S2: the heart as a pump, control of cardiac output & anatomy of the heart Flashcards
Describe the basic structure of the heart, naming the chambers, valves, and main vessels and the main differences between the right and left heart
4 chambers: right and left atria, right and left ventricles
4 valves: tricuspid (between right ventricle and atrium), pulmonary (between right ventricle and pulmonary trunk), mitral (between left ventricle and atrium) and aortic (between left ventricle and aorta)
Pulmonary vein enters left atrium
Superior and inferior vena cava drain into right atrium
Define the terms systole and diastole
Systole = contraction and ejection of blood from ventricles Diastole = relaxation and filling of ventricles
Name the 7 phases of the cardiac cycle in order
Atrial contraction Isovolumetric contraction Rapid ejection Reduced ejection Isovolumetric relaxation Rapid filling Reduced filling
Describe when in the cardiac cycle each valve in the heart opens and closes
Phase 2: mitral valve closes
Phase 3: aortic valve opens
Phase 5: aortic valve closes
Phase 6: mitral valve opens
Explain the origin of the 1st and 2nd heart sounds
S1 heart sound caused by the closure of mitral and tricuspid valves
S2 heart sound caused by the closure of aortic and pulmonary valves
Describe aortic valve stenosis
Causes: degenerative (senile calcification/fibrosis), congenital (bicuspid form of valve instead), chronic rheumatic fever
Can cause microangiopathic haemolytic anaemia (stress on RBCs going through a narrow path)
LV hypertrophy, syncope & angina
Murmur: crescendo-decrescendo
Define cardiac output
CO = is the amount of blood the heart pumps in 1 minute
Define preload, afterload and contractility
Preload: amount the ventricles are stretched in diastole (related to EDV/CVP)
Afterload: the load the heart must eject blood against (roughly equivalent to aortic pressure)
Contractility: force of contraction for a given fibre length
Explain the Frank-Starling Law of the heart
The more the heart fills, the harder it contracts
Stretching the ventricles by increasing the filling of the heart increased the force of contractions
Describe rapid filling
Fall in atrial pressure = Y-descent
Ventricular pressure < atrial pressure, mitral valve opens
S3 HEART SOUND normal in children but sign of pathology in adults
Describe reduced filling
Rate of filling slows down
Further filling is driven by venous return
End of phase 7 90% full
Describe aortic valve regurgitation
Causes: aortic root dilation, valvular damage
Bounding pulse, LV hypertrophy
Murmur: early decrescendo diastolic
Describe mitral valve regurgitation
Causes: damage to papillary muscle (MI), LV dilation, myxomatous degeneration
Increases preload
Murmur: holosystolic
Describe mitral valve stenosis
Causes: rheumatic fever
Increased LA pressure
RV hypertrophy, thrombus formation, dyspagia (oesophagus compression)
Murmur: snap as valve opens, diastolic rumble
Name the intrinsic and extrinsic control mechanisms of the heart
Intrinsic = Starling's law (ensures both sides of the heart pump maintain the same output) Extrinsic = autonomic nervous system & circulating adrenaline
