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The HUMAN HEART

The HUMAN HEART. The pump of the circulatory system. In the Human Circulatory System…… The flow of blood is maintained in 3 ways: 1 The pumping action of the heart  arteries and capillaries 2 Contraction of skeletal muscles  veins (aided by valves) 3 Inspiratory movements

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The HUMAN HEART

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  1. The HUMAN HEART The pump of the circulatory system

  2. In the Human Circulatory System…… The flow of blood is maintained in 3 ways: 1 The pumping action of the heart  arteries and capillaries 2 Contraction of skeletal muscles  veins (aided by valves) 3 Inspiratory movements  draws blood into the heart by the reduced pressure

  3. General plan of the mammalian circulatory system

  4. How blood flows: the circulatory system Why is the blood blue on one side and red on the other?

  5. The mammalian circulatory plan

  6. How blood flows: the circulatory system Complete circulation consists of two pathways: pulmonary (lung) circulation & systemic (body) circulation

  7. How blood flows: the circulatory system heart: coronary arteries & veins kidney: renal arteries & veins liver: hepatic artery & vein; gut/liver: hepatic portal vein (from gut to liver)

  8. How blood flows: the circulatory system aorta: aortic arch & dorsal aorta venae cavae: superior (from head) & inferior (from body) Usually arteries are oxygenated, veins are deoxygenated

  9. Structure of the mammalian heart

  10. Foetal circulation

  11. The mammalian heart lung heart liver stomach Our hearts are protected by our rib cages

  12. The mammalian heart

  13. aorta superior vena cava pulmonary artery pulmonary veins left auricle coronary artery right auricle coronary vein right ventricle left ventricle inferior vena cava

  14. Heart Structure & Action Structure of the Mammalian Heart - Pericardium: membrane around the heart - Cardiac muscles works (contracts) without rest - Coronary artery provides nutrients & oxygen to cardiac muscles Coronary veins carry away wastes and carbon dioxide from heart muscles - Septum divides the heart into right and left halves • The heart is divided into 4 chambers: • The left & right atria (auricles) and • The left & right ventricles

  15. Atria • Left & right atria receive blood from veins and drain blood into the ventricles; • have thinner walls than ventricles • Right atrium receives deoxygenated blood from venaecavae (superior & inferior) - Left atrium receives oxygenated blood from pulmonary veins

  16. Ventricles • pump blood to all parts of the body; have thicker,more muscular wallsthan the atria - Right ventricle pumps deoxygenated blood to the lungs through the pulmonary artery - Left ventricle pumps oxygenated blood into the aorta to deliver blood around the body (except the lungs) - Left ventricle has thicker wall than right ventricle because it has to pump blood all around the body, while the right ventricle only pumps blood to the lungs which are very close to the heart

  17. Valves - enable blood to flow in only one direction: 1.Tricuspid valve: between right atrium and right ventricle 2.Bicuspid valve: between left atrium and left ventricle Both are attached by heart tendon to the muscular walls of ventricles in order to prevent the valves from being turned inside out 3.Semilunar valves: prevents blood flowing back from aorta and pulmonary artery tendon valve

  18. Control of Heart Beat (Cardiac Cycle) All vertebrates are myogenic, i.e. the heart beat is initiated from within the heart muscle itself rather than an impulse from the brain or nervous system. The electronic heart pacemaker (SA node)

  19. Nucleus Connective tissue Fibre with striations Cardiac muscle (LS)

  20. Sino-atrial node (SA node) - located in wall of R A near the vena cava 'pace-maker' which determines the basic rate of heart beat: • wave of contraction from SA node  both atria  atrio-ventricular (AV) node  Purkinje fibres (bundle of His)  apex of ventricles  contraction from ventricular apex upwards

  21. Cardiac Cycle

  22. Cardiac Cycle • Systole - heart contraction • Diastole - heart relaxation

  23. Factors Modifying Heart Beat Cardiac output: Volume of blood pumped at heart beat x no. of beats/unit time - controlled by medulla oblongata by 2 centres: cardio-acceleratory centre (sympathetic) and cardio-inhibitory centre (parasympathetic)

  24. During heavy exercise: CO2 pH  chemoreceptor in carotid artery  cardio-acceleratory centre  heart beat  (to remove more CO2) until CO2(pH)  detected by carotid receptors  cardio-inhitory centre  heart beat 

  25. also: stretch receptors in aorta, carotid artery stimulated  cardio-inhibitory centre  heart beat  stretch receptors in vena cava stimulated  cardio-acceleratory centre  heart beat 

  26. Maintenance & Control of Blood Pressure vasoconstriction: blood vessels narrowed blood pressure  vasodilation: blood vessels dilated blood pressure  Both controlled by vaso-motor centre in medulla oblongata  arterioles in body (constrict/dilate) baroreceptors: pressure receptors in carotid artery detect blood pressure changes and relay impulses to the vaso-motor centre

  27. examples: blood pressure  baroreceptors  vaso-motor centre  sympathetic nerve  arterioles  vasoconstriction b p 

  28. blood pressure  baroreceptors  vaso-motor centre  parasympathetic nerve  arterioles  vasodilation b p 

  29. Factors causing blood pressure increases: 1. CO2 blood pressure   speed to deliver blood to heart   remove more carbon dioxide 2. Hormones, e.g. adrenaline  raises blood pressure

  30. Pressure changes in the atria, ventricles & aorta during one cardiac cycle

  31. Heart Disease - coronary heart disease 1. Coronary thrombosis - a blood clot blocking the coronary vessel Wall of artery Thrombus (clot) Plaque on inner wall of artery

  32. Heart Disease - coronary heart disease 1. Coronary thrombosis - a blood clot blocking the coronary vessel 2. Atherosclerosis (hardening of the arteries) - barrowing of the arteries due to fat, fibrous, or salt deposits 3. Spasm - repeated contractions of the muscles in the coronary attery walls

  33. Heart attack smooth lining blood flow restricted Cholesterol, Narrows the lumen in arteries, Decreases blood supply to organs artery blocked by blood clot fatty & fibrous deposits

  34. The human lymphatic system

  35. The lymphatic system • It consists of lymph vessels with lymph.

  36. Lymphatic System Tissue fluid and its formation • composition same as blood but without RBCs, platelets & proteins because they are too large to leak out of the capillaries - forms a link between blood and cells, providing a medium for exchange of materials between blood & cells

  37. Exchange of materials between blood & body cells

  38. Lymph some tissue fluid returns to capillaries by osmosis while some (about 10%) goes into lymph capillaries; this fluid is now calledlymph Path: Blood  lymph capillaries  lymph vessels  lymph ducts  Blood - Lymph re-enters blood

  39. Formation and destination of tissue fluid

  40. At the arterial endof a capillary, liquid is forced out as tissue fluid which is similar to plasma in composition except its has no plasma proteins, platelets & RBCs.  At the venous end, some fluid returns to blood while some enters lymph vessels which eventually join to a vein near the heart.

  41. Lymph is driven by contraction of surroundingmuscles, aided by valves which enable one-way flow to the neck.

  42. Lymph nodes - filter lymph passing through; with numerous WBCs to kill bacteria or neutralize toxins for bodily defence - during infection these nodes frequently swell - major sites of lymphocytes production

  43. Movement of lymph through the lymphatic system: 1. Hydrostatic pressure 2. Muscle contraction 3. Inspiratory movement 4.Valves to ensure one-way traffic towards the heart

  44. Lymphatic System and the Circulatory System

  45. Functions of the lymphatic system 1 Transport of tissue fluid back into the blood circulation 2 Transport of fat from intestinal villi 3 As a bridge for the exchange of materials between capillaries and tissue cells 4 As a site for body defence (lymph nodes with WBCs)

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