The document provides information about the human circulatory system and heart. It discusses the heart's structure including its chambers, valves, vessels and conduction system. The four chambers of the heart (right and left atria and ventricles) are described along with the valves (tricuspid, mitral, aortic and pulmonary) that allow blood to flow in one direction. The conduction system including the sinoatrial node, atrioventricular node and Purkinje fibers is summarized which regulates the heartbeat. Finally, the major blood vessels involved in circulation including the vena cava, pulmonary artery, aorta and pulmonary veins are identified.
The document describes the structure and function of the human heart. It discusses the heart's location in the thorax, its layers, chambers, valves, blood supply and nerve innervation. It explains the cardiac cycle in detail, describing the different phases of ventricular systole and diastole. It also discusses the generation of the four heart sounds and their timing in the cardiac cycle.
The document describes the anatomy and structure of the human heart. It details the four chambers of the heart - the right and left atria which receive blood, and the right and left ventricles which pump blood out. It describes the heart valves between the chambers that prevent backflow of blood. It also discusses the layers of the heart wall, the blood supply to the heart muscles via coronary arteries, and the specialized cardiac muscle cells that make up the heart.
The document provides an overview of the anatomy and physiology of the heart, including:
1) A description of the internal and external structures of the heart, including the chambers, valves, conduction system, and blood flow pathway.
2) An explanation of how the heart's valves function to direct blood flow and relate to heart sounds.
3) A discussion of the heart's conductive pathway and how it is assessed clinically using electrocardiography.
The pericardium has two layers - the fibrous pericardium and serous pericardium. The fibrous pericardium is a dense connective tissue that protects the heart. The serous pericardium contains two layers that lubricate the heart and prevent friction. It also contains the pericardial cavity filled with fluid. Too much fluid in the cavity can cause compression of the heart.
This document provides an overview of the cardiovascular system and human heart. It begins with definitions and functions of the cardiovascular system. It then describes the internal and external structure of the heart, including the four chambers, valves, blood vessels, and conducting system. Key concepts covered include the cardiac cycle, blood pressure, electrocardiogram, coronary and systemic circulation. Common heart conditions such as coronary artery disease, heart attack, arrhythmias and valve disease are also summarized.
The circulatory system transports oxygen, nutrients, hormones, and removes waste via the cardiovascular and lymphatic systems. The cardiovascular system consists of the heart and blood vessels. The heart has four chambers - the two upper atria receive blood while the two lower ventricles pump blood. The circulatory system transports blood to tissues via a network of arteries, arterioles, capillaries and veins.
The cardiovascular system comprises the heart, blood vessels, and blood. The heart is a four-chambered muscular pump located in the chest that circulates blood through the body and lungs. It has four chambers - two upper atria and two lower ventricles. Blood flows from the systemic circulation into the right atrium, then into the right ventricle and to the lungs for oxygenation before returning to the left atrium and ventricle and being pumped back out through the aorta to repeat the cycle. The heart is surrounded by membranes and receives blood through the coronary arteries to nourish its own tissue.
The document describes the structure and function of the human heart. It discusses the heart's location in the thorax, its layers, chambers, valves, blood supply and nerve innervation. It explains the cardiac cycle in detail, describing the different phases of ventricular systole and diastole. It also discusses the generation of the four heart sounds and their timing in the cardiac cycle.
The document describes the anatomy and structure of the human heart. It details the four chambers of the heart - the right and left atria which receive blood, and the right and left ventricles which pump blood out. It describes the heart valves between the chambers that prevent backflow of blood. It also discusses the layers of the heart wall, the blood supply to the heart muscles via coronary arteries, and the specialized cardiac muscle cells that make up the heart.
The document provides an overview of the anatomy and physiology of the heart, including:
1) A description of the internal and external structures of the heart, including the chambers, valves, conduction system, and blood flow pathway.
2) An explanation of how the heart's valves function to direct blood flow and relate to heart sounds.
3) A discussion of the heart's conductive pathway and how it is assessed clinically using electrocardiography.
The pericardium has two layers - the fibrous pericardium and serous pericardium. The fibrous pericardium is a dense connective tissue that protects the heart. The serous pericardium contains two layers that lubricate the heart and prevent friction. It also contains the pericardial cavity filled with fluid. Too much fluid in the cavity can cause compression of the heart.
This document provides an overview of the cardiovascular system and human heart. It begins with definitions and functions of the cardiovascular system. It then describes the internal and external structure of the heart, including the four chambers, valves, blood vessels, and conducting system. Key concepts covered include the cardiac cycle, blood pressure, electrocardiogram, coronary and systemic circulation. Common heart conditions such as coronary artery disease, heart attack, arrhythmias and valve disease are also summarized.
The circulatory system transports oxygen, nutrients, hormones, and removes waste via the cardiovascular and lymphatic systems. The cardiovascular system consists of the heart and blood vessels. The heart has four chambers - the two upper atria receive blood while the two lower ventricles pump blood. The circulatory system transports blood to tissues via a network of arteries, arterioles, capillaries and veins.
The cardiovascular system comprises the heart, blood vessels, and blood. The heart is a four-chambered muscular pump located in the chest that circulates blood through the body and lungs. It has four chambers - two upper atria and two lower ventricles. Blood flows from the systemic circulation into the right atrium, then into the right ventricle and to the lungs for oxygenation before returning to the left atrium and ventricle and being pumped back out through the aorta to repeat the cycle. The heart is surrounded by membranes and receives blood through the coronary arteries to nourish its own tissue.
The heart is a hollow muscular pump located in the chest cavity. It has four chambers - two upper receiving chambers called atria and two lower pumping chambers called ventricles. The left side of the heart pumps oxygenated blood through the body while the right side pumps deoxygenated blood to the lungs. The heart is surrounded by membranes and tissues that protect and support it. It receives blood supply through the coronary arteries and pumps over 5 million liters of blood per year through a complex system of chambers, valves, nerves and muscles.
The heart is a hollow muscular pump located in the chest cavity. It pumps blood through the circulatory system around the body. The left side of the heart pumps oxygenated blood through the arteries while the right side pumps deoxygenated blood to the lungs. The heart has four chambers - two upper receiving chambers called atria and two lower pumping chambers called ventricles. It is surrounded by membranes and tissues that help it function efficiently to circulate blood continuously and relentlessly throughout a person's lifetime.
The heart is a hollow, muscular pump located in the chest cavity. It has four chambers - two upper receiving chambers called atria and two lower pumping chambers called ventricles. The left side of the heart pumps oxygenated blood through the body while the right side pumps deoxygenated blood to the lungs. The heart is surrounded by membranes and tissues that protect and support it. It receives blood supply through the coronary arteries and pumps over 5 million liters of blood per year through a network of blood vessels.
The heart is a hollow muscular pump located in the chest cavity. It pumps blood through the circulatory system around the body. The left side pumps oxygenated blood through the arteries while the right side pumps deoxygenated blood to the lungs. On average, the heart beats over 2.5 billion times in a lifetime, pumping over 5,000 liters of blood per year. The heart is protected by membranes and surrounded by fluid within the pericardium. It has four chambers - two upper atria which receive blood and two lower ventricles which pump blood out. Blood flows through the heart via valves which ensure one-way flow.
The document provides information on the cardiovascular system and heart anatomy. It discusses the heart chambers, which include the right and left atria and ventricles. It also describes the major blood vessels associated with the heart and the pathway of blood flow from the heart to the lungs and throughout the body. Additionally, it covers the layers of the heart wall, heart valves that prevent backflow of blood, and the conducting system which coordinates heart contractions.
The heart is a hollow muscular organ responsible for pumping blood through the circulatory system. It has four chambers: right atrium, right ventricle, left atrium, and left ventricle. The heart is surrounded by membranes and has three layers - epicardium, myocardium, and endocardium. It is located in the chest cavity and pumps oxygenated blood received from the lungs through the left side of the heart to the entire body. The heart has four valves that prevent backflow of blood - tricuspid valve, pulmonary valve, mitral valve, and aortic valve.
The document summarizes the anatomy and physiology of the heart. It describes the location of the heart in the chest cavity and discusses the layers of tissue that surround and protect it. It also outlines the internal structures of the heart including the atria, ventricles, valves, conduction system and coronary circulation. Key aspects like the cardiac cycle and roles of the different chambers and valves during systole and diastole are highlighted at a high level.
cardiovascular system
blood vessels
biology
b.pharma
Introduction to Heart
Location & position of heart
Anatomy of heart
Heart wall
Valves of heart
Heart – Interior of front
Anatomy of the Heart chambers and valves of the heart.pdfsy6000217
The document describes the anatomy and structure of the heart. It discusses the four chambers of the heart - the right and left atria which receive blood, and the right and left ventricles which pump blood. It outlines the four main orifices between the chambers, which are guarded by valves to ensure one-way blood flow. The tricuspid valve separates the right atrium and ventricle, the bicuspid/mitral valve separates the left atrium and ventricle, and the pulmonary and aortic valves connect the ventricles to the main arteries.
This document provides an overview of the embryological development and anatomy of arteries and veins in the head and neck region. It discusses the formation of blood and aortic arches in early embryonic development. It then describes the course, branches, and clinical relevance of major arteries like the common carotid artery, external carotid artery, internal carotid artery, and branches including the lingual, facial, and superior thyroid arteries. It also briefly outlines the structure and differences between arteries, veins, and capillaries.
The document summarizes the anatomy and physiology of the heart. It describes the location of the heart in the thoracic cavity surrounded by the pericardium. It outlines the four chambers of the heart - right and left atria and ventricles - and explains the pulmonary and systemic circulation circuits. Key structures like the septa that divide the chambers, valves that ensure one-way blood flow, and coronary arteries and veins are also summarized. The layers of the heart - epicardium, myocardium and endocardium - and the internal structures such as trabeculae and papillary muscles are briefly outlined.
The document describes the anatomy and physiology of the heart. It discusses the location of the heart within the thoracic cavity. It outlines the four chambers of the heart - the right and left atria and ventricles. It describes the pulmonary and systemic circuits that transport blood to and from the lungs and body. The layers of the heart - epicardium, myocardium, and endocardium - are defined. Key internal structures like the septa that divide the chambers and the four heart valves that ensure one-way blood flow are also summarized.
The heart is located in the thoracic cavity, surrounded by the pericardium. It has four chambers - right and left atria which receive blood, and right and left ventricles which pump blood out. The heart has two circulation circuits - pulmonary circulation transports blood to and from the lungs, while systemic circulation transports oxygenated blood to the body. It has four valves that ensure one-way blood flow - tricuspid, pulmonary, mitral and aortic valves. Contraction of the heart muscles pumps blood through the heart and major arteries.
The document provides an overview of cardiovascular physiology, including:
1. The components and chambers of the heart, cardiac cycle, heart sounds, and cardiac muscle.
2. Electrophysiology of the heart and how it relates to the electrocardiogram (ECG).
3. Regulation of cardiac output and factors that influence stroke volume such as preload, contractility, and afterload.
The document summarizes the cardiovascular system, including:
1. The anatomy and physiology of the heart, including its chambers and layers. The heart pumps deoxygenated blood to the lungs and oxygenated blood to the body.
2. The three main types of blood circulation - pulmonary circulation between the heart and lungs, coronary circulation supplying the heart, and systemic circulation supplying the body. Blood vessels have three layers and blood flows through arteries, arterioles, capillaries and veins.
3. Key aspects of cardiac cycle including the phases of atrial and ventricular systole and diastole. Heart sounds and electrocardiograms are also summarized.
The heart is a muscular organ about the size of a fist that pumps blood through the body. It has four chambers - two upper atria that receive blood and two lower ventricles that pump blood out. Deoxygenated blood enters the right atrium from the body and is pumped to the lungs by the right ventricle. Oxygenated blood returns from the lungs to the left atrium and is pumped by the left ventricle out to the body through the aorta. Valves between the chambers prevent backflow of blood. The conductive system coordinates heart muscle contraction.
Structure & Function of Heart and its parts. Heart walls, pericardium, heart valves, septa, nodal tissues, coronary circulation, blood vessels of heart, AV bundle, bundle of his, purkinje fibers, myogenic nature of heart, action potential generation.
The cardiovascular system includes the heart and blood vessels. The heart has four chambers and pumps blood through two circuits. The systemic circulation pumps oxygenated blood from the left ventricle through arteries and returns deoxygenated blood to the right atrium via veins. The pulmonary circulation pumps deoxygenated blood from the right ventricle to the lungs through pulmonary arteries, where it becomes oxygenated and returns to the left atrium via pulmonary veins. The heart wall has three layers and four valves regulate blood flow. The conducting system uses specialized cardiac muscle fibers to generate and conduct electrical signals to coordinate heart contractions.
The document provides an anatomy presentation on the heart given by Rahul Sharma under the guidance of Dr. Priyanka Tripathi. It discusses the external features of the heart including chambers, surfaces, borders and sulci. It also describes the internal structures of the heart including conducting system, arteries, veins and nerves as well as some clinical correlations.
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
The heart is a hollow muscular pump located in the chest cavity. It has four chambers - two upper receiving chambers called atria and two lower pumping chambers called ventricles. The left side of the heart pumps oxygenated blood through the body while the right side pumps deoxygenated blood to the lungs. The heart is surrounded by membranes and tissues that protect and support it. It receives blood supply through the coronary arteries and pumps over 5 million liters of blood per year through a complex system of chambers, valves, nerves and muscles.
The heart is a hollow muscular pump located in the chest cavity. It pumps blood through the circulatory system around the body. The left side of the heart pumps oxygenated blood through the arteries while the right side pumps deoxygenated blood to the lungs. The heart has four chambers - two upper receiving chambers called atria and two lower pumping chambers called ventricles. It is surrounded by membranes and tissues that help it function efficiently to circulate blood continuously and relentlessly throughout a person's lifetime.
The heart is a hollow, muscular pump located in the chest cavity. It has four chambers - two upper receiving chambers called atria and two lower pumping chambers called ventricles. The left side of the heart pumps oxygenated blood through the body while the right side pumps deoxygenated blood to the lungs. The heart is surrounded by membranes and tissues that protect and support it. It receives blood supply through the coronary arteries and pumps over 5 million liters of blood per year through a network of blood vessels.
The heart is a hollow muscular pump located in the chest cavity. It pumps blood through the circulatory system around the body. The left side pumps oxygenated blood through the arteries while the right side pumps deoxygenated blood to the lungs. On average, the heart beats over 2.5 billion times in a lifetime, pumping over 5,000 liters of blood per year. The heart is protected by membranes and surrounded by fluid within the pericardium. It has four chambers - two upper atria which receive blood and two lower ventricles which pump blood out. Blood flows through the heart via valves which ensure one-way flow.
The document provides information on the cardiovascular system and heart anatomy. It discusses the heart chambers, which include the right and left atria and ventricles. It also describes the major blood vessels associated with the heart and the pathway of blood flow from the heart to the lungs and throughout the body. Additionally, it covers the layers of the heart wall, heart valves that prevent backflow of blood, and the conducting system which coordinates heart contractions.
The heart is a hollow muscular organ responsible for pumping blood through the circulatory system. It has four chambers: right atrium, right ventricle, left atrium, and left ventricle. The heart is surrounded by membranes and has three layers - epicardium, myocardium, and endocardium. It is located in the chest cavity and pumps oxygenated blood received from the lungs through the left side of the heart to the entire body. The heart has four valves that prevent backflow of blood - tricuspid valve, pulmonary valve, mitral valve, and aortic valve.
The document summarizes the anatomy and physiology of the heart. It describes the location of the heart in the chest cavity and discusses the layers of tissue that surround and protect it. It also outlines the internal structures of the heart including the atria, ventricles, valves, conduction system and coronary circulation. Key aspects like the cardiac cycle and roles of the different chambers and valves during systole and diastole are highlighted at a high level.
cardiovascular system
blood vessels
biology
b.pharma
Introduction to Heart
Location & position of heart
Anatomy of heart
Heart wall
Valves of heart
Heart – Interior of front
Anatomy of the Heart chambers and valves of the heart.pdfsy6000217
The document describes the anatomy and structure of the heart. It discusses the four chambers of the heart - the right and left atria which receive blood, and the right and left ventricles which pump blood. It outlines the four main orifices between the chambers, which are guarded by valves to ensure one-way blood flow. The tricuspid valve separates the right atrium and ventricle, the bicuspid/mitral valve separates the left atrium and ventricle, and the pulmonary and aortic valves connect the ventricles to the main arteries.
This document provides an overview of the embryological development and anatomy of arteries and veins in the head and neck region. It discusses the formation of blood and aortic arches in early embryonic development. It then describes the course, branches, and clinical relevance of major arteries like the common carotid artery, external carotid artery, internal carotid artery, and branches including the lingual, facial, and superior thyroid arteries. It also briefly outlines the structure and differences between arteries, veins, and capillaries.
The document summarizes the anatomy and physiology of the heart. It describes the location of the heart in the thoracic cavity surrounded by the pericardium. It outlines the four chambers of the heart - right and left atria and ventricles - and explains the pulmonary and systemic circulation circuits. Key structures like the septa that divide the chambers, valves that ensure one-way blood flow, and coronary arteries and veins are also summarized. The layers of the heart - epicardium, myocardium and endocardium - and the internal structures such as trabeculae and papillary muscles are briefly outlined.
The document describes the anatomy and physiology of the heart. It discusses the location of the heart within the thoracic cavity. It outlines the four chambers of the heart - the right and left atria and ventricles. It describes the pulmonary and systemic circuits that transport blood to and from the lungs and body. The layers of the heart - epicardium, myocardium, and endocardium - are defined. Key internal structures like the septa that divide the chambers and the four heart valves that ensure one-way blood flow are also summarized.
The heart is located in the thoracic cavity, surrounded by the pericardium. It has four chambers - right and left atria which receive blood, and right and left ventricles which pump blood out. The heart has two circulation circuits - pulmonary circulation transports blood to and from the lungs, while systemic circulation transports oxygenated blood to the body. It has four valves that ensure one-way blood flow - tricuspid, pulmonary, mitral and aortic valves. Contraction of the heart muscles pumps blood through the heart and major arteries.
The document provides an overview of cardiovascular physiology, including:
1. The components and chambers of the heart, cardiac cycle, heart sounds, and cardiac muscle.
2. Electrophysiology of the heart and how it relates to the electrocardiogram (ECG).
3. Regulation of cardiac output and factors that influence stroke volume such as preload, contractility, and afterload.
The document summarizes the cardiovascular system, including:
1. The anatomy and physiology of the heart, including its chambers and layers. The heart pumps deoxygenated blood to the lungs and oxygenated blood to the body.
2. The three main types of blood circulation - pulmonary circulation between the heart and lungs, coronary circulation supplying the heart, and systemic circulation supplying the body. Blood vessels have three layers and blood flows through arteries, arterioles, capillaries and veins.
3. Key aspects of cardiac cycle including the phases of atrial and ventricular systole and diastole. Heart sounds and electrocardiograms are also summarized.
The heart is a muscular organ about the size of a fist that pumps blood through the body. It has four chambers - two upper atria that receive blood and two lower ventricles that pump blood out. Deoxygenated blood enters the right atrium from the body and is pumped to the lungs by the right ventricle. Oxygenated blood returns from the lungs to the left atrium and is pumped by the left ventricle out to the body through the aorta. Valves between the chambers prevent backflow of blood. The conductive system coordinates heart muscle contraction.
Structure & Function of Heart and its parts. Heart walls, pericardium, heart valves, septa, nodal tissues, coronary circulation, blood vessels of heart, AV bundle, bundle of his, purkinje fibers, myogenic nature of heart, action potential generation.
The cardiovascular system includes the heart and blood vessels. The heart has four chambers and pumps blood through two circuits. The systemic circulation pumps oxygenated blood from the left ventricle through arteries and returns deoxygenated blood to the right atrium via veins. The pulmonary circulation pumps deoxygenated blood from the right ventricle to the lungs through pulmonary arteries, where it becomes oxygenated and returns to the left atrium via pulmonary veins. The heart wall has three layers and four valves regulate blood flow. The conducting system uses specialized cardiac muscle fibers to generate and conduct electrical signals to coordinate heart contractions.
The document provides an anatomy presentation on the heart given by Rahul Sharma under the guidance of Dr. Priyanka Tripathi. It discusses the external features of the heart including chambers, surfaces, borders and sulci. It also describes the internal structures of the heart including conducting system, arteries, veins and nerves as well as some clinical correlations.
Similar to Circulatory systems in the living world - 2.pptx (20)
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
বাংলাদেশের অর্থনৈতিক সমীক্ষা ২০২৪ [Bangladesh Economic Review 2024 Bangla.pdf] কম্পিউটার , ট্যাব ও স্মার্ট ফোন ভার্সন সহ সম্পূর্ণ বাংলা ই-বুক বা pdf বই " সুচিপত্র ...বুকমার্ক মেনু 🔖 ও হাইপার লিংক মেনু 📝👆 যুক্ত ..
আমাদের সবার জন্য খুব খুব গুরুত্বপূর্ণ একটি বই ..বিসিএস, ব্যাংক, ইউনিভার্সিটি ভর্তি ও যে কোন প্রতিযোগিতা মূলক পরীক্ষার জন্য এর খুব ইম্পরট্যান্ট একটি বিষয় ...তাছাড়া বাংলাদেশের সাম্প্রতিক যে কোন ডাটা বা তথ্য এই বইতে পাবেন ...
তাই একজন নাগরিক হিসাবে এই তথ্য গুলো আপনার জানা প্রয়োজন ...।
বিসিএস ও ব্যাংক এর লিখিত পরীক্ষা ...+এছাড়া মাধ্যমিক ও উচ্চমাধ্যমিকের স্টুডেন্টদের জন্য অনেক কাজে আসবে ...
Assessment and Planning in Educational technology.pptxKavitha Krishnan
In an education system, it is understood that assessment is only for the students, but on the other hand, the Assessment of teachers is also an important aspect of the education system that ensures teachers are providing high-quality instruction to students. The assessment process can be used to provide feedback and support for professional development, to inform decisions about teacher retention or promotion, or to evaluate teacher effectiveness for accountability purposes.
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
Executive Directors Chat Leveraging AI for Diversity, Equity, and InclusionTechSoup
Let’s explore the intersection of technology and equity in the final session of our DEI series. Discover how AI tools, like ChatGPT, can be used to support and enhance your nonprofit's DEI initiatives. Participants will gain insights into practical AI applications and get tips for leveraging technology to advance their DEI goals.
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
Main Java[All of the Base Concepts}.docxadhitya5119
This is part 1 of my Java Learning Journey. This Contains Custom methods, classes, constructors, packages, multithreading , try- catch block, finally block and more.
The simplified electron and muon model, Oscillating Spacetime: The Foundation...RitikBhardwaj56
Discover the Simplified Electron and Muon Model: A New Wave-Based Approach to Understanding Particles delves into a groundbreaking theory that presents electrons and muons as rotating soliton waves within oscillating spacetime. Geared towards students, researchers, and science buffs, this book breaks down complex ideas into simple explanations. It covers topics such as electron waves, temporal dynamics, and the implications of this model on particle physics. With clear illustrations and easy-to-follow explanations, readers will gain a new outlook on the universe's fundamental nature.
ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...PECB
Denis is a dynamic and results-driven Chief Information Officer (CIO) with a distinguished career spanning information systems analysis and technical project management. With a proven track record of spearheading the design and delivery of cutting-edge Information Management solutions, he has consistently elevated business operations, streamlined reporting functions, and maximized process efficiency.
Certified as an ISO/IEC 27001: Information Security Management Systems (ISMS) Lead Implementer, Data Protection Officer, and Cyber Risks Analyst, Denis brings a heightened focus on data security, privacy, and cyber resilience to every endeavor.
His expertise extends across a diverse spectrum of reporting, database, and web development applications, underpinned by an exceptional grasp of data storage and virtualization technologies. His proficiency in application testing, database administration, and data cleansing ensures seamless execution of complex projects.
What sets Denis apart is his comprehensive understanding of Business and Systems Analysis technologies, honed through involvement in all phases of the Software Development Lifecycle (SDLC). From meticulous requirements gathering to precise analysis, innovative design, rigorous development, thorough testing, and successful implementation, he has consistently delivered exceptional results.
Throughout his career, he has taken on multifaceted roles, from leading technical project management teams to owning solutions that drive operational excellence. His conscientious and proactive approach is unwavering, whether he is working independently or collaboratively within a team. His ability to connect with colleagues on a personal level underscores his commitment to fostering a harmonious and productive workplace environment.
Date: May 29, 2024
Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
-------------------------------------------------------------------------------
Find out more about ISO training and certification services
Training: ISO/IEC 27001 Information Security Management System - EN | PECB
ISO/IEC 42001 Artificial Intelligence Management System - EN | PECB
General Data Protection Regulation (GDPR) - Training Courses - EN | PECB
Webinars: https://pecb.com/webinars
Article: https://pecb.com/article
-------------------------------------------------------------------------------
For more information about PECB:
Website: https://pecb.com/
LinkedIn: https://www.linkedin.com/company/pecb/
Facebook: https://www.facebook.com/PECBInternational/
Slideshare: http://www.slideshare.net/PECBCERTIFICATION
ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...
Circulatory systems in the living world - 2.pptx
1. Circulatory systems in the living world ( part 2)-
Human Heart , its functioning and circulatory circuits
Smita Amit – M.sc (botany ) M.ed
Teaching experience as P.G.T biology in K.V and
other leading plus two schools , as well as
Faculty for pre medical entrance preparation
2. Circulatory systems in the living world ( part 2)-
Human Heart , its functioning and circulatory circuits
What we will learn
1 Parts of a circulatory system – Outline
2 Heart –internal & External structure
3 Position, surface, borders, sulci, shape
4 Covering of heart
5 Musculature
6 Valves of the heart
7 Great vessels of the heart
8 Chambers of the heart
9 Innervation of the heart
10 Cardiac Cycle
11 Regulation of heart beat
3. Heart Blood vessels
Blood
• Heart- It is like a house
• A. Walls- Made of cardiac muscles.
• B. Chambers (rooms)- , 2 auricles and 2
ventricles, demarcated externally and
separated internally
• C. Valves (doors).
• D. Blood vessels (plumbing).
• E. Electrical conduction system
(electricity).
Blood vessels
• Arteries- Carry blood from
heart to body parts
• Veins- Carry blood from body
parts to heart
• Capillaries- Very small & thin ,
microscopic , connect veins and
arteries in the tissue to form a
network. Diffusion of all
materials takes place here
Blood
Body contains 4-6 L of blood
Consists of
Water
Red Blood Cells
Plasma
White blood cells and platelets
Parts of a circulatory system
5. Apex
• ‘apex’-Inferior
• Located at the bottom of the heart , it is angled downward and
forward and is slightly directed towards the left at its sharpest
point.
• Formed by the left ventricle lying in the fifth intercostal space
9 cms from the median plane
Base
• The base is the heart’s superior aspect , it also connects the
heart to suspensory tissues and thus retains a support function
Orientation
The longitudinal line from the center point of the base of the
heart to the point of the apex is called the anatomical axis.
The heart is orientated as if the pyramid has fallen onto one of
its sides so that its base faces the posterior thoracic wall, and its
apex is pointed toward the anterior thoracic wall.
Base :
Faces the posterior
thoracic wall.
Apex:
Pointed toward the anterior thoracic wall.
Anatomical axis
Anatomical axis
Position : It sits between the right and left
lungs (the left lung is slightly smaller to
make room for the heart in the left chest.
The ribcage protects it.
SHAPE AND POSITION
6. Sternocostal Surface -
Formed by right auricle ,
right ventricle , left
auricle and left ventricle.
Sternocostal Surface -
Formed by right auricle ,
right ventricle , left
auricle and left ventricle.
1.Left Surface- Formed
by left auricle and left
ventricle
1.Diaphragmic Surface-
2/3rd is formed by left
ventricle and 1/3rd by
right ventricle
Surface
Borders
Superior –
Formed by
the two
atria
Right –
Formed by
the right
atrium
Inferior- Mainly
by right ventricle
and near the
apex by the left
ventricle
Left –
Formed by
left auricle
and left
ventricle
SURFACE & BORDERS
8. Preicardium
Serous- inner , helps to
lubricate the heart
Visceral Parietal
Fibrous - outer layer, made
from thick connective tissue ,
attached to the diaphragm. It
holds the heart in place in the
chest cavity and protects from
infections
Pericardium -A two-layered serous sac which
covers & protects the heart from mechanical
injury and checks its overstretching and
overfilling with blood
Has Pericardial fluid (50 ml
approx.). It protects it from injury.,
keeps it from rubbing against other
organs, keeps the heart moist,
allows its free movement and
reduces the friction between the
heart wall and the surrounding
tissues when the heart beats.
9. Musculature of Heart
Epicardium-last part of
pericardium , loose
connective tissue and
adipose tissue,
Myocardium-middle,
thick, thickest at LV,
made of cardiac muscle
fibres or
cardiomyocytes,
Contractile
cardiomyocytes
Endocrine
cardiomyocytes-
ANP
Cardiomyocytes of
the conduction
system
Endocardium-
innermost, single celled,
loose connective tissue,
aids in contraction
Epicardium
• It is also known as
visceral pericardium as
it forms the inner layer
of the pericardium.
• Protects the inner heart
layers and also assists
in the production of
pericardial fluid ( fills
the pericardial cavity
and helps to reduce
friction between
pericardial membranes)
• Has the coronary blood
vessels, which supply
the heart wall with
blood.
Myocardium
• The myocardium functions as a syncytium functioning to
1. Contraction of the heart in a synchronized manner.
2. Conduction of electrical stimuli
3. Provide a scaffold for heart chambers
4. Made up of cardiomyocytes
a. Contractile : The ordinary cardiomyocytes that form the
majority of the myocardium of the atria and ventricles. Their
main function is contraction
b. Endocrine cardiomyocytes: Found in the atria, particularly
the right atrium. Have fewer myofibrils. They have numerous
electron-dense secretory granules containing the atrial
natriuretic peptide which has a role in the control of blood
pressure and electrolyte balance
c. Cardiomyocytes of the conduction system- These are
specialized in the initiation and propagation of the waves of
depolarization through the myocardium faster than the
contractile cardiac muscle fibers.
Endocardium
• Lines the inner heart chambers and covers the heart
valves.
• It prevents the blood from sticking to the inner walls,
thereby preventing potentially fatal blood clots.
• Comprised of loose connective tissue and simple
squamous epithelial tissue
• Is similar in its composition to the endothelium
which lines the inside of blood vessels.
• It regulates contractions and aids
cardiac embryological development.
10. Cardiac Muscle
Myofibrils-Rod-like units , consisting of long chains of sarcomeres( the
fundamental contractile units ). They branch and anastomose thus they
are not perfectly in register with one another and hence cardiac
muscle fibers appear faintly striated.
The pattern of cross striations and the designation of the A, I, M, H-
bands, and Z-lines are identical to that of skeletal muscle.
The myofibrils diverge around the nucleus, leaving the sarcoplasm at
the nuclear poles containing various organelles e.g. numerous
mitochondria, and inclusions e.g. glycogen granules and lipofuscin
pigments.
T tubules-Represent inward extensions of the
extracellular space at the sarcolemma. They are large
& numerous surrounding the myofibrils at the Z line.
Sarcoplasmic reticulum: it is less organized than
the skeletal muscle with absent terminal cisternae.
It consists of narrow anastomosing sarcotubules,
in close apposition with the T tubules forming
diads
Intercalated discs-These are the specialized junctions of cell
membranes of adjacent cardiomyocytes. They extend across
the fiber at the level of the Z lines in a stepwise manner.
11. Structure Location Function/Description
chordae
tendineae
connecting the cusps
of AV valves with the
papillary muscles
"heart strings" aid in holding AV valves closed to prevent valve
from flipping open during ventricular systole
fossa ovalis
indentation in the
right atrium along the
interatrial septum
location where a hole used to be during fetal development
(foramen ovale); since fetal lungs are non-functional, the
pulmonary circuit of circulation is extraneous and therefore
blood is allowed to pass through foramen ovale from the right
atrium to the left atrium; a flap closes over foramen ovale after
birth and eventually seals up
interatrial
septum
tissue between the
right and left atria
separate the right and left atria; keeps oxygen-poor blood on
the right side of the heart from mixing with oxygen-rich blood
on the left side of the heart
interventricular
septum
tissue between the
right and left
ventricles
separate the right and left ventricles; keeps oxygen-poor blood
on the right side of the heart from mixing with oxygen-rich
blood on the left side of the heart
papillary
muscles
muscles on the
internal heart wall
connected to chordae
tendineae
aid in holding AV valves closed to prevent valve from flipping
open during ventricular systole (prolapse)
trabeculae
carneae
ridges along the inside
wall of the ventricles
aid in holding AV valves closed to prevent valve from flipping
open during ventricular systole (prolapse)
INTERNAL STRUCTURE
12. Right Atrium
1. Smaller than the left atrium.
2. Receives deoxygenated blood from the systemic
circulation via the superior and inferior vena cava &
moves it into the heart’s right ventricle.
3. Locations for sinoatrial and atrioventricular nodes;
three internal surfaces (venous, vestibular,
auricular).
4. Has the Right auricle , also called the right atrial
appendage (RAA) .It’s a small, cone-shaped pouch,
highly muscular ,lined with small muscles on its
surface which comes out from the upper and front
part of the atrium and overlaps the root of the aorta
Atrium:
• Upper chambers
• Thinner and less muscular walls
• receive blood from great veins.
• Ear-like muscular pouch arising from each atrium called Auricle.(The name auricle comes from the
Latin word auricula, which means “ear” and refers to the floppy dog-ear shape of the auricle)
Left Atrium
Receives oxygenated blood from the lungs via the pulmonary veins (4
ostia) and pumps it to the left ventricle.
Bigger with thicker wall
Has the left auricle also known as the left atrial appendage (LAA). It is
a flap of heart wall on the anterior surface of the left atrium and
plays an important role in the pumping of blood within the heart.
Landmarks - T5 - T8 (supine), T6 - T9 (erect)
Ventricle
• Lower ,
• Larger and more muscular chambers responsible for pumping and pushing blood out into
circulation.
Right Ventricle
Smaller than left ventricle, has Lower pressure gradient, Limited by
the tricuspid and pulmonary valves
Three prominent papillary muscles (anterior, posterior, and septal)
Septomarginal trabecula (moderator band)
Pumps blood into the pulmonary circuit
Left Ventricle
Larger, most muscular of all chambers, Has Higher pressure gradient
Limited by the mitral and aortic valves
Pumps blood into the systemic circulation
The Chambers of the heart
13. Valves
Atrioventricular (AV)
Separate atrium from ventricles , prevent backflow of blood
from ventricle to atrium
Semilunar
Separate ventricles from great vessels and prevent backflow of
blood from vessels to heart
• They act like doors.
• They incorporate two or three leaflets /cusps (thin but strong flaps of
tissue) around the AV orifices and the roots of great vessels.
• They open and close to let blood flow from one area of the heart to
another, at the right time and in the correct direction.
• As the valves open and close, they create two sounds, which are the
heartbeat.
Pulmonary semilunar valve
It is between the right ventricle and the opening
of the pulmonary trunk. It has three semilunar
cusps/leaflets: anterior/non-adjacent, left/left
adjacent, and right/right adjacent. It allows blood
to pump from the right ventricle to the
pulmonary artery. This artery leads to the lungs.
It prevents blood from going backward from the
pulmonary artery to the right ventricle.
Aortic semilunar valve
It is between the left ventricle and the
opening of the aorta. It has three semilunar
cusps/leaflets: left/left coronary, right/right
coronary, and posterior/non-coronary. They
open to let blood flow from the heart’s left
ventricle to the aorta and prevent backward
flow from the aorta into the left ventricle.
Mitral valve-
The left atrioventricular/bicuspid valve
has two cusps cusps/leaflets:
anterior/aortic and posterior/mural .
It resembles a miter in shape. It is
between the left atrium and left ventricle
and prevents backward flow from the left
ventricle to the left atrium
Tricuspid valve./ The right AV
valve
Between the right atrium and right ventricle.
It has three cusps/leaflets: anterior/anterIo superior,
septal, and posterior/inferior.
It allows blood to flow from the right atrium to the
right ventricle and prevents blood from flowing
backward from the right ventricle to the right atrium
VALVES
14. Great
vessels
of
the
heart
Arteries
Carry blood from Heart to the
Body
Veins
Carry blood from the body to
the Heart
Pulmonary Artery
Begin as the pulmonary trunk, a thick
and short vessel, separated from the
right ventricle by the pulmonary valve
Aorta
Arises from the aortic orifice at the
base of the left ventricle, with inflow
via the aortic valve
Coronary-
Provide oxygenated blood to
heart muscles
Arch
Ascending
Descending
Brachiocephalic Trunk
Left Common Carotid
Left Subclavian
The left
pulmonary artery
supplies blood to
the left lung,
The right
pulmonary artery
is thicker , it
supplies blood to
the right lung,
Vena Cava
Pulmonary vein
Superior pulmonary
veins (2 in number)
return blood from the
upper lobes of each
lung
Inferior
pulmonary veins
(2 in number)one
for each lung
Return blood
from the lower
lobes of the lung
Superior
It receives blood from the upper
body (superior to the diaphragm,
excluding the lungs and heart), and
pours it to the right atrium
Inferior
The inferior vena cava
receives blood from the lower body
(all structures inferior to the
diaphragm). It drains into the
inferior portion of the right atrium
15. Conduction system and control
Sinoatrial (SA) node:
1. An area of sub-specialized cells
2. It sends the electrical impulses that start the heartbeat.
3. It is referred to as the pacemaker of the heart.
4. The SA node is able to spread its impulse to the rest of the right
and left atria through preferential conductive pathways.
Atrioventricular (AV) node:
1. It is located in an area known as the triangle of Koch (located
between the septal leaflet of the tricuspid valve, the coronary sinus
and the membranous portion of the interatrial septum).
2.It delays the SA node’s electrical signal by a consistent amount of
time (a fraction of a second) each time. The delay ensures that the
atria are empty of blood before the contraction stops.
Purkinje fibers
1. The Purkinje fibers are branches of specialized
nerve cells.
2. They send electrical signals very quickly to the
right and left heart ventricles that contract,
3. They are in the subendocardial surface of
ventricle walls.(a part of the endocardium, the inner
layer of tissue that lines the heart’s chambers).
Bachmann’s bundle (BB)
Also known as the interatrial bundle, is a muscular
bundle comprising of parallel aligned myocardial
strands connecting the right and left atrial walls and
is considered to be the main pathway of interatrial
conduction
Bundle of His:
Also called the atrioventricular bundle. It is a branch of fibers (nerve cells) that
extends from the AV node. It runs down the length of the interventricular septum, the
structure that separates the right and left ventricles. It has two branches that receive
the electrical signal from the AV node and carries it to the Purkinje fibers.
Left bundle branch sends electrical signals through the Purkinje fibers to the left
ventricle.
Right bundle branch sends electrical signals through the Purkinje fibers to the right
ventricle
16. HEART BEAT
The rhythmic contraction and relaxation of the heart
one complete heart beat consists of one systole and one diastole and last for about 0.8
seconds
NUEROGENIC HEART
• Heart beat is initiated
by a nerve impulse
coming from a nerve
ganglion situated
near the heart eg
some annelids,
arthropods
MYOGENIC HEART
• Heart beat is initiated
by a patch of
modified heart
muscle itself eg
molluscs , vertebrates
including man
17. 1. SYSTOLE (CONTRACTION )
2. S.A node the Pacemaker of the heart (located in
muscle of right atrium )stimulates electrical impulses
3. The two atria contract and blood forced to ventricle
4. A_V node delays the impulse a bit so that atria empty
fully
5. Now impulse traves to A-V node BOH, PF and
ventricles contract
6. As they contract, blood flows from the right ventricle
to the pulmonary arteries and from the left ventricle
to the aorta
7. The PT send blood to lungs for oxygenation and the
aorta which is the body’s largest artery., sends blood
from heart to the rest oft he body.
DIASTOLE (RELAXATION )
1. Following contraction, the ventricles relax, and
pressure within them falls
2. The blood again flows in to the heart and it starts
filling via atriums( right atrium receives
deoxygenated blood from the superior and inferior
venae cavae and coronary sinus. and left atrium
receives oxygenated blood from pulmonary vein )
3. The whole process starts again with impulse starting
from SA node once again
CARDIAC CYCLE
Cardiac output
• The volume of blood flowing through the systemic or pulmonary circuit per minute
• Cardiac output= Heart rate * stroke volume =72 beats/min *.07 ltr/beat= 5.0 ltr/min
• Note- stroke volume is the blood ejected by each ventricle during each beat
18. Complete
ventricular diastole
Beginning of
Ventricular
Diastole
Atrial
Diastole
•Ventricles
relax
•Semilunar
valves close –
2nd heart
sound –dub’
•Tricuspid and
Mitral valve open
as pressure in
ventricles falls
•Blood from Atria
flows into
Ventricles
Atrioventricular valves
open
The atrial muscles relax ,
they start relaxing while
ventricle is still in diastole
All valves – the semilunar (
at the base of aorta and
pulmonary trunk ) are
closed
Blood returns to right
atrium from the vena cava (
deoxygenated).
Atria passively filling
•Atria contract as
wave of contraction
is stimulated at SA
node
•Blood is forced into
ventricles(
Oxygenated blood
into left and
deoxygenated into
right.)
Atrial Systole
•Stimulated by AV
node ventricles begin
to contract
•Mitral and Tricuspid
valves close
immediately
•1st heart sound
’Lubb’
Beginning of
Ventricular
Systole
•Ventricles complete
their contraction
•Blood flows into the
pulmonary trunk
(deoxygenated) and
Aorta (oxygenated)
Complete
Ventricular
Systole
CARDIAC CYCLE- Contd
19. First Heart Sound (LUBB)
Both the AV valves close at the beginning of
ventricular contraction
Generated by the vibration of blood and the
ventricular wall
Low pitched (Frequency of 25-45 Hz) and longer
(0.15 sec) than the second sound.
Second Heart Sound(DUPP)
Occurs when the aortic and pulmonary semilunar
valves close at beginning of ventricular dilation or
diastole(aorta valves close slightly before pulmonary
valve )
Generated by the vibration of blood against aorta
Shorter duration ( 0.10 sec) , high pitched and louder (
frequency 50 hz)
HEART SOUNDS
20. NEURAL REGULATION OF HEARTBEAT
• Autonomic nervous system
• The heart cycle is regulated completely
subconsciously by efferent autonomic
nerves that affect the rate and force
of heart contractions.
• a. Sympathetic fibres arise from the
cervical & upper thoracic (1, 2, 3, 4)
ganglia of sympathetic trunks. They
accelerate heart rate
• b. Parasympathetic fibres that arise from
the vagus nerves. They slow heart rate
(constriction of coronay arteries)
• Postganglionic fibres reach heart
along –
• (1) SAN(SINOATRIAL NODE )
• (2) AVN( ATRIOVENTICULAR NODE
)
• (3) nerve plexus around coronary
arteries
• (4)Cardiac plexus situated below arch
of aorta
Areas in brain that effect heart through ANS
Vasomotor centre- situated in the reticular formation of the
medulla oblongata and lower part of pons . It has 3 areas
i. Vasoconstrictor- Lateral portion found in the floor of the 4th
ventricle, reticular formation of medulla, increases heart rate
through SNS
ii. Vasodilator- Medial portion, found in the floor of the 4th
ventricle, reticular formation of medulla, decreases heart rate
through PNS
iii. Sensory- Posterior part lies in the nucleus of tractus
solitaries in medulla . Controls both the above portions.
21. HORMONAL REGULATION OF HEARTBEAT
• Endocrine gland and their hormones
• 1.Adrenal gland medulla- epinephrine
( accelerates heart beat under
emergency) and dopamine (and
ultimately, norepinephrine that
accelerates normally) are all involved
in the initiation of the “fight-or-flight”
response.
• 2.Thyroid-thyroxine , indirectly effects
increase of heart beat
• 3.Pituitary-vasopressin effects water
reabsorption and effects heart beat
RAAS * (will be discussed in detail later)
It includes
a. Renin (enzyme )-Kidney
b. Angiotensin II- Liver
c. Aldosterone- Adrenal Cortex
d. Atrial-natriuretic peptide- hormone secreted
from the cardiac atria
They are all involved in water reabsorption for the
purpose of blood pressure regulation that affects
the heart rate or cardiovascular reflexes
22. Systemic circulation ( from heart to the body and back )-In the
systemic circulation, the left ventricle pumps oxygen-rich blood into the
main artery (aorta). The blood travels from the main artery to larger
and smaller arteries and into the capillary network. There the blood
drops off oxygen, nutrients and other important substances and picks
up carbon dioxide and waste products. The blood, which is now low in
oxygen, is collected in veins and travels to the right atrium and into the
right ventricle.
Pulmonary circulation( from heart to the lung and back) The right
ventricle pumps low-oxygen blood into the pulmonary artery, which
branches off into smaller and smaller arteries and capillaries. The
capillaries form a fine network around the pulmonary vesicles (grape-
like air sacs at the end of the airways). This is where carbon dioxide is
released from the blood into the air inside the pulmonary vesicles, and
fresh oxygen enters the bloodstream. When we breathe out, carbon
dioxide leaves our body. Oxygen-rich blood travels through the
pulmonary veins and the left atrium into the left ventricle
Body
Double Circulation
Lungs
Body
the right
side of the
system
deals with
deoxygenat
ed blood.
the left
side of the
system
deals with
oxygenated
blood.
23. Pathway of Blood
• Deoxygenated blood passes from the right
atrium into the right ventricle and then goes
to the lungs’
• From the lungs, blood moves back toward
the heart into the left atrium to the left
ventricle and then passes into the aorta to
go to the rest of the body
Right atrium Left atrium
Right Ventricle Left Ventricle
Body Lungs
24. SOME HEART FACTS :
1. The heart is about the same size as a fist for a child , it is bigger between the size of one and
two fists for an adult.
2. The heart pumps blood 24/7, from birth to death. If we consider the average lifespan to be
76 years, with an average heart rate of 70-72 beats per minute, that works out to
2,796,192,000 pumping actions over the course of a lifetime. We use roughly 6,518,900
calories over our lifespan or about 235 calories each day to power the heart.
3. Heartbeat begins by alternating contraction and relaxation of myocardium
4. At REST, the heart pumps about 5 QUARTS of blood a minute.
5. During EXTREME EXERTION (exercise) it can pump 40 quarts a minute.
6. Heart is composed of special muscle fibres – cardiac muscle.
7. Wave of contraction (ACTION POTENTIAL) originates at SA node due to entrance of Ca++
ions into the myocytes.
8. Diastole is the longer of the two phases so that the heart can rest between contractions
9. Human heart beats incessantly on the whole with one part relaxing while the other
contracts.
10. There is a local SA / Pace maker of the heart.
11. The body has about 5.6 litres (6 quarts) of blood. This 5.6 litres of blood circulates through
the body three times every minute. In one day, the blood travels a total of 19,000 km
(12,000 miles)
12. Pulse – The rhythmic contraction and relaxation of the aorta and its main arteries. It is due
to the flow of blood from the heart and is dependent on heart beat.
13. The aorta, the largest artery in the body, is almost the diameter of a garden hose.
Capillaries, on the other hand, are so small that it takes ten of them to equal the thickness
of a human hair.
14. Give a tennis ball a good, hard squeeze. You're using about the same amount of force your
heart uses to pump blood out to the body. Even at rest, the muscles of the heart work
hard—twice as hard as the leg muscles of a person sprinting
15. Heart sounds can be heard using a stethescope
25. One mark questions
1. Why are the ventricle walls thicker than the atrium
2. What is the purpose of the pericardial fluid
Two mark Question
3. What is a cardiac cycle?
4. What is the pulse rate?
Three mark questions
5.Write short notes
a. Purkinje fibres b. AV node
6. How does the heart beat continuously.
Five mark question
7. Differentiate between
a. Atrium and Ventricle
b. Semilunar and AV valves
8. Differentiate between
a. Neurogenic and myogenic heart
b. L_U_U_B and D_U_B_B sounds
9. Differentiate between
a. systemic and pulmonary circulation
b. Pulmonary artery and Pulmonary vein.
10. Why is the metabolic rate higher in man in comparison to fishes?
Test your knowledge
26. • 1.The heart is placed in the
• (A). Abdominal cavity
• (B). Middle mediastinum
• (C) . Thoracic cavity
• (D). Superior mediastinum
• 2. The base of the heart lies:
• (A). Superiorly
• (B). Inferiorly
• (C) . Anteriorly
• (D). Posteriorly
• 3. The anterior interventricular groove in
the sternocostal surface lodges
• A. A branch of the right coronary artery
• B. A branch of the left coronary artery
• C. Both a and b
• D. None of the above
• 4.Which of the following options regarding
the given statements is correct
• i. Human heart is ectodermal derivative
• ii. Mitral valve guards the opening
between the right atrium and left ventricle
• iii. SAN is located in the upper left corner
of the right atrium
• iv. stroke volume* heart rate= Cardiac
output
• (A). i (B.) i & ii (C) . ii. &iii (D). iv only
• 5.In the given figure the durations of the
events of the cardiac cycle are given.
Identify the sequence of these
events(A,B,C) and select the correct option
A
C
B
(A)Auricular Systole, Joint Diastole, Ventricular Systole
(B)Ventricular systole, joint Diastole, Auricular systole
(C)Ventricular systole, Auricular Systole, Joint Diastole
(D)Joint Auricular systole, Ventricular systole
Multiple Choice Questions
27. For more question /answers and
detailed explanation
Visit my website and book your class.
Smita Amit