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End-systolic pressure as a balance between opposing effects of ejection
W. C. Hunter
Research output
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Contribution to journal
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Article
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peer-review
78
Scopus citations
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Dive into the research topics of 'End-systolic pressure as a balance between opposing effects of ejection'. Together they form a unique fingerprint.
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Keyphrases
Ejection
100%
Opposing Effects
100%
End-systolic Pressure
100%
Ejection Fraction
50%
Systole
25%
End-systolic Volume
25%
Peak Isovolumic Pressure
25%
Deactivation
12%
Steady State
12%
Negative Effects
12%
Cardiac Myosin
12%
Left Ventricular End-diastolic Pressure
12%
Canine Heart
12%
Sarcomere
12%
Arterial System
12%
End-systole
12%
Ventricular Pressure
12%
Positive Influence
12%
Long Length
12%
Isovolumic Contraction
12%
Prolonged Duration
12%
Low Ejection Fraction
12%
Strongest Activations
12%
Pressure Duration
12%
Pressure Generation
12%
Load-independence
12%
Force-velocity Relation
12%
Length-dependent Activation
12%
Agricultural and Biological Sciences
Ejection Fraction
100%
Ventricular Pressure
40%
End-Systolic Volume
40%
Sarcomere
20%
Myofilament
20%
Canine
20%
Earth and Planetary Sciences
Systolic Pressure
100%
Counterbalance
14%