1. Cardiovascular System

2. Cardiac Muscle involuntary striated have only a single centrally located nuclei exhibit branching Consist of two separate networks: atria and ventricles

3. fibers in each network are connected to each other via intercalated disks (irregular transverse thickening of the sarcolemma). the discs contain gap junctions, which conduct muscle action potentials from one fiber to the other. This enables each network to conduct as a unit.

6. Cardiac Conduction System Heart muscle cells contract without stimulation from the nervous system in a continuous, rhythmic pattern. Contraction is initiated by the sinoatrial (SA) node (the heart’s internal pacemaker). – SA node is located in the right atrium – Cells of the SA node can reach threshold on their own – SA node initiates one action potential after another (~70-80 times/min)

7. Cardiac Conduction System 1. Sinoatrial (SA) node 2. Atrioventricular (AV) node 3. Atrioventricular bundle (bundle of His) 4. Bundle branches 5. Purkinje fibers turtle heart beating Cardiac Conduction Animation Two

11. Cardiac Cycle ss

12. The Cardiac Cycle The events associated with one heartbeat. A single cardiac cycle lasts 0.8 seconds. Described as the contraction and relaxation of the four heart chambers. During relaxation, chambers fill with blood (diastole). During contraction, chambers expel blood (systole). When the atria contract, the ventricles are relaxed (and vice versa). The term myocardium refers to cardiac muscle tissue.

13. Electrocardiogram (ECG or EKG) P wave depolarization of the atrial muscle cells QRS complex depolarization of the ventricular muscle cells T wave repolarization of the ventricular muscle cells video A recording of the electrical changes that occur within the myocardium as the heart contracts.

14. Heart Sounds The first heart sound (lubb) occurs during ventricular contraction when the tricuspid and bicuspid valves (AV valves) close. The second heart sound (dubb) occurs during ventricular relaxation when the pulmonary and aortic valves close.

15. Blood Pressure Blood moves through circulatory system from areas of high pressure to low pressure. (Contraction of the heart produces the pressure.) Blood Pressure is a measurement of the force that blood exerts against the inner walls of arteries. SYSTOLIC vs. DIASTOLIC pressure The maximum pressure during ventricular contraction is the systolic pressure. The systolic pressure is the peak arterial pressure. When ventricles relax (diastole) the arterial pressure drops. The lowest pressure of blood in the arteries is called the diastolic pressure.

16. Blood Pressure The systolic pressure is the top number. The diastolic pressure is the bottom number. ex. 120/80

18. When the heart contracts, it produces a wave of fluid pressure in the arteries. The force of the blood on the arteries’ walls is blood pressure. Blood pressure keeps blood flowing through the body. Blood Pressure

19. Blood pressure is measured with a sphygmomanometer. A typical blood pressure for a healthy person is 120/80. The kidneys help regulate blood pressure by regulating the amount of salt and water in the blood.

20. Blood Pressure vs. Distance From Left Ventricle

21. When things go wrong Heart attack Stroke

22. Heart Attack Myocardial Infarction (MI) myocardial = heart muscle tissue infarction = tissue death due to oxygen starvation A blood clot completely blocks a coronary artery (or one of its branches), cutting off oxygen supply to that part of the heart. This results in cardiac tissue death.

23. – As blood flows through the circulatory system, it moves through three types of blood vessels: Arteries (a for ‘away’) capillaries veins Blood Vessels

24. – Large vessels that carry blood from the heart to the tissues of the body are called arteries. Except for the pulmonary arteries, all arteries carry oxygen-rich blood. Arteries have thick walls. They contain connective tissue, smooth muscle, and endothelium.

26. – Capillaries The smallest of the blood vessels are the capillaries. Their walls are only one cell thick, and most are narrow. The capillaries bring nutrients and oxygen to the tissues and absorb carbon dioxide and other waste products from them.

29. – Veins Blood vessels that carry blood back to the heart are veins. Veins have thinner walls than arteries. The walls of veins contain connective tissue and smooth muscle.

31. Large veins contain valves that keep blood moving toward the heart. Many veins are located near and between skeletal muscles. Valve open Valve closed Valves closed

32. When the heart contracts, it produces a wave of fluid pressure in the arteries. The force of the blood on the arteries’ walls is blood pressure. Blood pressure keeps blood flowing through the body. Blood Pressure

33. Blood pressure is measured with a sphygmomanometer (SFIG-moh-mə-NOM-i-tər). A typical blood pressure for a healthy person is 120/80. The kidneys help regulate blood pressure by regulating the amount of salt and water in the blood.

34. Blood

35. Blood is a connective tissue that contains both dissolved substances and specialized cells. Blood

36. The functions of blood include: collecting oxygen from the lungs, nutrients from the digestive tract, and waste products from tissues. regulating the body’s internal environment. helping to fight infections. forming clots to repair damaged blood vessels.

37. The human body has 4–6 liters of blood. About 45% of blood volume is cells. The other 55% is plasma—a straw-colored fluid. Plasma is 90% water and 10% dissolved gases, salts, nutrients, enzymes, hormones, waste products, and plasma proteins.

38. Blood Composition Whole Blood Sample Sample Placed in Centrifuge Plasma Platelets White blood cells Red blood cell Blood Sample That Has Been Centrifuged

39. Blood Cells The cellular portion of blood consists of: – red blood cells – white blood cells – platelets

40. Red Blood Cells – The most numerous cells in the blood are the red blood cells. – Red blood cells transport oxygen.

41. Red blood cells get their color from hemoglobin. Hemoglobin is an iron-containing protein that transports oxygen from the lungs to tissues of the body.

42. Red blood cells look like disks that are thinner in the center. They are produced in red bone marrow. They have no nuclei. They live for about 120 days.

43. – White Blood Cells White blood cells do not contain hemoglobin. They are less common than red cells. White blood cells are produced in bone marrow. They contain nuclei. White blood cells may live for days, months, or years.

44. – White blood cells are the “army” of the circulatory system—they guard against infection, fight parasites, attack bacteria.

45. There are many types of white blood cells. Phagocytes engulf and digest bacteria and other disease-causing microorganisms. Some white blood cells release histamines. Histamines increase blood flow into the affected area, producing redness and swelling.

46. Lymphocytes produce antibodies. Antibodies are essential to fighting infection and help to produce immunity to many diseases.

47. – Platelets and Blood Clotting » The body has an internal mechanism to slow bleeding and begin healing. » Bleeding stops because blood has the ability to form a clot. » Blood clotting is made possible by plasma proteins and platelets.

51. – Blood Clotting Problems If one of the clotting factors is missing or defective, the clotting process does not work well. Hemophilia is a genetic disorder that results from a defective protein in the clotting pathway. Hemophiliacs cannot produce blood clots that are firm enough to stop even minor bleeding.