Cardiac Muscle Physiology - JU Medicine · Cardiac Muscle contraction Vs. Skeletal Muscle Sliding...
Transcript of Cardiac Muscle Physiology - JU Medicine · Cardiac Muscle contraction Vs. Skeletal Muscle Sliding...
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Cardiac Muscle
Physiology
Faisal Mohammed, MD, PhD
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Objectives:
By The end of this lecture students should be able to:
◼ Distinguish the cardiac muscle cell microstructure
◼ Describe cardiac muscle action potential
◼ Point out the functional importance of the action
potential
◼ Follow the cardiac muscle mechanism of contraction
◼ Delineate cardiac muscle energy sources
◼ Outline the intracellular calcium homeostasis
◼ Explain the relationship between muscle length and
tension of cardiac muscle (Frank-Starling law of the
heart)
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Cardiac Muscle Vs Skeletal Muscle
❖Syncytium structure
❖Gap Junction (electrical coupling) low resistance
area
❖Poorly developed Sarcoplasmic reticulum (SR)
❖Transverse (T)Tubule on Z-line (i.e.One T-tubule
per sarcomere)
❖Rich in mitochondria
❖Low in nuclei
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Permeability Changes and Ionic Fluxes During
an Action Potential (skeletal Muscle)
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The Action Potential in Skeletal and Cardiac
Muscle
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(activation gate) m Gate
(inactivation gate) h Gate
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PHASE 0 OF THE FAST FIBER ACTION
POTENTIAL
h
m
Na+
-90mv
A
Na+
mmh
-65mv
B
mh
Na+
0mv
C mh
Na+
D+20mv
Na+
mh
+30mvE
Chemical
Gradient
Electrical
Gradient
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Mechanism of Cardiac Muscle Excitation, Contraction & Relaxation
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Intracellular Calcium Homeostasis…1
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Intracellular Calcium Homeostasis…1
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Intracellular Calcium Homeostasis…2
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EFFECTS OF Ca++ CHANNEL BLOCKERS AND
THE CARDIAC CELL ACTION POTENTIAL
DILTIAZEM
10 uMol/L
30 uMol/L1030
10
FO
RC
E
TIME
CONTROL
CONTROL
3021
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Cardiac Muscle action potential Vs.
Skeletal Muscle
➢Phase 0 –Depolarization phase (Na+ influx)
➢Phase 1 partial repolarization (Not in
skeletal)
➢Phase 2 Plateau (depolarization not in
skeletal) slow calcium channels
➢Phase 3 fast repolarization phase (K+ efflux
➢Phase 4 resting membrane potential
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2
3
4
1
0
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The Action Potential in Skeletal and
Cardiac Muscle
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Cardiac Muscle contraction Vs. Skeletal
Muscle
Sliding filament hypothesis
No tetany (Long refractory period because
of plateau)
Fatty acids main source of energy unlike
skeletal muscle (Anaerobic and Aerobic)
Attachment and detachment cycle and ATP
dependence is the same
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Length-Tension Relation for Skeletal Muscle
❖ Active tension cannot be
measured directly
❖ What can be measured?
❖ (1) passive tension - tension
required to extend a resting
muscle
❖ (2) total tension - active
tension and passive combined
❖ Active is calculated from 1 & 2
❖ (AT = TT – PT)
❖ Note that active tension falls away
linearly with increasing length Length (proportion of resting length)
1.0 2.00
50
100
active tension
passive tension
total tension
Normal operating
range
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Isometric Contraction
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SERIES ELASTIC
ELEMENTS
CONTRACTILE
COMPONENT
(ACTIVE TENSION)
PARALLEL ELASTIC
ELEMENTS
(PASSIVE TENSION)
TOTAL
TENSION
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Cardiac Muscle length-tension
relationship
Cardiac muscle works at much less than its
maximum length in contrast to skeletal
Total, Active and Passive length-tension
relationship differ
Frank-Starling law of the heart
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Thank You
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