Human Anatomy, First Edition McKinley OLoughlin

1. 1 Human Anatomy, First EditionMcKinley & O'Loughlin Chapter 22 Lecture Outline: Heart

2. 22-2 Functions of the Heart Center of the cardiovascular system, the heart. Connects to blood vessels that transport blood between the heart and other body tissues. arteries carry blood away from the heart veins carry blood back(toward) to the heart Arteries carry blood high in oxygen. (except for the pulmonary arteries) Veins carry blood low in oxygen. (except for the pulmonary veins) Which are the GREAT VESSELS? Those vessels that enter and exit the heart True or False: Arteries “Always” carry blood away from the heart. True or False: Arteries “always” carry oxygenated blood.True or False: Arteries “Always” carry blood away from the heart. True or False: Arteries “always” carry oxygenated blood.

3. 22-3 Characteristics and Functions of the Heart Ensures the unidirectional flow of blood through both the heart and the blood vessels. Backflow of blood is prevented by valves within the heart. Acts like two independent, side-by-side pumps that work independently but at the same rate. one directs blood to the lungs for gas exchange the other directs blood to body tissues for nutrient delivery Develops blood pressure through alternate cycles of heart wall contraction and relaxation. Minimum blood pressure is essential to push blood through blood vessels to the body tissues for nutrient and waste exchange.

4. 4 Text P. 655 True or False: The Pulmonary circuit includes the Left Ventri cleText P. 655 True or False: The Pulmonary circuit includes the Left Ventri cle

5. 22-5 Pulmonary and Systemic Circuits The pulmonary circuit consists of the chambers on the right side of the heart (right atrium and ventricle) as well as the pulmonary arteries and veins. conveys blood to the lungs via pulmonary arteries to reduce carbon dioxide and replenish oxygen levels in the blood before returning to the heart in pulmonary veins The Systemic circuit Returns blood to the left side of the heart consists of the chambers on the left side of the heart (left atrium and ventricle), along with all the other named blood vessels. carries blood to all the peripheral organs and tissues of the body

6. 22-6 Pulmonary and Systemic Circuits Oxygenated blood from the left side of the heart is pumped into the aorta, the largest systemic artery in the body, and then into smaller systemic arteries. Gas exchange in tissues occurs from capillaries. Systemic veins then carry deoxygenated blood (high in carbon dioxide) and waste products. Most veins merge and drain into the superior and inferior venae cavae, which drain blood into the right atrium. There, the blood enters the pulmonary circuit, and the cycle repeats .

7. 22-7 Anatomy of the Heart Size of Heart = clenched fist. it weighs about 250 to 350 grams Located left of the body midline posterior to the sternum in the middle mediastinum. Rotated such that its right side or border (right atrium and ventricle) is located more anteriorly, while its left side or border (left atrium and ventricle) is located more posteriorly.

8. 22-8 Anatomy of the Heart The posterosuperior surface of the heart, formed primarily by the left atrium, is called the base. The pulmonary veins that enter the left atrium border this base. The inferior, conical end is called the apex. It projects slightly anteroinferiorly toward the left side of the body. True or False The Heart lies anterior to the sternumTrue or False The Heart lies anterior to the sternum

9. 9 True or False The Heart is in the Abdominal cavityTrue or False The Heart is in the Abdominal cavity

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11. 11 Function of the Pericardium?________________________________________P.657Function of the Pericardium?________________________________________P.657

12. 12 Transverse view of the Thoracic cavityTransverse view of the Thoracic cavity

13. 22-13 Pericardium Heart is contained in a fibrous, serous sac held in place within the mediastinum by connective tissue that supports the great vessels’ external walls superior to the heart and the diaphragm inferior to it. Function of: Restricts heart movements so that it doesn’t bounce and move about in the thoracic cavity, and prevents the heart from overfilling with blood. Outer portion is a tough, dense connective tissue layer called the fibrous pericardium. attached to both the sternum and the diaphragm Inner portion is a thin, double-layered serous membrane called the serous pericardium. parietal layer visceral layer

14. 14 True or False: The endocardium is the “muscular” wall of the heart True or False: The endocardium is composed of Simple squamous epitheliumTrue or False: The endocardium is the “muscular” wall of the heart True or False: The endocardium is composed of Simple squamous epithelium

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16. 22-16 Heart Wall Structure Heart wall consists of three distinctive layers: external epicardium middle myocardium, and internal endocardium Epicardium is the outermost heart layer and is also known as the visceral layer of serous pericardium. As we Get older more fat is deposited in the epicardium, and so this layer becomes thicker and more fatty.

17. 22-17 Heart Wall Structure Myocardium is the middle layer of the heart wall and is composed chiefly of cardiac muscle tissue. Myocardium is the thickest of the three heart wall layers. it lies deep to the epicardium and superficial to the endocardium Internal surface of the heart and the external surfaces of the heart valves are covered by a thin endothelium called the endocardium.

18. 22-18 Cardiac Muscle Tissue Fibers are relatively short, branched fibers that usually house one or two central nuclei and numerous mitochondria for ATP supply. Fibers are arranged in spiral bundles and wrapped around and between the heart chambers. Resembles skeletal muscle in that fibers in both muscles are striated, with extensive capillary networks that supply needed nutrients and oxygen. Fibers contract as a single unit because muscle impulses are distributed immediately and simultaneously throughout all fibers either of the atria or of the ventricles. Specialized cell–cell contacts called intercalated discs electrically and mechanically link the fibers together and permit the immediate passage of nerve impulses. True or False: Both Skeletal and Cardiac muscle are composed of Intercalated discsTrue or False: Both Skeletal and Cardiac muscle are composed of Intercalated discs

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21. 22-21 External Anatomy of the Heart Composed of four hollow chambers: two smaller atria and two larger ventricles. Atria are thin-walled chambers that are located superiorly. anterior part of each atrium is a wrinkled, flaplike extension called an auricle Atria receive blood returning to the heart through both circulatory circuits. UPPER CHAMBERS are: right atrium receives blood from the systemic circuit left atrium receives blood from the pulmonary circuit The superior chambers of the heart are called a. Atria b. auricles c. ventriclesThe superior chambers of the heart are called a. Atria b. auricles c. ventricles

22. 22-22 External Anatomy of the Heart Ventricles are the inferior chambers. Blood that enters an atrium is passed to the ventricle on the same side of the heart. Two large arteries, the pulmonary trunk and the aorta exit the heart at the basal surface. The pulmonary trunk carries blood from the right ventricle into the pulmonary circuit. The aorta conducts blood from the left ventricle into the systemic circuit. What is the name of the superior heart chambers _________________What is the name of the superior heart chambers _________________

23. 22-23 External Anatomy of the Heart Atria are separated from the ventricles externally by a relatively deep coronary sulcus (or atrioventricular sulcus) that extends around the circumference of the heart. On both the anterior and posterior surfaces of the heart, the anterior interventricular sulcus and the posterior interventricular sulcus are located between the left and right ventricles. These sulci extend inferiorly from the coronary sulcus toward the heart apex. Is the coronary sulcus a a. Deep groove or b. Shallow grooveIs the coronary sulcus a a. Deep groove or b. Shallow groove

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25. 25 Which “valve” allows blood to enter the aorta?________________________ Which “vessel” receives blood from the left ventricle?_________________________Which “valve” allows blood to enter the aorta?________________________ Which “vessel” receives blood from the left ventricle?_________________________

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27. 27 Can you name the 3 vessels off the arch of the aorta?_______________Can you name the 3 vessels off the arch of the aorta?_______________

28. 22-28 Functions of the Fibrous Skeleton of the Heart The fibrous heart skeleton is located between the atria and the ventricles, and is formed from dense irregular connective tissue. separates the atria and ventricles anchors heart valves by forming supportive rings at their attachment points provides electrical insulation between atria and ventricles insulation ensures that muscle impulses are not spread randomly throughout the heart, and thus prevents all of the heart chambers from beating at the same time Provides a rigid framework for the attachment of cardiac muscle tissue.

29. 29 The Left AV Valve is also called the ___________________ and the ___________________ Could you distinguish between each AV valve and each Semilunar valve?_________The Left AV Valve is also called the ___________________ and the ___________________ Could you distinguish between each AV valve and each Semilunar valve?_________

30. 22-30 Internal Anatomy of the Heart There are four heart chambers: right atrium right ventricle left atrium left ventricle Each plays a role in the continuous process of blood circulation. Valves permit the passage of blood in one direction and prevent its backflow. True or False: The ventricles are the lower heart chambersTrue or False: The ventricles are the lower heart chambers

31. 22-31 Right Atrium Receives venous blood from the systemic circuit and the heart muscle itself. Three major vessels empty into the right atrium. superior vena cava drains blood from the head, upper limbs, and superior regions of the trunk inferior vena cava drains blood from the lower limbs and trunk coronary sinus drains blood from the heart wall The interatrial septum forms a wall between the right and left atria.

32. 22-32 Right Atrioventricular (AV) Valve Separates the right atrium from the right ventricle. Also called the tricuspid valve. has three triangular flaps Venous blood flows from the right atrium, through the valve into the right ventricle. Is forced closed when the right ventricle begins to contract, preventing blood backflow into the right atrium. Which valve prevents backflow into the right atrium?_________________ Which valve allows entrance into the right ventricle?___________________Which valve prevents backflow into the right atrium?_________________ Which valve allows entrance into the right ventricle?___________________

33. 22-33 Right Ventricle Receives deoxygenated venous blood from the right atrium. An interventricular septum forms a wall between the right and left ventricles. The internal wall surface of each ventricle has three cone-shaped, muscular projections called papillary muscles, which: anchor chordae tendineae attach to the cusp of the right AV valve and prevent everting and flipping into the atrium when contracting Which valve must open for blood to exit the right ventricle?______________Which valve must open for blood to exit the right ventricle?______________

34. 22-34 Pulmonary Trunk At its superior end it narrows into a smooth-walled, conical region called the conus arteriosus. The pulmonary semilunar valve marks the end of the right ventricle and the entrance into the pulmonary trunk. Pulmonary trunk divides shortly into right and left pulmonary arteries. carry deoxygenated blood to the lungs Note: this is a “blue vessel” on the heart

35. 22-35 Semilunar Valves Location: within the walls of both ventricles immediately before the connection of the ventricle to the pulmonary trunk and aorta. Function: Allow blood to exit the ventricles Each is composed of three thin, pocketlike semilunar cusps. As blood is pumped into the arterial trunks, it pushes against the cusps, forcing the valves open. When ventricular contraction ceases, blood is prevented from flowing back into the ventricles from the arterial trunk by first entering the pockets of the semilunar valves between the cusp and the chamber wall. causes the cusps to “inflate” and meet at the artery center, effectively blocking blood backflow True or false: Semilunar valves allow blood to flow from the atria to the Ventricles__________________True or false: Semilunar valves allow blood to flow from the atria to the Ventricles__________________

36. 36 The Pulmonary arteries carry a. deoxygenated blood b. Oxygenated blood The Pulmonary arteries are carrying blood a. To the Heart b. To the lungs c. To the bodyThe Pulmonary arteries carry a. deoxygenated blood b. Oxygenated blood The Pulmonary arteries are carrying blood a. To the Heart b. To the lungs c. To the body

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38. 22-38 Left Atrium Once gas exchange occurs in the lungs, the oxygenated blood travels through the pulmonary veins to the left atrium. Smooth posterior wall of the left atrium contains openings for approximately four pulmonary veins. Has pectinate muscles along its anterior wall as well as an auricle. Name the blood vessel that carries blood INTO the Left atrium __________________Name the blood vessel that carries blood INTO the Left atrium __________________

39. 22-39 Left Atrioventricular (AV) Valve Separates the left atrium from the left ventricle. Also called the bicuspid valve or the mitral valve. Left AV valve has chordae tendineae similar to those of the right AV valve. Oxygenated blood flows from the left atrium into the left ventricle. Is forced closed when the left ventricle begins to contract prevents blood backflow into the left atrium True or False All Four Hear Valves have Chordae Tendineae attached to themTrue or False All Four Hear Valves have Chordae Tendineae attached to them

40. 22-40 Left Ventricle Largest of the four heart chambers. Wall is typically three times thicker than the right ventricular wall. Why is this? Requires thick walls in order to generate enough pressure to force the oxygenated blood from the lungs into the aorta and then through the entire systemic circuit. right ventricle only has to pump blood to the nearby lungs

41. 22-41 Left Ventricle Trabeculae carneae in the left ventricle are more prominent. Two large papillary muscles attach to the chordae tendineae that help support the left AV valve. At the superior end of the ventricular cavity, the aortic semilunar valve marks the end of the left ventricle and the entrance into the aorta. Which Heart valve Prevents backflow into the Right Ventricle?______________Which Heart valve Prevents backflow into the Right Ventricle?______________

42. 42 True or False: The Right Ventricle tends to be 3x thicker than the Left VentricleTrue or False: The Right Ventricle tends to be 3x thicker than the Left Ventricle

43. 22-43 Cardiac Cycle The inclusive period of time from the start of one heartbeat to the initiation of the next. All chambers within the heart experience alternate periods of contraction and relaxation. Contraction of a heart chamber is called systole. forces blood either into another chamber (from atrium to ventricle) or into a blood vessel (from a ventricle into the attached large artery) Relaxation phase of a heart chamber is termed diastole. myocardium of each chamber relaxes between contraction phases, and the chamber fills with blood Remember……Systole is like “squeezing”Remember……Systole is like “squeezing”

44. 44 Text P. 668Text P. 668

45. 22-45 Conduction System of the Heart Exhibits autorhythmicity: what is that? meaning that the heart itself (not external nerves) is responsible for initiating the heartbeat. Certain cardiac muscle fibers are specialized to conduct muscle impulses to the contractile muscle cells of the myocardium. Specialized cells are part of the heart’s conduction system. SA Node AV Node Text P. 668Text P. 668

46. 22-46 Conduction System of the Heart – Sinoatrial (SA) Node Heartbeat is initiated by the cardiac muscle cells of the sinoatrial (SA) node. located in the posterior wall of the right atrium, adjacent to the entrance of the superior vena cava Act as the pacemaker. rhythmic center that establishes the pace for cardiac activity Initiates impulses 70 - 80 times per minute. Like the first engine on the train

47. 22-47 Conduction System of the Heart – Atrioventricular (AV) Node Muscle Impulse travels to both atria, stimulating atrial systole. And via an internodal conduction pathway through an opening in the fibrous skeleton to the atrioventricular (AV) node. located in the floor of the right atrium between the right AV valve and the coronary sinus Like the second engine on the train True or False The AV node and the AV valve are the same thing?True or False The AV node and the AV valve are the same thing?

48. 22-48 Conduction System of the Heart – Atrioventricular (AV) Bundle Cardiac impulse then travels from the AV node to the atrioventricular (AV) bundle(bundle of His). extends into the interventricular septum and then divides into one right and two left bundle branches. Conduct the impulse to conduction fibers called Purkinje fibers in the heart apex. Purkinje fibers are larger than other cardiac muscle fibers. Muscle impulse conduction along the Purkinje fibers is extremely rapid, consistent with the large size of the cells. The impulse spreads immediately throughout the ventricular myocardium. True or False: Purkinje fibers and papillary muscles are the same thingTrue or False: Purkinje fibers and papillary muscles are the same thing

49. 49 True or False: The Av node acts as the “pacemaker__________True or False: The Av node acts as the “pacemaker__________

50. 50 Is the SA Node found in the a. Superior Right Atrium b. Superior Left Atrium b. Inferior right atriumIs the SA Node found in the a. Superior Right Atrium b. Superior Left Atrium b. Inferior right atrium

51. 22-51 Innervation of the Heart Innervated by the autonomic nervous system. Consists of both sympathetic and parasympathetic components. referred to as the coronary plexus Autonomic innervation by autonomic centers in the hindbrain doesn’t initiate heartbeat, but it can increase or decrease the heartbeat. Sympathetic innervation increases the rate and the force of heart contractions. Parasympathetic innervation decreases heart rate, but tends to have no effect on the force of contractions, except in special circumstances.

52. 22-52 Coronary Circulation Left and right coronary arteries travel in the coronary sulcus (atrioventricular groove) of the heart to supply the heart wall. the only branches of the ascending aorta Openings for these arteries are located immediately superior to the aortic semilunar valve. The right coronary artery typically branches into the marginal artery supplies the right border of the heart posterior interventricular artery supplies both the left and right ventricles

53. 22-53 Coronary Circulation Left coronary artery typically branches into the anterior interventricular artery. also called the left anterior descending artery supplies the anterior surface of both ventricles and most of the interventricular septum Circumflex artery. supplies the left atrium and ventricle Arterial pattern can vary greatly among individuals.

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55. 55 NOTE: The Great Cardiac Vein, the Middle Cardiac vein and the small cardiac vein all drain into the Coronary sinus. The coronary sinus drains directly into what heart chamber ________________?NOTE: The Great Cardiac Vein, the Middle Cardiac vein and the small cardiac vein all drain into the Coronary sinus. The coronary sinus drains directly into what heart chamber ________________?