Practical/Exam 3 Muscle Structures, Movements, Parts, Clinical Application
Fascicle
A bundle of individual muscle fibers
Muscle Fiber
A single muscle cell composed of myofibrils that is enclosed in a specialized plasma membrane (sarcolemma).
oxidative phosphorylation
Aerobic Metabolism that takes place inside the mitochondria
Glycolysis
Anaerobic Metabolism that occurs outside the mitochondria
Abduction
Arm: Hand: Thigh: Digits:
Adduction
Arm: Hand: Thigh: Digits:
Lateral Rotation
Arm: Thigh:
Medial Rotation
Arm: Thigh:
Thick Filament
Contains myosin heads
Perimysium
Dense Irregular connective tissue surrounds fascicles
Epimysium
Dense irregular connective tissue that surrounds muscles
Opposition
Digits:
Dorsiflexion
Foot:
Eversion
Foot:
Inversion
Foot:
Plantar Flexion
Foot:
Muscle
Formed by groups of fascicles
Tendons
Formed from endomysium, perimysium, and epimysium that extend beyond each muscles fiber that attach the muscle to bone.
Pronation
Hand:
Supination
Hand:
Extension
Head: Arm: Forearm: Hand: Thigh: Leg:
Flexion
Head: Arm: Forearm: Hand: Thigh: Leg:
Synergist
Helps the agonist
Depression
Jaw:
Elevation
Jaw:
Protraction
Jaw:
Retraction
Jaw:
Endomysium
Layer of connective tissue surrounding individual muscle fibers
Circumduction
Leg: Arm:
Insertion
Moves toward the origin. The majority of tension developed when a muscles contracts is focused here
Rotation
Neck:
I Band
Only thin filament Decreases in size during contraction
Z Disc
Stabilizes proteins Size doesn't change during contraction
Fixator
Stabilizes the origin of the prime mover to increase efficiency
Triad
Two terminal cisternae on either side of a transverse tubule
Slow Oxidative FIbers
Type I Aerobic Respiration High fatigue resistance Slow rate of contraction High mitochondrial density High capillary density High myoglobin presence (dark red) 1st to be recruited
Fast Oxidative-Glycolytic Fibers
Type IIa Aerobic + Anaerobic Respiration Intermediate fatigue resistance Intermediate rate of contraction Intermediate mitochondrial density Intermediate capillary density Intermediate myoglobin presence (pinkish) 2nd to be recruited
Fast Glycolytic Fibers
Type IIx Anaerobic Respiration Low fatigue resistance Fast rate of contraction Low mitochondrial density Low capillary density Low myoglobin presence (white) 3rd to be recruited
Antagonist
Works against the agonist
Thin Filament
contains actin, troponin, tropomyosin
A Band
entire length of thick filament doesn't change during contraction
Transverse Tubules
extensions of the sarcolemma, contain large concentrations of ion channels, and permit rapid transmission of an AP into the cell
Maximal Voluntary Contraction
force and EMG amplitude decrease over time, BUT effort increases over time because all motor units are recruited at the start then drop off due to fatigue
Submaximal Contraction
force at onset and middle are 50% max then decrease at end, EMG Amplitude increase from middle to onset then decrease at end, effort increases over time due to submaximal number of motor units recruited which when they begin to fatigue more are recruited to take their place. After all are recruited they'll fatigue
Ramp Contraction
force, EMG amplitude, and effort increases over time as more motor units are recruited to increase force produced by the muscle
M Line
midline of sarcomere doesn't change during contraction
Isometric Contraction
no change in length but tension increases
Origin
nonmoving point of attachment when a muscle contracts
Motor Unit
one motor neuron and all the muscle fibers innervated by that motor neuron
H Zone
only thick filaments decreases in size during contraction
Botox side effects
pain, swelling, bruising, headaches/flu symptoms, eyelid drooping, crooked smile, and eye dryness/redness Can cause muscle weakness, vision/breathing problems, trouble swallowing or speaking
Agonist
prime mover
Botox
strain of a toxin produced by bacterium "Clostridium botulinum" created in the 1980s to treat double vision. 1 gram can kill a human, but in diluted solutions it can smooth wrinkles, reduce sweating, reduce muscle spasms, fix crossed eyes, help with migraines, and help with bladder control. Lasts 3-6 months
Electromyography (EMG)
technique used monitor the electrical activity of muscle cells by using electrodes that detect change in electrical charge due to current flow associated with muscle excitation helps determine muscle action to be ab/normal
Isotonic Contraction
tension is constant but length changes
Botox mechanism
weaken or paralyze muscles by inhibiting the ACH release from the presynaptic motor neuron to keep the signal from being sent.
Zone of overlap
where thick and thin filaments overlap increases in size during contraction
Terminal Cisternae
Store calcium, increase the SRs capacity to release
