Term
What is the mechanism by which the individual muscle cells of the heart function as if they were a single unit, all undergoing synchronous electrical and mechanical activity? |
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Definition
Cardiac muscles are joined by gap junctions that permit the conduction of action potentials from cell to cell. |
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Term
How does a cardiac muscle cell differ from skeletal and smooth muscle fibers with respect to producing a graded twitch strength? |
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Definition
Cardiac contractions are slow twitch. Skeletal contractions are fast-slow. Smooth muscle contractions are very slow. |
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Term
How does excitation-coupling in a cardiac muscle cell differ from that in a skeletal and smooth muscle fiber? |
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Definition
Depolarization due to influx of calcium ions through voltage gated channels (L type calcium channels which are modified versions of the DHP receptors in skeletal muscle) Instead of being open directly by voltage as in skeletal, cardiac are opened by binding of trigger calcium in cytosol. Unlike skeletal, process is dependent upon movement of extracellular calcium in cytosol (even though most calcium initiating contraction comes from sarcoplasmic reticulum) cardiac are graded like smooth muscle contraction. Unlike skeletal, action potential is brief and force generation is much longer. |
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Term
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Definition
Recording at skin surface of the electrical currents generated by cardiac muscle action potentials. |
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Term
Positive Inotropic effect |
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Definition
Increased force has an effect on contractile cells, Beta-1 effect on G protein and cAMP. Activated protein kinase which increases calcium ion from ECF and amount in sarcoplasmic reticulum released by trigger calcium to move free cytosol calcium ion for a stronger contraction. |
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Term
Negative chronotropic effect |
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Definition
Decreased rate which increases membrane potassium permeability in conductile tissues. More potassium ion is able to leave, cell is more negative and takes longer for SA cells to reach threshold and heartrate slows. |
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Term
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Definition
Period of cardiac cycle when ventricles are relaxing |
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Term
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Definition
Period of ventricular contraction |
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Term
End-diastolic volume (EDV) |
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Definition
amount of blood in ventricle just prior to systole |
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Term
End-systolic volume (ESV) |
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Definition
amaount of blood remaining after ejection |
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Term
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Definition
the volume of blood ejected from each ventricle during systole |
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Term
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Definition
blood volume pumped by each ventricle per minute (not total output pumped by both ventricles) |
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Term
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Definition
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Term
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Definition
slow, decreased heart rate |
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Term
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Definition
changes in the end-diastolic volume in the ventricles just before contraction |
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Term
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Definition
the work the heart does while ejecting blood. A function of arterial blood pressure as well as the diameter and thickness of the ventricles. |
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Term
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Definition
the ratio of stroke volume to end-diastolic volume EF=SV/EDV |
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Term
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Definition
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Term
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Definition
ventricular depolarization. Masks atrial repolarization. |
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Term
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Definition
Reflects slow wave of conduction through AV node |
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Term
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Definition
ventricular repolarization |
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Term
Where is the myocardium found? |
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Definition
Middle layer of cardiac muscle which forms the heart wall |
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Term
Where is the endocardium found? |
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Definition
Inner layer of endothelial cells |
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Term
Where is the epicardium found? |
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Definition
Outer layer of endothelial cells |
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Term
Where is the pericardium found? |
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Definition
Connective tissue surrounding the heart. |
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Term
What is the functions do the papillary muscles and chordate tendinae serve? |
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Definition
Prevent backflow of blood during ventricular contraction. |
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Term
What function do the atria serve? |
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Definition
Atria receives blood from veins and passes it on to ventricle on same side of heart using pressure differences as force. |
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Term
From where do the cells of the myocardium and epicardium receive oxygen and glucose? |
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Definition
Via coronary arteries blood supply |
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Term
How do action potentials recorded from contractile heart cells differ from action potentials recorded from conductile heart cells? |
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Definition
Conductile cells have a pre potential, a more gradually developing phase D (depolarization), no phase 1 (sodium channel closes, sodium pump speeds) and a blending of phases 2 (pleateau) and 3 (repolarization) compared to contractile. |
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Term
What ionic events are responsible for how actino potentials are recorded from contractile heart cells differ from action potentials recorded from conductile heart cells? |
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Definition
Prepotential of conductile is from less potassium leakage and more retained in cell. |
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Term
Do contractile or conductile heart cells have pacemaker potentials? |
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Definition
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Term
What is the function of the SA node? |
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Definition
Pacemaker for the entire heart. Its depolarization generates action potential that leads to depolarization of all other cardiac muscle cells. (Its discharge rate determines heart rate) |
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Term
What is the function of Atrial impulses? |
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Definition
Trigger discharge of AV node during AV relative refractory period. |
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Term
What is the function of AV node? |
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Definition
The link between atrial depolarization and ventricular depolarization. Conducts slowly allowing time for erection blood from atria to ventricles. |
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Term
What is the function of Bundle of HIS? |
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Definition
Carries electrical impulses from AV node down the interventricular septum. |
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Term
What is the function of the Purkinje system? |
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Definition
Distributes impulse to ventricular contractile cells. |
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Term
What is the function of ventricular muscles? |
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Definition
Where the conduction of impulse occurs by ephaptic conduction or gap junctions. |
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Term
How does the regulation of the strength of contraction of a cardiac muscle cell compare to that of a skeletal or smooth muscle cell? |
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Definition
Strength and frequency are modulated by neurotransmitters and hormones. Cardiac muscle has trigger calcium which releases more calcium from sarcoplasmic reticulum? |
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Term
What is a cardiac pacemaker potential? |
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Definition
Spontaneous gradual depolarization to threshold of some nerve and muscle cells' plasma membrane. |
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Term
How is a cardiac pacemaker potential generated? |
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Definition
By potassium leakage out of cell decreasing and therefore more potassium is retained in the cell. Voltage gated sodium channels open and sodium enters the cell and calcium T channels open causing calcium ion to enter. |
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Term
How does the stroke volume of the left ventricle compare to that of the right ventricle? |
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Definition
Identical despite the right ventricle's lower pressure during contraction. |
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Term
When the heart rate is slowed from 70 beats per minute to 40, how much does the duration of systole change? |
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Definition
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Term
When the heart rate is slowed from 70 beats per minute to 40, how much does the duration of diastole change? |
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Definition
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Term
When the heart rate is increased from 70 beats per minute to 100, how much does the duration of systole change? |
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Definition
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Term
When heart rate is increased from 70 beats per minute to 100, how much does the duration of diastole change? |
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Definition
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Term
What is the name of the parasympathetic nerve which innervates the heart? |
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Definition
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Term
What is the mechanism by which muscarinic (parasympathetic) stimulation slows the heart? |
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Definition
The slope of the pacemaker potential decreases due to a reduction in the inward current. Threshold is reached more slowly and heart rate decreases. |
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Term
What is the mechanism by which beta one (sympathetic) stimulation increases heart rate? |
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Definition
Increases the slope of pacemaker potential by increasing F-type channel permeability. Main current is sodium entering cell and further depolarization results. this causes SA node cells to reach threshold more rapidly and heart rate increases. |
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Term
How does the body vary cardiac output? |
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Definition
Control of heart rate and control of stroke volume. |
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Term
How does the Frank-Starling relationship compare to a positive or negative inotropic action in influencing cardiac stroke volume? |
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Definition
Increased end disastolic volume creates greater stretch and a more forceful contraction. The greater filling will increase the force of contraction. The sympathetic tone remains constant. Autonomic influences an ionotrophy relate Beta 1 receptor activity and is independent of end diastolic volume. |
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Term
What are the functions of desmosomes and gap junctions between myocardial cells? |
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Definition
Desmosomes and gap junctions allow positive ions to depolarize adjacent contractile cells and conductile system and overall allows simultaneous (choreographed) contractions. It spreads the action potential from one cell to another. |
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Term
What ion is responsible for the deopolarization of myocardial contractile cells? |
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Definition
Voltage gated sodium channels |
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Term
What ion is responsible for the depolarization of myocardial conductile cells? |
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Definition
L voltage gated calcium channels |
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