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17.2: Introduction to the Cardiovascular System

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    Ant Hill or Plumbing System?

    What do you think Figure \(\PageIndex{1}\) shows? Does it show a maze of underground passageways in an anthill? A network of interconnected pipes in a complex plumbing system? The picture actually shows something that, like ant tunnels and plumbing pipes, functions as a transportation system. It shows a network of blood vessels. Blood vessels are part of the cardiovascular system.

    ant hill tunnels
    Figure \(\PageIndex{1}\): Blood Vessels

    What is the Cardiovascular System?

    The cardiovascular system, also called the circulatory system, is the organ system that transports materials to and from all the cells of the body. The materials carried by the cardiovascular system include oxygen from the lungs, nutrients from the digestive system, hormones from glands of the endocrine system, and waste materials from cells throughout the body. Transport of these and many other materials is necessary to maintain homeostasis of the body. The main components of the cardiovascular system are the heart, blood vessels, and blood. Each of these components is shown in Figure \(\PageIndex{2}\) and introduced in the text.

    Circulatory System no tags
    Figure \(\PageIndex{2}\): This simplified drawing of the cardiovascular system shows its main structures. The heart is shown in the chest in red. Blood vessels called arteries are also shown in red, and blood vessels called veins are shown in blue.


    The heart is a muscular organ in the chest. It consists mainly of cardiac muscle tissue and pumps blood through blood vessels by repeated, rhythmic contractions. As shown in Figure \(\PageIndex{3}\), the heart has four inner chambers: a right atrium and ventricle and a left atrium and ventricle. On each side of the heart, blood is pumped from the atrium to the ventricle below it and from the ventricle out of the heart. The heart also contains several valves that allow blood to flow only in the proper direction through the heart.

    Heart Anatomy
    Figure \(\PageIndex{3}\): The right side of the heart includes the right atrium and right ventricle. The left side includes the left atrium and left ventricle. The valves between the chambers and the major vessels are also visible

    Unlike skeletal muscle, cardiac muscle routinely contracts without stimulation by the nervous system. Specialized cardiac muscle cells send out electrical impulses that stimulate the contractions. As a result, the atria and ventricles normally contract with just the right timing to keep blood pumping efficiently through the heart.

    Blood Vessels

    types of blood vessels
    Figure \(\PageIndex{4}\): This diagram represents the structure and functions of the different types of blood vessels in the cardiovascular system. Arteries carry blood from the heart and to capillaries. Veins carry blood from the capillaries back to the heart.

    The blood vessels of the cardiovascular system are like a network of interconnected, one-way roads that range from superhighways to back alleys. Like a network of roads, the blood vessels have the job of allowing the transport of materials from one place to another. There are three major types of blood vessels: arteries, veins, and capillaries. They are illustrated in Figure \(\PageIndex{4}\).

    • Arteries are blood vessels that carry blood away from the heart (except for the arteries that actually supply blood to the heart muscle). Most arteries carry oxygen-rich blood, and one of their main functions is distributing oxygen to tissues throughout the body. The smallest arteries are called arterioles.
    • Veins are blood vessels that carry blood toward the heart. Most veins carry deoxygenated blood. The smallest veins are called venules.
    • Capillaries are the smallest blood vessels. They connect arterioles and venules. As they pass through tissues, they exchange substances including oxygen with cells.

    Two Circulations

    Cells throughout the body need a constant supply of oxygen. They get oxygen from capillaries in the systemic circulation. The systemic circulation is just one of two interconnected circulations that make up the human cardiovascular system. The other circulation is the pulmonary system. This is where the blood picks up oxygen to carry to cells. It takes blood about 20 seconds to make one complete transit through both circulations.

    Pulmonary Circulation

    The pulmonary circulation involves only the heart and lungs and the major blood vessels that connect them. It is illustrated in Figure \(\PageIndex{5}\). Blood moves through the pulmonary circulation from the heart to the lungs, and back to the heart again, becoming oxygenated in the process. Specifically, the right ventricle of the heart pumps deoxygenated blood into the right and left pulmonary arteries. These arteries carry the blood to the right and left lungs, respectively. Oxygenated blood then returns from the right and left lungs through the two right and two left pulmonary veins. All four pulmonary veins enter the left atrium of the heart.

    pulmonary circuit
    Figure \(\PageIndex{5}\): This diagram shows the heart, lungs, and major vessels that make up the pulmonary circulation. The colored arrows indicate the direction of blood flow. Oxygenated blood (in red) flows from the lungs to the left side of the heart. Deoxygenated blood (in blue) flows from the right side of the heart to the lungs.

    What happens to the blood while it is in the lungs? It passes through increasingly smaller arteries and finally through capillary networks surrounding the alveoli (Figure \(\PageIndex{6}\)). This is where gas exchange takes place. The deoxygenated blood in the capillaries picks up oxygen from the alveoli and gives up carbon dioxide to the alveoli. As a result, the blood returning to the heart in the pulmonary veins is almost completely saturated with oxygen.

    Pulmonary Blood Circulation
    Figure \(\PageIndex{6}\): This diagram illustrates clusters of alveoli in the lungs where gas exchange takes place with blood in capillaries as it passes through the pulmonary circulation.

    Systemic Circulation

    The oxygenated blood that enters the left atrium of the heart in the pulmonary circulation then passes into the systemic circulation. This is the part of the cardiovascular system that transports blood to and from all of the tissues of the body to provide oxygen and nutrients and pick up wastes. It consists of the heart and blood vessels that supply the metabolic needs of all the cells in the body, including those of the heart and lungs.

    heart systemic circulation
    Figure \(\PageIndex{7}\): The systemic circulation includes the aorta (red), which carries oxygenated blood away from the heart to the rest of the body; and the inferior and superior venae cavae (blue), which return deoxygenated blood to the heart from the body. The colored arrows in the diagram indicate the direction of blood flow, red for oxygenated and blue for deoxygenated.

    As shown in Figure \(\PageIndex{7}\), in the systemic circulation, the left atrium pumps oxygenated blood to the left ventricle, which pumps the blood directly into the aorta, the body’s largest artery. Major arteries branching off the aorta carry the blood to the head and upper extremities. The aorta continues down through the abdomen and carries blood to the abdomen and lower extremities. The blood then returns to the heart through the network of increasingly larger veins of the systemic circulation. All of the returning blood eventually collects in the superior vena cava (upper body) and inferior vena cava (lower body), which empty directly into the right atrium of the heart.


    Blood is a fluid connective tissue that circulates throughout the body in blood vessels by the pumping action of the heart. Blood carries oxygen and nutrients to all the body’s cells, and it carries carbon dioxide and other wastes away from the cells to be excreted. Blood also transports many other substances, defends the body against infection, repairs body tissues, and controls the body’s pH, among other functions.

    The fluid part of blood is called plasma. It is a yellowish, watery liquid that contains many dissolved substances and blood cells. Types of blood cells in plasma include red blood cells, white blood cells, and platelets, all of which are illustrated in Figure \(\PageIndex{8}\) and explained in the text.

    Red White Blood cells
    Figure \(\PageIndex{8}\): The three types of cells in the blood are pictured here: red blood cell (left), platelet (center), and white blood cell (right).
    • Red blood cells have the main function of carrying oxygen in the blood. Red blood cells consist mostly of hemoglobin, a protein containing iron that binds with oxygen.
    • White blood cells are far fewer in number than red blood cells. They defend the body in various ways. For example, white blood cells called phagocytes swallow and destroy pathogens, dead cells, and other debris in the blood.
    • Platelets are cell fragments involved in blood clotting. They stick to tears in blood vessels and to each other, forming a plug at the site of injury. They also release chemicals that are needed for clotting to occur.


    1. What is the cardiovascular system? What are its main components?
    2. Describe the heart and how it functions.
    3. List the three major types of blood vessels and their basic functions.
    4. Compare and contrast the pulmonary and systemic circulations.
    5. What is blood? What are its chief constituents?
    6. True or False. The circulatory system brings blood to and from the body, while the cardiovascular system brings blood to and from the lungs only.
    7. True or False. Arteries carry mainly oxygenated blood.
    8. Name three different types of substances that are transported by the cardiovascular system.
    9. Describe where and how the pulmonary and systemic circulation systems meet.
    10. Which of the following carries blood to the lungs? Choose all that apply.

      A. Left pulmonary artery

      B. Left pulmonary vein

      C. Right pulmonary artery

      D. Right pulmonary vein

    11. Put the following structures in order of how blood flows from the heart out to the body and back again.

      capillaries; venules; aorta; veins; arteries

    12. Explain why the heart and lungs need blood from the systemic circulation.
    13. Choose one. Blood vessels carrying deoxygenated blood from the body back to the heart get increasingly (larger/smaller).
    14. Blood becomes oxygenated in the lungs through gas exchange into:

      A. Arterioles

      B. Capillaries

      C. Venules

      D. Bronchioles

    15. Which type of blood cell carries oxygen?

    Explore More

    Watch this fun and fast-paced CrashCourse video to explore how the cardiovascular and respiratory systems work together to deliver oxygen and remove carbon dioxide from cells.

    Check out this video to learn more about how the heart pumps blood:


    1. Blood Vessels by Jiulin Du from CK-12 licensed CC BY-NC 3.0
    2. Circulatory System by Mariana Ruiz Villarreal (LadyofHats), public domain via Wikimedia Commons
    3. Heart Anatomy by staff (2014). "Medical gallery of Blausen Medical 2014". WikiJournal of Medicine 1 (2). DOI:10.15347/wjm/2014.010. ISSN 2002-4436. licensed CC BY 3.0 via Wikimedia Commons
    4. Blood Vessels by Rupali Raju from CK-12 licensed CC BY-NC 3.0
    5. Pulmonary circuit by Arcadian public domain via Wikimedia Commons
    6. Pulmonary blood circulation by Holly Fisher, CC BY 3.0 via Wikimedia Commons
    7. Systemic Circuit by US Government, public domain via Wikimedia Commons
    8. Red White Blood Cells by Electron Microscopy Facility at The National Cancer Institute at Frederick (NCI-Frederick), public domain via Wikimedia Commons
    9. Text adapted from Human Biology by CK-12 licensed CC BY-NC 3.0

    This page titled 17.2: Introduction to the Cardiovascular System is shared under a CK-12 license and was authored, remixed, and/or curated by Suzanne Wakim & Mandeep Grewal via source content that was edited to the style and standards of the LibreTexts platform.

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