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Chapter 21

Chapter 21. Blood Vessels and Hemodynamics. Vessel Structure and Function. The blood vessels of the body should not be thought of as mere “pipes” carrying blood – they are dynamic , interactive, essential components of the cardiovascular organ system.

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Chapter 21

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  1. Chapter 21 Blood Vessels and Hemodynamics

  2. Vessel Structure and Function • The blood vessels of the body should not be thought of as mere “pipes” carrying blood – they are dynamic, interactive, essential components of the cardiovascular organ system. Basic components of the CV organ system

  3. Vessel Structure and Function • Blood Vessel Types • Arteries – carry blood away from the heart • Large elastic arteries (>1 cm); medium muscular arteries (0.1 – 10 mm); arterioles (< 0.1 mm) • Capillaries – site of nutrient and gas exchange • Veins – carry blood towards the heart • Venules are small veins (< 0.1 mm)

  4. Vessel Structure and Function • All blood and lymph vessels in the body share components of 3 basic layers or “tunics” which comprise the vessel wall: • Tunica interna (intima) • Tunica media • Tunica externa

  5. Vessel Structure and Function • The tunica interna is the inner lining in direct contact with blood. • The epithelium of the intima is the same endothelium that makes up the endocardial lining of the heart. • It has an active role in vessel-related activities. • The tunica media is chiefly composed of smooth muscle that regulates the diameter of the vessel lumen. • The tunica externa helps anchor vessel to surrounding tissue through use of elastic and collagen fibers.

  6. Vessel Structure and Function • The largest arteries are the conducting arteries (elastic arteries), best exemplified by the garden hose-sized aorta. • Their walls are thin compared to their overall size. • Elastic arteries perform the important function of storing mechanical energy during ventricular systole and then transmitting that energy to keep blood moving after the aortic and pulmonary valves close.

  7. Vessel Structure and Function

  8. Vessel Structure and Function • Medium sized muscular (distributing) arteries have more smooth muscle in their tunica media. • Muscular arteries help maintain the proper vascular tone to ensure efficient blood flow to the distal tissue beds. • Examples include the brachial artery in the arm and radial artery in the forearm.

  9. Vessel Structure and Function • An anastomosis is a union of vessels supplying blood to the same body tissue. Should a blood vessel become occluded, a vascular anastomosis provides collateral circulation (an alternative route) for blood to reach a tissue. • The shaded area in this graphic shows overlapping blood supply to the ascending colon.

  10. Vessel Structure and Function • Arterioles deliver blood to capillaries and have the greatest collective influence on both local blood flow and on overall blood pressure. • They are the primary "adjustable nozzles” across which the greatest drop in pressure occurs.

  11. Vessel Structure and Function • Capillaries are the only sites in the entire vasculature where gases, water and other nutrients are exchanged. • Venules and veins have much thinner walls than corresponding arterioles and arteries of similar size.

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