psk4u the neuromuscular...
TRANSCRIPT
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THE NEUROMUSCULAR SYSTEM
PSK4U
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REVIEW
Review of muscle so we can see how the
neuromuscular system works
This is not on today's note
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Skeletal Muscle Cell: Cellular System
• A) Excitation System – Electrical Potential • muscle is an excitable tissue • sarcolemma (cell membrane)/ T-Tubules • action potential
• B) Ca2+ Regulation System • Sarcoplasmic Reticulum (SR) • storage, release, and uptake of Ca2+
• C) Contractile System (Myofibrils) • Contractile Proteins (Actin & Myosin) • Regulatory Proteins (Troponin & Tropomyosin)
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Skeletal Muscle Cell: Cellular System
• D) Metabolic (Energy) System
• ATP → ADP + Pi + ENERGY ATPase
• muscle cell needs a constant supply of ATP to contract and produce force.
• E) Nucleus (Multinucleated) • ability to regenerate (Satellite Cells) • ability to adapt and be eliminated to physiological and
environmental stimuli
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Fig. 8.2
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Orientation of Thin & Thick Filaments Within Skeletal Muscle
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THIS IS HEALTHY MUSCLE TISSUE
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THIS IS A DAMAGED TISSUE
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Actin Binding Site
ATPase
Silverthorn, Prentice-Hall, 2007.
Thick Filament Backbone
Thick Filament: Myosin Molecule
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Fast fibers
• Type IIx (IIb) fibers
– Fast-twitch fibers
– Fast-glycolytic fibers
• Type IIa fibers
– Intermediate fibers
– Fast-oxidative glycolytic fibers
Slow fibers
• Type I fibers
– Slow-twitch fibers
– Slow-oxidative fibers
Muscle Fiber Types
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Primary factor that differentiates muscle or muscle fiber types:
• The RATE (speed) of contraction • Vmax (maximal rate of shortening) • Fast-Twitch (Type II) – IIx > IIa • Slow-Twitch (Type I) • TYPE II > TYPE I
MUSCLE FIBER TYPES
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FAST-TWITCH VS. SLOW-TWITCH
FAST SLOW
FIG 8.15 Powers
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Second factor that differentiates muscle or muscle fiber types:
• FATIGUE Characteristics
• Fatigue Index
Fast Fatigable (FF) Fast Resistant (FR) Slow (S)
MUSCLE FIBER TYPES
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A third factor used to characterized muscle fiber types is the fiber METABOLIC CHARACTERISTICS
• METABOLIC Characteristics
• Glycolytic • Oxidative • measure enzyme activities of representative pathways
(Glycolysis, Oxidative Phosphorylation)
• Fast-Glycolytic (FG) • Fast-Oxidative-Glycolytic (FOG) • Slow-Oxidative (SO)
Muscle Fiber Types
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A fourth factor used to characterized muscle fiber types I the MORPHOLOGICAL characteristics (form and structure of fiber)
MORPHOLOGICAL CHARACTERISTICS
• muscle fiber diameter (size)
• capillary density (muscle blood flow)
• myoglobin content (cellular O2 transport)
• organelle content (SR, Mitochondria)
Muscle Fiber Types
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Fast fibers Slow fibers
Characteristic Type IIb Type IIa Type I
Number of mitochondria Low High/moderate High
Resistance to fatigue Low High/moderate High
Predominant energy system Anaerobic Combination Aerobic
ATPase activity Highest High Low
Vmax (speed of shortening) Highest Intermediate Low
Efficiency Low Moderate High
Specific tension High High Moderate
Muscle Fiber Types
Table. 8.1 Powers.
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Type IIa
Type IIx
Type I
M-ATPase pH=4.6
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Training-Induced Changes in Muscle Fiber Type
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THE NEUROMUSCULAR SYSTEM (P.172)
- The interrelated workings of the nervous
system and the muscles to bring about
movement
The brain and spinal cord control skeletal
(voluntary) muscles through specialized nerves
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THE NERVE CELL
Neurons are nerve cells, found in the nervous
system.
These are specialized cells designed to
stimulate other cells in the body in order to
communicate.
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THE NERVE CELL
Neurons are excitable, which means they
function by using electrical stimulation.
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ACTION POTENTIAL
Action Potential
a short-lasting event in
which the electrical
membrane potential of a
cell rapidly rises and falls,
following a consistent
trajectory
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AXON
- - - - - - - - - + + + + + + - - - - - - - -
- - - - - - - - - + + + + + + - - - - - - - -
Na Na Na Na K K K K K Na Na Na
Na Na Na Na K K K K K Na Na Na
+ + + + + + - - - - - - -+ + + + + + + +
+ + + + + + - - - - - - -+ + + + + + + +
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Action Potential
https://www.youtube.com/watch?v=ifD1YG07f
B8
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NEUROMUSCULAR JUNCTION
(WHERE THE SYNAPSE HAPPENS)
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NEUROMUSCULAR JUNCTION - STEPS
1. Action potential travels down the Axon and
depolarizes the axon terminal
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NEUROMUSCULAR JUNCTION - STEPS
2. The depolarization opens voltage gated Ca2+
channels and Ca2+ enters the cell
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NEUROMUSCULAR JUNCTION - STEPS
3. Calcium entry triggers exocytosis of synaptic
vessels neurotransmitter (acetylcholine - ACh)
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NEUROMUSCULAR JUNCTION - STEPS
4. Neurotransmitter diffuses across the synaptic
cleft and binds on receptors
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EXCITATION – CONTRACTION COUPLING
The physiological process of converting an
electrical stimulus to a mechanical response.
It is the link (transduction) between the action
potential generated in the sarcolemma and the
start of a muscle contraction
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STEPS
1. Muscle action potential propagation into – T-
tubules
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STEPS
2. Ca2+ released from sarcoplasmic reticulum
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STEPS
3. Ca2+ binds to troponin and removes blocking
action for tropomyosin
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STEPS
4. Cross –bridges bind and generate force
(muscle shortens)
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STEPS
5. Ca2+ taken back up
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STEPS
6, Ca2+ removal from troponin restores
tropomyosin blocking agent.
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STEPS IN
EXCITATION-
CONTRACTION
(RELAXATION)
COUPLING
• Sites of peripheral fatigue
(i.e. beyond the
neuromuscular junction and
in the muscle itself
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MOTOR UNIT
A motor unit consists of a motor neuron, axon,
and the muscle fibres it stimulates
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MOTOR UNIT
Some motor units are attached to just a few
muscle fibres while others in large muscles are
attached to 100’s
In order to do a one rep max, all motor units
must be recruited.
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MOTOR UNIT
Nerve impulses come in waves.
Single wave and muscle contraction is called a
twitch
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MOTOR UNITS
Slow twitch muscle motor units generally are
smaller as they have fewer muscle fibres.
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ALL-OR-NONE PRINCIPLE
When a motor unit is stimulated to contract, all the
muscle fibres will contract to their fullest potential.
Either they all fire or they all don’t fire.
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MOTOR UNIT
• motor neuron and the muscle fibers it innervates
• smallest amount of muscle that can be activated voluntarily
• recruitment of motor units is the most important means of controlling muscle force
• To increase force: • Recruit more motor
units • Increase frequency
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• Neural factors
-Increased ability to activate motor units
-Strength gains in initial 4-20 weeks
• Muscular enlargement
-Mainly due enlargement of fibers (hypertrophy)
-Long-term strength training
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HIGH INTENSITY – SHORT DURATION
TRAINING
Nerve–muscle connections
Increased recruitment of additional motor units,
which respond in a simultaneous fashion to
improve force production
There is an increased activation of synergistic
muscles to assist force production for strength,
power, speed and hypertrophy.
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HIGH INTENSITY – SHORT DURATION
TRAINING
Nerve–muscle connections
Neural pathways linking to target muscles become
more efficient at transmitting the message
(stimulus).
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HIGH INTENSITY – SHORT DURATION
TRAINING
Timing of Neural Stimulus
The timing of contractions becomes more co-
ordinated, especially with power, speed and
strength training, in order to meet the force
generation required to move loads.
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HIGH INTENSITY – SHORT DURATION
TRAINING
Summation of motor units
The ability to summate (fire a lot of impulses in target muscles
all at once) is improved with strength and power training
because they require maximum activation of target muscles to
create maximum force.
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LONGER DURATION TRAINING
No real Neural changes
As the duration of training lengthens slow
twitch (endurance) fibres become increasingly
dominant. Aerobic fitness, anaerobic fitness
and muscular endurance training all improve
the function of slow twitch fibres.