : Muscle Physiology
The individual unit of muscle contraction in a muscle fibril is referred to as the __________.
sliding filament
sarcolemma
sarcomere
sarcoplasmic reticulum
sarcomere
The individual contractile unit of a muscle fibril is referred to as the sarcomere. These units are made of actin and myosin filaments and joined by Z-lines. The sliding filament theory refers to the idea that muscle contraction is the result of myosin strands within the fibril pulling themselves along actin strands similar to pulling on a rope, which shortens the whole sarcomere. The sarcolemma is the specialized cell membrane around the muscle fibril, and the sarcoplasmic reticulum is the smooth endoplasmic reticulum found within the muscle cell.
Example Question #1 : Muscle Physiology
Which of the following is the correct order of structures in a skeletal muscle, from largest to smallest?
Fiber - fascicle - fibril
Fascicle - fiber - fibril
Fiber - fibril - fascicle
Fibril - fascicle - fiber
Fascicle - fibril - fiber
Fascicle - fiber - fibril
The largest unit of muscle tissue is the fascicle. Each fascicle is made up of a bundle of muscle fibers, and every muscle fiber is made up of many fibrils (called myofibrils).
Example Question #2 : Muscle Physiology
The muscle body is encased in which of the following?
The endomysium
The epimysium
None of these
The perimysium
The epimysium
The muscle body is encased in a fibrous elastic sheath called the epimysium (epi meaning on or above and mys meaning muscle). It is composed of dense irregular connective tissue and is continuous with tendon fibers. The perimysium surrounds muscle fascicles, while the endomysium surrounds muscle fibers.
Example Question #54 : Musculoskeletal System And Anatomy
Which of the following correctly describes an isometric muscle contraction?
The length of the muscle shortens and the angle of the joint changes during the contraction
The amount of muscle tension increases without any change in the length of the muscle or the angle of the joint
This form of contraction can either be eccentric or concentric
There is a rapid burst of mechanical energy for a short powerful movement
The amount of muscle tension increases without any change in the length of the muscle or the angle of the joint
Isometric muscle contraction are those in which the tension in the muscle increases, but the muscle does not change length, nor does the angle of the joint change. An example would be attempting to push or lift an object that is too heavy to move. This is in contrast to isotonic contraction, in which muscle tension remains constant, but the muscle length and joint angle both change.
Example Question #541 : Nclex
During contraction, the A band of the sarcomere does which of the following?
It thickens
It does not change
It shortens
It lengthens
It does not change
The A band in the sarcomere is created by the bipolar myosin filaments, joined at the M band. During contraction, the heads of the myosin filaments bind with the actin filament and pull it toward the M band at the center of the sarcomere. The myosin filaments do not themselves change length, and because of that the width of the A band does not change during contraction.
Example Question #55 : Musculoskeletal System And Anatomy
In the sliding filament theory of muscle contraction, all but which of the following are functions of ATP?
ATP does all of these things during muscle contraction
It moves the myosin head into a high energy "cocked" position
It allows the myosin head to detach from the actin filament
It moves tropomyosin off of actin binding sites
It moves tropomyosin off of actin binding sites
According to the sliding filament theory of muscle contraction, ATP binds to the myosin head and is hydrolyzed to ADP and inorganic phosphate. The energy released during this change draws the myosin head back into a high energy state, from which it is able to bind with actin and execute its "power stroke," leading to muscle contraction. ADP and inorganic phosphate then are released from the myosin head and replaced by a new molecule of ATP, which allows the myosin head to detach from the actin binding site.
Example Question #53 : Musculoskeletal System And Anatomy
All of the following features are unique to cardiac muscle cells except:
They are linked together via intercalated discs
They are non-striated
There are gap junctions between cells
They form branching chains
They are non-striated
Cardiac muscle cells are striated, branching cells that are linked by structures called intercalated discs. These discs are composed of gap junctions, which allow the free passage of electrical signaling between heart cells, and very strong attachment points called desmosomes.
Example Question #61 : Musculoskeletal System And Anatomy
A nurse is examining a patient who has muscle pain and fatigue after working out. He determines that the patient has muscle strain. This is generally caused by which of the following?
Hypertrophy is causing swelling of the muscle fiber
Excessive contraction causes tetany in the muscle body
There is damage to ligamentous attachments
The actin and myosin filaments have been pulled past their ability to overlap
The actin and myosin filaments have been pulled past their ability to overlap
Muscle strain is often caused by over stretching, during which actin and myosin heads are pulled to the extent that they are no longer overlapping, possibly to the point of causing tears in muscle tissue. Tears in ligaments are sprains, rather than strains.
Example Question #7 : Muscle Physiology
Which is the only muscle type that is non-striated?
Smooth muscle
Voluntary
Cardiac muscle
Skeletal muscle
Smooth muscle
The only type of muscle that is not striated is smooth muscle. Smooth muscle does not use sarcomeres for contraction - rather, each muscle cell is a spindle that is covered in a mesh of contractile fibrils. These fibrils contract in unison when calcium enters the cell.
Example Question #62 : Musculoskeletal System And Anatomy
Which of the following is the smallest unit of contractile tissue in cardiac and skeletal muscle cells?
Myosin filament
The sarcomere
Actin filaments
The myofibril
The sarcomere
The smallest contractile unit in muscle tissue is the sarcomere. Myofibrils are made up of many sarcomeres attached end-to-end at a series of dark lines (hence the term "striated") called Z lines. Each sarcomere contains actin and myosin filaments, which pull together during contraction to shorten the sarcomere.