273 - Cardiac output variables

Beschreibung

Cardiovascular Karteikarten am 273 - Cardiac output variables, erstellt von Victoria Wright am 29/05/2017.
Victoria Wright
Karteikarten von Victoria Wright, aktualisiert more than 1 year ago
Victoria Wright
Erstellt von Victoria Wright vor mehr als 7 Jahre
15
0

Zusammenfassung der Ressource

Frage Antworten
What are the Cardiac output variables? Stroke volume, contractility, myocardial oxygen demand, preload, afterload, ejection fraction
Stroke Volume is affected by what? What is the mnemonic device to remember it? Stroke Volume affected by Contractility, Afterload, and Preload. Mnemonic: SV CAP
What is affected by Contractility, Afterload, and Preload? Stroke volume
High SV with: High or Low Contractility (eg, anxiety, exercise)? High
High SV with: High or Low Preload (eg, early pregnancy)? High
High SV with: High or Low Afterload? Low
A failing heart has high or low SV? A failing heart has low SV (systolic and/or diastolic dysfunction)
Contractility increases with what? C
Contractility (and SV) increase with: Catecholamine stimulation via what receptor? Catecholamine stimulation via β1 receptor
Contractility (and SV) increase with: Stimulation of what via β1 receptor? Catecholamine stimulation via β1 receptor
Ca2+ channels phosphorylated
Increased Ca2+ entry
Increased Ca2+-induced Ca2+ release
Increased Ca2+ storage in sarcoplasmic reticulum
Phospholamban phosphorylation
active Ca2+ ATPase
Increased Ca2+ storage in sarcoplasmic reticulum
Contractility (and SV) increase with: Increased or decreased intracellular Ca2+? Increased
Contractility (and SV) increase with: Increased or decreased extracellular Na+? Decreased extracellular Na+ (decreased activity of Na+/Ca2+ exchanger)
Contractility (and SV) increase with: Digitalis (blocks Na+/K+ pump
increased intracellular Na+
Decreased Na+/Ca2+ exchanger activity
Increased intracellular Ca2+
Contractility (and SV) decrease with what? S
Does Contractility increase or decrease with the following? β1-blockade (decreased cAMP) Decrease
Does Contractility increase or decrease with the following? HF with systolic dysfunction Decrease
Does Contractility increase or decrease with the following? Acidosis Decrease
Does Contractility increase or decrease with the following? Hypoxia/hypercapnia Decrease
Does Contractility increase or decrease with the following? Non-dihydropyridine Ca2+ channel blockers Decrease
Does Contractility increase or decrease with the following? Catecholamine stimulation via β1 receptor Increase
Does Contractility increase or decrease with the following? Increased intracellular Ca2+ Increase
Does Contractility increase or decrease with the following? Decreased extracellular Na+ Increase
Does Contractility increase or decrease with the following? Digitalis Increase
MyoCARDial O2 demand is increased by what? H
Wall tension follows what law? Wall tension follows Laplace’s law: Wall tension = pressure × radius Wall stress = (pressure × radius)/ (2 × wall thickness)
Laplace's Law Wall tension = ? Wall tension = pressure × radius
Laplace's Law pressure × radius = ? Wall tension
Laplace's Law (pressure × radius) / (2 × wall thickness) = ? Wall stress
Laplace's Law Wall stress = ? (pressure × radius) / (2 × wall thickness)
How is Preload approximated? Preload approximated by ventricular EDV; depends on venous tone and circulating blood volume.
VEnous vasodilators (eg, nitroglycerin) do what to preload? VEnous vasodilators (eg, nitroglycerin) decrease prEload.
Preload approximated by ventricular EDV; depends on what? Preload approximated by ventricular EDV; depends on venous tone and circulating blood volume.
Afterload is approximated by what? Afterload approximated by MAP.
Increased afterload leads to what? Leads to increased pressure which leads to increased wall tension per Laplace's law.
What compensates for increased afterload? How does it compensate? LV compensates for increased afterload by thickening (hypertrophy) in order to decrease wall tension.
What do Arterial vasodilators do to afterload? Arterial vasodilators (eg, hydrAlAzine) decrease Afterload.
What do ACE inhibitors and ARBs do to preload? To afterload? ACE inhibitors and ARBs decrease both preload and afterload.
What does chronic hypertension (increased MAP) lead to? Chronic hypertension (increased MAP) leads to LV hypertrophy.
Ejection Fraction EF = ? EF = SV / EDV EF = (EDV-ESV) / (EDV)
Left ventricular EF is an index of what? Left ventricular EF is an index of ventricular contractility.
What happens to EF in systolic HF? EF decreases in systolic HF
What happens to EF in HF with preserved ejection fraction (HFpEF)? EF normal in HF with preserved ejection fraction (HFpEF).
Zusammenfassung anzeigen Zusammenfassung ausblenden

ähnlicher Inhalt

The Heart
annalieharrison
The Circulatory System
Johnny Hammer
The cardiovascular system
JakeHull8
Examen de farmacologia cardiovascular
Claudia Hernandez
Hypertension Drugs
ringram6
Cardiovascular Clinic: Extended Matching Questions Formative Self Assessment
Chris Mulryan
BRS Flashcards Cardiovascular Physiology
tiwariashley
Anatomy and Physiology
Emma Purling
Lecture Exam 2: Chapter 15: Cardiovascular System
Kyla S
Cardiovascular Physiology
Beckie Thorne
Frecuencia Respiratoria
Alejandro F. Jiménez