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Transcript
Cardiovascular System Anatomy and Physiology Cardiovascular System • Consists of heart—pump • System of blood vessels --transport Cardiovascular System • Heart is covered by the pericardium • This is like a thin membranous sac for protection Cardiovascular System • Heart has four chambers: 2 atria on top and 2 ventricles on the bottom • Atria are receiving chambers • Ventricles are pumping chambers, and have thicker walls Cardiovascular System • Heart is also divided into right and left • Blood on the right side does not mix with blood on the left side Blood which enters the right atrium goes on to the right ventricle Enters left atrium; leaves left ventricle Cardiovascular System • Blood entering the right side of the body is coming from the veins of the body and is low oxygen • It is sent from the right ventricle to the lungs Cardiovascular System • Blood entering the left side of the heart has come from the lungs and is oxygenated • It is sent from the left ventricle through the arteries to all parts of the body Cardiovascular System • Valves separate the atria from the ventricles • On the right side, it is the tricuspid valve • On the left side, it is the bicuspid valve • They close to prevent flow when it should be sealed off Label the Heart Pulmonary vs Systemic • The pulmonary circuit goes from the right atrium to the right ventricle • And then to the lungs, returning to the left atrium Pulmonary vs Systemic • Systemic circulation goes from the left atrium into the left ventricle • And then to all body parts (oxygenated) Initiating the Heartbeat • The “pacemaker” system • Involves specialized pockets of heart tissue which can initiate impulses • The first pocket is called the S-A (sinoatrial) node S-A node • Initiates the heartbeat • Is located in the right atrium • Causes both atria to contract (small contraction to send blood into ventricles) • Impulse also travels on fibers to the next specialized pocket A-V Node • The A-V node (atrioventricular) receives the impulse from the S-A node • Located in the septum where the atrium meets the ventricle • Impulse is relatively slow, allowing time for the ventricles to fill A-V Node passes it on • From the A-V node, the impulse goes to the A-V bundle (also called the Bundle of His) • From there is branches into Purkinje fibers that enclose both ventricles The Big Push • When all the cardiac muscle cells receive the impulse, the ventricles contract together and powerfully. • This is systole Steps in Order • • • • • SA node AV node AV bundle Bundle branches Purkinje fibers Replacement • If the SA node fails to keep a regular rhythm, an artificial pacemaker can be inserted. ECG • Electrocardiogram • Sometimes called EKG • Recording of electrical changes • Records the electrical impulses of action potentials The Blood Vessels • Arteries lead away from the heart • Arteries branch into arterioles (smaller arteries,) then into tiny capillaries • Capillaries merge together to form venules (small veins) • Venules merge to become larger veins which return blood to the heart Arteries • Strong • Elastic • Able to withstand the pumping pressure • Three layers in the wall—one layer contains smooth muscle Arteries • The muscle allows the artery to constrict (reduce diameter) and dilate (increase diameter) • This is important in maintaining body temperature Capillaries • Smallest diameter • Connect the smallest arterioles with the smallest venules • The wall is only one layer thick—very thin! • Exchange of materials occurs here Veins • Venules merge to form larger veins • Walls have three layers, but much thinner • Less muscle and elastic tissue • Collapse when empty Artery and Vein Comparison Artery Vein Veins Valves open • Contain valves to prevent back flow • Most valves are in veins of the limbs • Harder to return blood from these parts, due to low pressure Valves closed Valves Valves Veins • By the time blood gets to the veins, it has little force behind it. • It’s hard to get blood back to the heart • Valves help, but also skeletal muscle movement and respiration help Blood Pressure • Force blood exerts against the walls of the blood vessels. • Primarily in the arteries, since they are subject to the most force • Can feel a pulse in arteries Blood Pressure • Systolic pressure is the pressure during ventricular contraction • Diastolic pressure is the pressure during ventricular relaxation • A blood pressure reading is expressed as • systolic pressure diastolic pressure Blood Pressure • A normal blood pressure reading is 120/80. • Generally, lower is better • Hypertension may result in heart enlargement, heart attack, atherosclerosis, stroke Exercise, controlling weight, limiting sodium, reducing stress, and medication are treatments for high blood pressure Blood Pressure • Factors affecting blood pressure include: • Amount of blood pumped by the left ventricle and how often • Blood volume • Peripheral resistance • Blood viscosity
