cardiac output when the heart contracts cardiac vocabulary contractility: contractility is the...
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Cardiac Output
When the heart contracts
Cardiac Vocabulary
• Contractility: Contractility is the intrinsic ability of cardiac muscle to develop force for a given muscle length.
Cardiac Vocabulary
• Preload: Preload is the muscle length prior to contractility, and it is dependent of ventricular filling (or end diastolic volume…EDV)
• This value is related to right atrial pressure. • The most important determining factor for
preload is venous return.
Cardiac Vocabulary• Afterload: Afterload is the tension (or the arterial
pressure) against which the ventricle must contract. • If arterial pressure increases, afterload also increases.
• Afterload for the left ventricle is determined by aortic pressure
• Afterload for the right ventricle is determined by pulmonary artery pressure.
Cardiac Output
Cardiac Output is the volume of blood pumped each minute, and is expressed by the following equation:
• CO = SV x HR• Where:
• CO is cardiac output expressed in L/min (normal ~5 L/min)
• SV is stroke volume per beat• HR is the number of beats per minute
Heart Rate (HR) Heart rate is directly proportional to cardiac output
• Adult HR is normally 80-100 beats per minute (bpm.) • Heart rate is modified by autonomic, immune, and local factors.
For example:
1. An increase in parasympathetic activity via M2 cholinergic receptors in the heart will decrease the heart rate.
2. An increase in sympathetic activity via B1 and B2 adrenergic receptors throughout the heart will increase the heart rate.
Stroke Volume (SV) SV = EDV - ESV
• Is determined by three factors: preload, afterload, and contractility. • Preload gives the volume of blood that the ventricle has available to
pump
• Contractility is the force that the muscle can create at the given length
• Afterload is the arterial pressure against which the muscle will contract.
• These factors establish the volume of blood pumped with each
heart beat.
Preload
afterload
Cardiac Volumes
• SV = end diastolic volume (EDV) - end systolic volume (ESV)
• EDV = amount of blood collected in a ventricle during diastole
• ESV = amount of blood remaining in a ventricle after contraction
Cardiac Reserve
• Cardiac reserve is the difference between resting and maximal CO
• Cardiac Output: Example CO (ml/min) = HR (75 beats/min) x SV
(70 ml/beat)
• CO = 5250 ml/min (5.25 L/min)
Frank – Starling Principle • This principle illustrates the relationship
between cardiac output and left ventricular end diastolic volume (or the relationship between stroke volume and right atrial pressure.)
Frank – Starling Principle• The Frank Starling principle is based on the length-tension
relationship within the ventricle. • If ventricular end diastolic volume (preload) is increased, it
follows that the ventricular fiber length is also increased, resulting in an increased ‘tension’ of the muscle.
• Cardiac output is directly related to venous return, the most important determining factor is preload.
• The contraction and therefore stroke volume in response to changes in venous return is called the Frank-Starling mechanism (or Starling's Law of the heart).
How (TPR)Total Peripheral Resistance effects CO
Regulation of Heart Rate: Autonomic Nervous System
• Sympathetic nervous system (SNS) stimulation is activated by stress, anxiety, excitement, or exercise
• Parasympathetic nervous system (PNS) stimulation is
mediated by acetylcholine and opposes the SNS slowing heart rate
• Baroreceptors a. carotid sinus reflex - maintains BP in brain
• b. Bainbridge reflex – maintains BP in heart• c. Aortic sinus reflex – maintains BP in aorta
Bainbridge Reflex
• Bainbridge (atrial) reflex – a sympathetic reflex initiated by increased blood in the atria
• Causes stimulation of the SA node
• Stimulates baroreceptors in the atria, causing increased SNS stimulation
Cardiac Neurotransmitters
& Receptors
Chemical Regulation of the Heart
• The hormones epinephrine and thyroxine (T4) increase heart rate
• Hormonal Regulation of Blood Pressure 1. Renin 2. ADH
3. Aldosterone
• Intra- & extracellular ion concentrations must be maintained for normal heart function
Homeostatic Imbalances
• Hypocalcemia – reduced ionic calcium depresses the heart
• Hypercalcemia – dramatically increases heart irritability and leads to spastic contractions
• Hypernatremia – blocks heart contraction by inhibiting ionic calcium transport
• Hyperkalemia – leads to heart block and cardiac arrest
Congestive Heart Failure (CHF)
caused by:• Coronary atherosclerosis
• Increased blood pressure in aorta
• Successive myocardial infarcts
• Dilated cardiomyopathy (DCM)
Coronary Artery Bypass Surgery
Heart Auscultation
Normal Heart Beat
Mid Systolic Click
Diastolic Murmur
Aortic Stenosis