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Transcript
THE HEART AND CIRCULATION This lesson meets the following DoE Specific Curriculum Outcomes for Biology 11: 116-7 and 317-1 CIRCULATION • Single celled and simple multicellular animals don’t possess a circulatory system – their cells are in direct contact with their external environments. • More complex multicellular organisms (including humans) contain millions of cells, most of which are not in direct contact with their external environment. CIRCULATION • The function of a circulatory system is to connect all cells with their external environment, to transport nutrients to the cells and wastes away from the cell. Types of Circulation in Humans • A. Pulmonary Circulation • Carries de-oxygenated blood or blood low in oxygen and high in carbon dioxide to the lungs from the right side of the heart • Involves the right side of the heart, the pulmonary arteries, both the right and left lungs and the pulmomary veins • Carries oxygenated blood back to the left side of the heart B. Systemic Circulation • Carries oxygen to the entire systems of the body • Involves the left side of the heart, the aorta, all major arteries, veins and capillaries and the superior/inferior vena cava • Carries deoxygenated blood back to the right side of the heart through the vena cava. Blood pressure is at its lowest at this point C. Coronary Circulation • The arteries and veins of the heart itself • These blood vessels nourish the heart providing it with its constant need for food and oxygen COMPONENTS OF A CIRCULATORY SYSTM 1. A fluid in which transported materials are carried (=BLOOD) 2. A network of tubes through whicn the fluid flows (=BLOOD VESSELS) 3. A pump to drive the fluid through the tubes (=HEART) THE HEART • The heart is a muscular organ whose contractions force blood through the blood vessels. • Your heart is slightly larger than your fist and located just to the left of the middle of your chest cavity. • The outside of the heart is surrounded by a tough protective PERICARDIUM. THE HEART • Internally, the heart is divided into two halves by the SEPTUM and is comprised of four chambers; two ATRIA (left and right) and two VENTRICLES (left and right). • This design allows the heart to act as a double pump; the right side sends oxygen-poor blood to the lungs and the left side pumps oxygen rich blood to the rest of the body. THE HEART • CO2 rich blood returning from the body (systemic circulation) enters the right atrium via the two vena cavas. • This blood then moves into the right ventricle where it will be pumped out through the pulmonary arteries to the lungs (pulmonary circulation). THE HEART • Upon its return from the lungs, the 02 rich blood enters the left atrium via the pulmonary veins. • The blood then moves into the left ventricle where it is pumped out through the aorta to the various tissues and organs of the body (systemic circulation). THE HEART • The flow of blood through the heart is controlled by four valves. • Two of these valves, the ATRIOVENTRICULAR VALVES (A-V valves) are located between the atria and the ventricles (one on the left side and one on the right). THE HEART • The other two valves, the SEMILUNAR VALVES (S-V valves) are located between the right ventricle and the pulmonary artery and the left ventricle and the aorta. • The function of these valves is to insure that blood flows only in one direction. THE HEARTBEAT CYCLE • Since the heart is mostly muscle, its pumping action results from the alternating contraction and relaxation of the muscles. • The periods when the heart muscles are relaxed is called DIASTOLE. • The alternate period of contraction is called SYSTOLE. THE HEARTBEAT CYCLE • During diastole, the A-V valves are open allowing blood to pass from the atria to the ventricles. • During systole, a muscle contraction in the atria cause these chambers to contract forcing the remaining blood down into the ventricles. THE HEARTBEAT CYCLE • The systole muscle contraction moves in a wave-like manner from the top of the heart to the bottom. As it does, it forces shut the A-V valves and opens the S-V valves of the aorta and pulmonary artery. • Finally, as the systole muscle contraction reaches the ventricles; these chambers contract forcing blood out through the aorta and pulmonary artery. THE HEARTBEAT CYCLE • When the ventricles are contracting, the atria are relaxed allowing blood to enter from the veins and the A-V valves open. This marks the beginning of a new diastole period. • As the heart valves open and close, they make a “lub-dub” sound that can be heard through a stethoscope. The “lub” sound is made by the closing of the A-V valves. The “dub” sound is made by the closing of the S-V valves. The Heart’s Electrical System Courtney's First Aid & Safety Training Inc © All Rights Reserved 2011 20 THE HEARTBEAT CYCLE
