1. Review form day 2 What is the function of the intrinsic conduction system of the heart? The intrinsic conduction system of the heart coordinates the action of the heart chambers and causes the heart to beat faster than it would otherwise. To which heart chambers do the terms systole and diastole usually apply? Right & Left ventricle. What causes the lub-dup sounds heard with a stethoscope? The operation of the heart valves. When they close. What does the term cardiac output mean? CO = amount of blood pumped out by each side of the heart in one minute. What would you expect to happen to the heart rate of an individual with a fever? Fever increases the heart rate. because the rate of metabolism of the cardiac muscle increases. Why? Because the rate of metabolism of the cardiac muscle increases.

2. https://www.youtube.com/watch?v=v43ej5lCeBo BLOOD VESSELS -1 https://www.youtube.com/watch?v=_jkQR8v-bAg

3. DAY 3 OBJECTIVE Compare and contrast the structure and function of arteries, veins, and capillaries.

4. Blood Vessels Blood circulates inside the blood vessels, which form a closed transport system, the so- called vascular system. Like a system of roads, the vascular system has its freeways, secondary roads, and alleys. As the heart beats, blood is propelled into the large arteries leaving the heart. It then moves into successively smaller and smaller arteries and then into the arterioles, which feed the capillary beds in the tissues. Capillary beds are drained by venules, which in turn empty into veins that finally empty into the great veins (venae cavae) entering the heart. Thus arteries, which carry blood away from the heart, and veins return the blood to the heart. They are the freeways and secondary roads. The tiny hair like capillaries, which extend and branch through the tissues and connect the smallest arteries (arterioles) to the smallest veins (venules), directly serve the needs of the body cells. They are like the side streets and alleys. The capillaries are the side streets or alleys that intimately intertwine among the body cells and provide access to individual “homes.”

5. Structural Differences in Arteries, Veins, and Capillaries Except for the microscopic capillaries, the walls of blood vessels have three coats, or tunics (Figure 11.9).

6. ARTERIES The walls of arteries are usually much thicker than those of veins. This structural difference is related to a difference in function of these two types of vessels. Arteries, which are closer to the pumping action of the heart, must be able to expand as blood is forced into them and then recoil passively as the blood flows off into the circulation during diastole. Their walls must be strong and stretchy enough to take these continuous changes in pressure. Arteries carry blood away from the heart and in all cases carry blood that is rich in oxygen except the pulmonary arteries which carry blood away from the heart to the lungs. (see figure 11.9)

7. VEINS Veins, in contrast, are far from the heart in the circulatory pathway, and the pressure in them tends to be low all the time. Thus veins have thinner walls. Because the blood pressure in veins is usually too low to force the blood back to the heart, and because blood returning to the heart often flows against gravity, veins are modified to ensure that the amount of blood returning to the heart (venous return) equals the amount being pumped out of the heart (cardiac output) at any time. The lumens (openings) of veins tend to be much larger than those of corresponding arteries, and the larger veins have valves that prevent backflow of blood (see Figure 11.9). Skeletal muscle activity also enhances venous return. As the muscles surrounding the veins contract and relax, the blood is squeezed, or “milked,” through the veins toward the heart. Veins carry blood rich in carbon dioxide. The exception is the pulmonary veins which carry oxygen rich blood from the lungs to the left atrium of the heart.

8. CAPILLARIES The transparent walls of the capillaries are only one cell layer thick—just the tunica intima. Because of this exceptional thinness, exchanges are easily made between the blood and the tissue cells. The tiny capillaries tend to form interweaving networks called capillary beds. The flow of blood from an arteriole to a venule—that is, through a capillary bed—is called microcirculation. In most body regions, a capillary bed consists of two types of vessels: (1) a vascular shunt, a vessel that directly connects the arteriole and venule at opposite ends of the bed, and (2) true capillaries, the actual exchange vessels (Figure 11.11).

10. MEDICAL ISSUES WITH VEINS Varicose veins are common in people who stand for long periods of time (for example, dentists and hairdressers) and in obese (or pregnant) individuals. The common factors are the pooling of blood in the feet and legs and inefficient venous return resulting from inactivity or pressure on the veins. In any case, the overworked valves give way, and the veins become twisted and dilated. A serious complication of varicose veins is thrombophlebitis, inflammation of a vein that results when a clot forms in a vessel with poor circulation. Because all venous blood must pass through the pulmonary circulation before traveling through the body tissues again, a common consequence of thrombophlebitis is clot detachment and pulmonary embolism, which is a life- threatening condition.

11. Review Assume you are viewing a blood vessel under the microscope. It has a lopsided lumen, relatively thick externa, and a relatively thin media. Which kind of a blood vessel is this? It is a vein. Arteries lack valves, but veins have them. How is this structural difference related to blood pressure? Blood pressure in veins is much lower than that in arteries because veins are farther along in the circulatory pathway. Hence, veins need extra measures to force blood back to the heart. How is the structure of capillaries related to their function in the body? Capillary walls consist only of the innermost intima layer which is very thin. Capillaries are the exchange vessels between the blood and tissue cells, thus thin walls are desirable.

12. WORK ON ACTIVITY WORKSHEETS