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CARDIAC OUTPUT & VENOUS RETURN. Lecture – 7 Dr. Zahoor Ali Shaikh. CARDIAC OUTPUT. What is Cardiac Output? It is volume of the blood pumped out by each ventricle per minute .It is about 5 – 5.5 Lit/min Cardiac Output [COP ] = Heart rate × Stroke volume
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CARDIAC OUTPUT & VENOUS RETURN Lecture – 7 Dr. Zahoor Ali Shaikh
CARDIAC OUTPUT What is Cardiac Output? • It is volume of the blood pumped out by each ventricle per minute .It is about 5 – 5.5 Lit/min • Cardiac Output [COP ] = Heart rate × Stroke volume = 70 beats/min × 70ml/beat = 4900 ml/min ≈ 5liters/min • COP of each ventricle is same.
CARDIAC OUTPUT [COP] • COP increases during exercise, and depending on exercise, it can increase to 20–25 liters/min [up to 35 liters/min is recorded in trained athlete during heavy exercise]. • How ? - By increasing stroke volume and heart rate.
CARDIAC INDEX What is Cardiac Index ? • It is cardiac output per minute per square meter of body surface area. • Normal Cardiac Index = 3.2 Liter /min/ sq meter body surface area. What is Cardiac Reserve ? • It is the difference between cardiac output at rest and maximum volume of blood that heart can pump per minute.
REMEMBER THE FOLLOWING DEFINITIONS WHICH WE WILL USE DURING DISCUSSION OF COP • Stroke Volume: It is a volume of blood pumped out by each ventricle per beat. It is about 70 - 80 ml. Stroke volume (SV) = EDV – ESV • End Diastolic Volume: Volume of blood in each ventricle at the end of diastole. It is about 120 – 130 ml. • End Systolic Volume: Volume of blood in each ventricle at the end of Systole. It is about 50 to 60 ml
SV (EDV – ESV) X 100 EDV • Ejection fraction (EF) is the percentage of ventricular end diastolic volume (EDV) which is ejected with each stroke. EF = 75 X 100 = 62.5% 120 Normal ejection fraction is about 60 – 65 %. Ejection fraction is good index of ventricular function.
CARDIAC OUTPUT [COP] • As cardiac output depends on heart rate and stroke volume, we will discuss each one. • HEART RATE [No. of beats per minute] • Normal heart rate = 70 beats/min [60 to 100]. • Heart rate above 100 is called Tachycardia. • Heart rate below 60 is called Bradycardia. • Heart rate is determined by autonomic nervous system effect on SA – Node.
CARDIAC OUTPUT [COP] Effect of Autonomic Nervous System on Heart
CARDIAC OUTPUT [COP] • Control of Heart Rate • Heart rate is 70 beats/min, when there is sympathetic and parasympathetic ANS effect on SA –Node. • If all autonomic nerves to the heart are blocked, Heart Rate [HR] at rest will increase to 100 beats/min, which is inherent rate of SA – Node spontaneous discharge when there is no influence of ANS.
CARDIAC OUTPUT [COP] • Control of Heart Rate • Our Heart Rate is 70/min as normal rate of SA – Node discharge because of dominant effect of parasympathetic ANS on SA – Node.
CARDIAC OUTPUT [COP] We will discuss Stroke Volume: • STROKE VOLUME • It is amount of blood pumped out by each ventricle per beat. • Stroke volume can be increased by TWO mechanism: 1.INTRINSIC CONTROL – by increasing venous return to the heart 2.EXTRINSIC CONTROL – due to the sympathetic stimulation of the heart
CARDIAC OUTPUT [COP] • STROKE VOLUME [cont] • Both factors( Intrinsic and Extrinsic ) increase stroke volume by increasing the strength of heart contraction. • First, we will see mechanism of INTRINSIC control – when there is increase in end – diastolic volume, it results in increased stroke volume. • It is due to length – tension relationship of cardiac muscle.
FRANK STARLING LAW OF THE HEART • When there is increase in initial length of cardiac muscle fiber [within physiological limits], there will be increased force of contraction. OR • When there is increased end- diastolic volume [EDV], there is increased stroke volume [SV]. • This is INTRINSIC relationship between EDV and SV, it is known as ‘Frank Starling Law of the Heart’.
FRANK STARLING LAW OF THE HEART Mechanism of Cardiac Length – Tension Relationship • When there is increase in the length of cardiac muscle fiber to the optimal length, there is maximum sliding of actin and myosin and we get maximum contraction.
CARDIAC OUTPUT [COP] • EXTRINSIC CONTROL [factors outside the heart] • Extrinsic control is through sympathetic stimulation. • Sympathetic stimulation and epinephrine increases heart contractility, at any given end – diastolic volume. • Increased contractility results from increased Ca2+ influx triggered by nor- epinephrine and epinephrine.
CARDIAC OUTPUT [COP] • EXTRINSIC CONTROL [cont] • Example : Normally EDV 135ml ESV 65ml Therefore, SV 70ml • Under sympathetic stimulation EDV 135ml ESV 35ml SV 100ml • Frank Starling Curve shifts to the left by sympathetic stimulation.
EJECTION FRACTION • Ejection Fraction is ratio of Stroke Volume to End – Diastolic Volume. EF = [SV ÷ EDV] × 100 • Normal healthy heart has Ejection Fraction of 50 – 75% [55 – 65%] under resting conditions and may go up to 90% during strenuous exercise. • A failing heart (cardiac failure) EF maybe 30% or less.
VENOUS RETURN TO THE HEART • EDV depends on Venous Return and Venous Return is increased to the heart by: i). Blood Volume ii). Skeletal Muscle Pump iii). Respiratory Pump iv). Increased Sympathetic Veno constriction v). Cardiac suction effect vi). Venous Valves
VENOUS RETURN TO THE HEART i).Increased Blood Volume • Veins are capacitance vessels and hold about 60 to 70% of blood, when veins store less blood, more blood is returned to the heart. ii).Skeletal Muscle Pump • Muscle contraction compresses the veins. • This external venous compression decreases venous capacity and increases venous pressure and moves blood towards the heart.
VENOUS RETURN TO THE HEART iii).Respiratory Pump • During respiration, intra-thoracic pressure decreases and is less than atmospheric pressure [-5 mmHg]. • This negative chest cavity pressure squeezes blood from the lower veins to the chest, increasing venous returns.
VENOUS RETURN TO THE HEART iv).Increased Sympathetic Vasoconstriction • Sympathetic Stimulation causes vasoconstriction, which increases venous pressure and drives more blood to right atrium, therefore, more venous returns and increase EDV. v).Cardiac suction effect • Heart plays role in its own filling. During ventricular contraction, AV valves are pulled downward enlarging atrial cavities. • Atrial pressure drops below 0 mmHg and increases venous returns.
VENOUS RETURN TO THE HEART vi).Venous Valves • In the veins, blood can be driven forward only as large veins have one way valve placed at 2 to 4 cm intervals. • These valves prevent back flow of blood that tends to occur when a person stands up.
MEASUREMENT OF CARDIAC OUTPUT • Cardiac Output can be measured 1. Fick Principle 2. Dye Dilution Method 3. Doppler Combined with Echocardiography
FICK PRINCIPLE Output of Left Ventricle Oxygen Uptake by lungs ml/min = AO2 - VO2 200 ml / min 200 ml / L – 160 ml / L Art blood – Venous blood [Pul artery] 200 ml/min 40ml / liter = 5 L/min = =
CARDIAC OUTPUT IN EXERCISE • Cardiac Output increases to 25 to 30 liters/min because there is - increased muscle pump - increased respiratory pump - increased sympathetic stimulation - increased venomotor tone - increased venous return - increased force of contraction of heart [SV] - increased heart rate
APPLIED HEART FAILURE What is Heart Failure ? • It is inability of heart to give cardiac output, sufficient to keep pace with body’s demand. • There may be left ventricular failure or right ventricular failure or bi – ventricular failure. • Most common cause heart failure is 1. Heart Attack or Myocardial Infarction 2. Working against Increased after load e.g. hyper tension or aortic valve stenosis
PRE LOAD & AFTER LOAD • PRE LOAD – load on the heart before contraction i.e. end – diastolic volume. • AFTER LOAD – load against which ventricle has to pump i.e. pressure in the artery or arterial blood pressure.
SIGNS OF HEART FAILURE • In Left Ventricular Failure – pulmonary congestion or pulmonary edema occurs which causes decrease exchange of O2 and CO2 in the lungs. • In Right Ventricular Failure – due to back pressure, there is engorgement of neck veins, peripheral edema, liver enlargement. • Heart failure is treated by --positive Inotropic drugs e.g. digitalis -- diuretics - to get rid of salt and water -- ACE Inhibitors [Angiotensin Converting Enzyme] inhibitors which decrease preload and after load.
LIST OF POSITIVE INOTROPIC & NEGATIVE INOTROPIC • Positive Inotropic - Epinephrine - Nor Epinephrine - Sympathetic Stimulation - Calcium - Caffeine - Digitalis • Negative Inotropic - Acetylcholine - Parasympathetic Stimulation - Potassium - Hypoxia - Hypercapnia - Acidosis - Drugs Beta Blocker
WHAT YOU SHOULD KNOW FROM THIS LECTURE • Definition of Cardiac Output [COP] • Factors Affecting Heart Rate & Stroke Volume • Cardiac Index • Cardiac Reserve • Intrinsic & Extrinsic Control For Stroke Volume • Frank Starling Law of Heart • Ejection Fraction • Factor Affecting Venous Return • Heart Failure • Positive Inotropic & Negative Inotropic