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Chapter 18' The Cardiovascular System: The Heart

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Averages 75 beats per minute w/ modification. AV node. Located superior to tricuspid valve ... depolarization ~ 50 beats/ minute. Atrioventricular bundle ... – PowerPoint PPT presentation

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Title: Chapter 18' The Cardiovascular System: The Heart


1
Chapter 18. The Cardiovascular System The Heart
  • Part II Physiology

2
Electrical Events
  • Cardiac muscle depolarization/contraction is
    rhythmic and intrinsic
  • Gap junctions and the intrinsic cardiac
    conduction system
  • Self depolarizing cardiac cells possesses an
    unstable resting potential

3
Parts
  • There are 4 areas that contain these cells
  • Sinoatrial (SA) node
  • Atrioventricular (AV) node
  • Atrioventricular bundle/bundle branches
  • Purkinje fibers

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5
SA node
  • Located in right atrium where superior vena cava
    empties
  • Called the pacemaker
  • Rhythm it generates called the sinus rhythm
  • Averages 75 beats per minute w/ modification

6
AV node
  • Located superior to tricuspid valve
  • Receives depolarization wave via gap junctions by
    way of the internodal pathway
  • Impulses delayed at AV node
  • Intrinsic depolarization 50 beats/ minute

7
Atrioventricular bundle / branches
  • Also called Bundle of His
  • Located superior part of interventricular septum
  • Bundles connected to SA node indirectly through
    AV node
  • Branches travel down either side of septum

8
Purkinje fibers
  • Complete interventricular pathway, travel through
    apex, and up the ventricular walls
  • More elaborate on left side
  • Directly innervate papillary muscles
  • Ventricles contract as a unit due to gap
    junctions

9
more
  • Time b/t SA depolarization and last of
    ventricular cells is .22 sec.
  • This system allows coordination, otherwise
    different parts of the heart would contract at
    different times

10
C
BC
A
AB
D
E
AB
11
Homeostatic Imbalances
  • Arrhythmia irregular heart rhythms
  • Fibrillations rapid out-of-phase contractions
  • Ectopic focus abnormal pacemaker
  • Junctional rhythm
  • Extrasystole
  • Heart block

12
External control
  • As you remember, the ANS affects heart rate
  • Centers located in the medulla
  • Parasympathetic via the vagus, sympathetic via
    the chain
  • e.g., intrinsic rate of SA node is 100 bpm,
    parasympathetic modifies this to 75 bpm

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ECGs
  • Electrical depolarizations can be recorded
  • ECG is a summation of all impulses
  • Typically 3 deflection waves are recorded
  • P wave
  • QRS complex
  • T wave

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  • P wave SA depolarization
  • QRS ventricular depolarization
  • T wave ventricular repolarization

17
  • P-Q interval beginning of atrial excitation to
    beginning of ventricular excitation
  • S-T segment entire myocardium depolarized
  • Q-T interval ventricular depolarization through
    ventricular repolarization

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20
Irregular ECGs
  • Normal

21
Junctional rhythm
22
Heart block
23
Ventricular fibrillation
24
Lub-dub
  • Auscultation listening
  • Lub AV closure, beginning of contraction
  • Dub SL closure beginning of ventricular
    relaxation

25
Homeostatic imbalance
  • Murmurs generation of sound due to turbulence
    caused by obstructed blood flow
  • Incompetent valve swishing sound
  • Stenotic valve high-pitched/clicking

26
Mechanical events
  • Heart alternates b/t contraction and relaxation
  • Contraction systole
  • Relaxation diastole
  • Cycle 1 heart beat atrial systole/diastole
    ventricular systole/diastole

27
Lets put it together
  • Arbitrary starting point beginning of
    ventricular filling (1.)
  • mid-to-late diastole
  • Pressure is low
  • AV valves open SL valves closed
  • Towards the end, SA node depolarizes, causing
    the P wave

28
  • Just after this, atrial systole.
  • Atrial pressure maximizes, atria empty
  • Ventricles, at the last part of diastole, contain
    maximum volume of blood (EDV)
  • Atrial diastole for rest of cycle

29
  • Beginning of AV node/bundle/Purkinje
    depolarization causing QRS complex

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31
Phase 2
  • Completion of QRS complex
  • Ventricular systole
  • 1st heart sound as AV valves shut
  • Ventricular pressure maximizes
  • SL valves open
  • T wave seen as ventricles repolarize
  • Also called isovolumetric phase

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Phase 3
  • Also called isovolumetric relaxation phase
    beginning of diastole
  • Occurs immediately after the T wave is seen
  • Ventricles relax
  • SL valves close, causing 2nd heart sound

34
  • Remaining blood volume in ventricles called ESV
  • Pressure on aorta greatest right after
    ventricular systole
  • As pressure in ventricles, backflow that closes
    SL valves causes brief increase in aortic
    pressure called the dicrotic notch

35
  • During ventricular systole, atria have been
    filling.

36
P wave
Atrial pressure
Atrial volume
Ventricle volume
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