Presentation is loading. Please wait.

Presentation is loading. Please wait.

By: Affan Malik Physiology 1 Case Study. Cardiac output: The amount of blood being pumped by the heart, coming from the ventricles into the aorta per.

Published bySherman Perry Modified over 8 years ago

Similar presentations

Presentation on theme: "By: Affan Malik Physiology 1 Case Study. Cardiac output: The amount of blood being pumped by the heart, coming from the ventricles into the aorta per."— Presentation transcript:

1 By: Affan Malik Physiology 1 Case Study

2 Cardiac output: The amount of blood being pumped by the heart, coming from the ventricles into the aorta per minute.

3 Cardiac output = stroke volume X cardiac rate (ml/min) (ml/beat) (beats/min) At 70 beats/min and 80 ml/beat, this results in approximately 5.5 liters per minute Equation:

4 Cardiac Output: Heart Rate X Stroke Volume

5 Regulation of cardiac rate Rhythm is set by the SA node Sympathetic nerves epinephrine and nonepinephrine stimulate opening of calcium and sodium channels; increase cardiac rate Parasympathetic (vagus) nerves acetylcholine promotes opening of potassium channels; reduces cardiac rate

6 Exercise reduces vagus inhibition and increases sympathetic nerve activity The cardiac control center in the medulla oblongata coordinates this activity This in turn is regulated by higher brain activity and pressure in aorta and carotid arteries

7 Regulation of stroke volume End-Diastolic Volume (blood left in ventricles after diastole) increase in EDV  increase in stroke volume Total peripheral resistance to arterial blood flow stroke volume is temporarily inversely proportional to this

8 Contractility: Innervation from sympathetic nerves Raises calcium levels (positive inotropic effect)

9

10 Factors on Cardiac Output 1)Preload: 2) Afterload: 3) Contractility: 4) Heart Rate:

11 Factors on Cardiac Output 1)Preload:  Preload   cardiac output (Starling-Frank Mechanism)

12 More in More out Factors on Cardiac Output 1)Preload:  Preload   cardiac output (Starling-Frank Mechanism)

13 Factors on Cardiac Output 1)Preload: 2) Afterload:  afterload   CO R

14 Factors on Cardiac Output 1)Preload: 2) Afterload: 3) Contractility:  contractility   CO

15 Factors on Cardiac Output 1)Preload: 2) Afterload: 3) Contractility: 4) Heart Rate: Dual Effects  CO =  Heart Rate x Stroke Volume

16 less in less out Factors on Cardiac Output 1)Preload: 2) Afterload: 3) Contractility: 4) Heart Rate: Dual Effects Heart Rate Stoke Volume  CO =  Heart Rate x  Stroke Volume

17 Regulators of the Heart: Factors Influencing Stroke Volume  Starlings Law – stretch  Force of contraction  Venous return: Skeletal pumping Respiratory pumping

18 Frank-Starling Law: Intrinsic variation as EDV increases, so does force of contraction (increased stretch) Increased peripheral resistance  Increased EDV  Increased stretch  Next causes the next contraction to be stronger

19 Regulators of the Heart: Factors Influencing Stroke Volume

20

21 Some factors that regulate Cardiac Output:  Autonomic Nervous System  Epinephrine and nonepinephrine  Age  Gender  Physical Activity  Body Temperature

22  Autonomic Nervous System: nerve impulses are sent to the medulla, the autonomic nervous system is then activated and receptors will cause blood pressure changes.

23  Epinephrine and nonepinephrine: These are released into the blood, it’s a stream when there is anxiety, stress or increased physical activity. These hormones promote the increased pumping of the heart and stroke volume, therefore increasing cardiac output.

24  Age: An infant has a higher heart rate than adults, usually at 115 beats per minute. This slowly decreases and stabilizes to around 100 bpm as the person matures.

25  Gender: Females have a higher resting heart rate than in male.  Physical fitness: A physically active person usually has a resting heart rate at around 50 bpm.

26  Body temperature: Increase in temperature will also increase your cardiac output. Which means that a person should be aware of the factors to avoid applying stress and pressure on the heart muscles.

27

28 Work Cited Page:  http://www.provet.co.uk/equinecardiology/5a583af.htm http://www.provet.co.uk/equinecardiology/5a583af.htm  http://homepages.uel.ac.uk/M.S.Meah/bs250page4blec2.htm http://homepages.uel.ac.uk/M.S.Meah/bs250page4blec2.htm  http://74.125.47.132/search?q=cache:ciY44JDIlv0J:www.hea lthsystem.virginia.edu/internet/anesthesiology- elective/cardiac/basicphys.cfm+cardiac+output+factors&cd= 8&hl=en&ct=clnk&gl=ca http://74.125.47.132/search?q=cache:ciY44JDIlv0J:www.hea lthsystem.virginia.edu/internet/anesthesiology- elective/cardiac/basicphys.cfm+cardiac+output+factors&cd= 8&hl=en&ct=clnk&gl=ca  http://www.healthmad.com/Health/Factors-Affecting-Cardiac- Output.310921 http://www.healthmad.com/Health/Factors-Affecting-Cardiac- Output.310921

Download ppt "By: Affan Malik Physiology 1 Case Study. Cardiac output: The amount of blood being pumped by the heart, coming from the ventricles into the aorta per."

Similar presentations

Dr. Khurram Irshad. Cardiac Output “Amount of blood pumped out by each ventricle in each minute” Cardiac Output = Stroke volume X H.R.

Dr. Khurram Irshad. Cardiac Output “Amount of blood pumped out by each ventricle in each minute” Cardiac Output = Stroke volume X H.R.
Heart  as  a  Pump.

Heart  as  a  Pump.
Cardiac Output – amount of blood pumped from the ventricles in one minute Stroke Volume – amount of blood pumped from the heart in one ventricular contraction.

Cardiac Output – amount of blood pumped from the ventricles in one minute Stroke Volume – amount of blood pumped from the heart in one ventricular contraction.
Circulatory Adaptations to Exercise

Circulatory Adaptations to Exercise
Cardiac Output: And Influencing Factors. Cardiac Output Amount of blood pumped out by each ventricle in 1 min CO = HR x SV.

Cardiac Output: And Influencing Factors. Cardiac Output Amount of blood pumped out by each ventricle in 1 min CO = HR x SV.
 By the end of this lecture the students are expected to:  Define cardiac output, stroke volume, end- diastolic and end-systolic volumes.  Define physiological.

 By the end of this lecture the students are expected to:  Define cardiac output, stroke volume, end- diastolic and end-systolic volumes.  Define physiological.
Chapter 20, part 4 The Heart.

Chapter 20, part 4 The Heart.
Chapter 20, part 3 The Heart.

Chapter 20, part 3 The Heart.
Cardiovascular system in its context Reverend Dr. David C.M. Taylor School of Medical Education

Cardiovascular system in its context Reverend Dr. David C.M. Taylor School of Medical Education
Microscopic Anatomy of Heart Muscle

Microscopic Anatomy of Heart Muscle
Circulatory Responses. Purpose transport oxygen to tissues transport of nutrients to tissues removal of wastes regulation of body temperature.

Circulatory Responses. Purpose transport oxygen to tissues transport of nutrients to tissues removal of wastes regulation of body temperature.
Regulation and Integration

Regulation and Integration
2  SAN sets heart rate at beats per minute  Nerves act as  Vagus nerve  Sympathetic nerve about 120 brake and accelerator slows heart rate speeds.

2  SAN sets heart rate at beats per minute  Nerves act as  Vagus nerve  Sympathetic nerve about 120 brake and accelerator slows heart rate speeds.
THE CARDIORESPIRATORY SYSTEM Chapter 9. Cardiorespiratory System  What are the functions of the cardiorespiratory system? –Transport O 2 to tissues and.

THE CARDIORESPIRATORY SYSTEM Chapter 9. Cardiorespiratory System  What are the functions of the cardiorespiratory system? –Transport O 2 to tissues and.
AS PE PHYSIOLOGY EXAM QUESTIONS & MARK SCHEMES

AS PE PHYSIOLOGY EXAM QUESTIONS & MARK SCHEMES
CARDIAC OUTPUT & VENOUS RETURN

CARDIAC OUTPUT & VENOUS RETURN
Introduction to Cardiac Cycle and Cardiac Output

Introduction to Cardiac Cycle and Cardiac Output
C h a p t e r 20 The Heart PowerPoint® Lecture Slides prepared by Jason LaPres Lone Star College - North Harris Copyright © 2009 Pearson Education, Inc.,

C h a p t e r 20 The Heart PowerPoint® Lecture Slides prepared by Jason LaPres Lone Star College - North Harris Copyright © 2009 Pearson Education, Inc.,
Cardiac Output and Heart Rate. Cardiac Output (CO) It is the amount of blood pumped out by each side of the heart (actually each ventricle) in 1 minute.

Cardiac Output and Heart Rate. Cardiac Output (CO) It is the amount of blood pumped out by each side of the heart (actually each ventricle) in 1 minute.
Cardiac Output When the heart contracts Cardiac Vocabulary Contractility: Contractility is the intrinsic ability of cardiac muscle to develop force for.

Cardiac Output When the heart contracts Cardiac Vocabulary Contractility: Contractility is the intrinsic ability of cardiac muscle to develop force for.

Similar presentations

Ads by Google