276 - Pressure-Volume Loops and Cardiac Cycle (add on)

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Cardiovascular Fichas sobre 276 - Pressure-Volume Loops and Cardiac Cycle (add on), creado por Victoria Wright el 29/05/2017.
Victoria Wright
Fichas por Victoria Wright, actualizado hace más de 1 año
Victoria Wright
Creado por Victoria Wright hace más de 7 años
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Pregunta Respuesta
What is the first phase of the left ventricle? Isovolumetric contraction—period between mitral valve closing and aortic valve opening; period of highest O2 consumption
Describe the Isovolumetric contraction phase of the left ventricle? 1) Isovolumetric contraction—period between mitral valve closing and aortic valve opening; period of highest O2 consumption
Which phase of the left ventricle has the highest O2 consumption? Isovolumetric contraction—period between mitral valve closing and aortic valve opening; period of highest O2 consumption
What is the second phase of the left ventricle? Systolic ejection—period between aortic valve opening and closing
What is the third phase of the left ventricle? Isovolumetric relaxation—period between aortic valve closing and mitral valve opening
What is the fourth phase of the left ventricle? Rapid filling—period just after mitral valve opening
What is the fifth stage of the left ventricle? Reduced filling—period just before mitral valve closing
Describe the Systolic ejection phase of the left ventricle? 2) Systolic ejection—period between aortic valve opening and closing
Describe the Isovolumetric relaxation phase of the left ventricle? 3) Isovolumetric relaxation—period between aortic valve closing and mitral valve opening
Describe the rapid filling phase of the left ventricle? 4) Rapid filling—period just after mitral valve opening
Describe the reduced filling phase of the left ventricle? Reduced filling—period just before mitral valve closing
Heart sounds: Where is the S1 loudest? S1—mitral and tricuspid valve closure. Loudest at mitral area.
Heart sounds. What sound is described below? Mitral and tricuspid valve closure S1
Heart sounds. What sound is described below? Aortic and pulmonary valve closure. S2
Heart sounds. What sound is described below? Loudest at left upper sternal border. S2
Heart sounds. What sound is described below? Loudest at mitral area S1
Heart sounds. What sound is described below? In early diastole during rapid ventricular filling phase S3
Heart sounds. What sound is described below? Associated with increased filling pressures S3
Heart sounds. What sound is described below? Associated with mitral regurgitaion, HF S3
Heart sounds. What sound is described below? More common in dilated ventricles S3 (but can be normal in children and young adults)
Heart sounds. What sound is described below? In late diastole (“atrial kick”) S4
Heart sounds. What sound is described below? Best heard at apex with patient in left lateral decubitus position. S4
Heart sounds. What sound is described below? High atrial pressure. S4
Heart sounds. What sound is described below? Associated with ventricular noncompliance S4
Heart sounds. What sound is described below? Associated with hypertrophy S4
Heart sounds. What sound is described below? Left atrium must push against stiff LV wall. S4
Heart sounds. What sound is described below? Consider abnormal, regardless of patient age. S4
Heart sounds: Where is S2 loudest? Loudest at left upper sternal border.
Heart sounds: Where is S4 best heard? Best heard at apex with patient in left lateral decubitus position.
Describe S1 heart sounds. S1—mitral and tricuspid valve closure. Loudest at mitral area.
Describe S2 heart sound. S2—aortic and pulmonary valve closure. Loudest at left upper sternal border.
Describe S3 heart sound. S3
Describe S4 heart sound. S4 - in late diastole (“atrial kick”). Best heard at apex with patient in left lateral decubitus position. High atrial pressure. Associated with ventricular noncompliance (eg, hypertrophy). Left atrium must push against stiff LV wall. Consider abnormal, regardless of patient age.
Jugular venous pulse Describe (a) (a) wave - atrial contraction. Absent in atrial fibrillation (AF).
Jugular venous pulse Describe (c) (c) wave—RV contraction (closed tricuspid valve bulging into atrium).
Jugular venous pulse Describe (x) (x) descent—downward displacement of closed tricuspid valve during rapid ventricular ejection phase. Reduced or absent in tricuspid regurgitation and right HF because pressure gradients are reduced.
Jugular venous pulse Describe (v) (v) wave—increased right atrial pressure due to filling (“villing”) against closed tricuspid valve.
Jugular venous pulse Describe (y) (y) descent—RA emptying into RV. Prominent in constrictive pericarditis, absent in cardiac tamponade.
JVP. Which is absent in atrial fibrillation? (a) wave
JVP. Which is reduced or absent in tricuspid regurgitation and right HF? Why? (x) decent - Reduced or absent in tricuspid regurgitation and right HF because pressure gradients are reduced.
JVP. Which is absent in cardiac tamponade? (y) decent
JVP. Which is prominent in constructive pericarditis? (y) decent
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