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Circulatory System Arteries, Veins, Capillaries, the Heart, Vessels The Circulatory System and You... • Blood accounts for approx 7% body weight and totals approx 6 liters in volume – That’s about 5 soda bottles OR a little over a gallon of milk • The circulatory system can be divided into three branches – pulmonary circulation (feeding the lungs) – coronary circulation (feeding the heart) – systemic circulation (feeding the remaining tissue) Arteries vs. Veins Arteries have muscular walls that squeeze the blood along Veins have little muscle to squeeze blood along, and rely on our skeletal muscles to do so. Artery vs. Vein Comparison Arteries: Veins: 1. Muscular walls 2. No valves 3. Squeeze blood along 4. Carry blood away from the heart 1. Little muscle 2. Need one way valves to prevent backflow 3. Rely on skeletal muscle movement to carry blood along 4. Carry blood to heart blood Blood Flowing through an Artery is Squeezed Along Blood Flowing through a Vein • Backflow is stopped by one way valves Flow occurs in this Direction only Varicose Veins • Occur when the valves tire and pooling of blood occurs • Happens most often in lower body • Very painful disorder bilateral varicosis with megaplasia of long saphenous vein and insufficiency of femoral vein. Capillaries • Extremely narrow and thin, and leaky – 5mm-10mm in diameter – 0.5mm wall thickness • Composed of thin cells • Transfer oxygen and food to tissues • Remove wastes, CO2 • Arterial Venuous Blood Blood Human Cardiovascular System The heart is located in the thoracic cavity between the lungs. It is surrounded by a protective pericardium—a double-walled sac with fluid between the two layers. Circulation Overview Overview of Blood Flow Right Side of the Heart – the Pulmonary Circuit 1. Lungs exchange CO2 and O2 2. Right side of heart is smaller A. Pumps blood to lungs via Pulmonary Artery B. Capillaries in alveoli supply oxygen C. Blood goes back to the heart via the Pulmonary Vein 3. The only time you will ever see tired blood in arteries is when it is traveling to the lungs 4. The only time you’ll ever see oxygenated blood in veins is in the Pulmonary vein, because it carries the blood to the heart (as veins do) to be pumped to the rest of the body. The Left Side of the Heart – The Systemic Circuit Left side of heart is BIGGER A. Pumps blood to BODY out of the aorta, up to the head or down to the lower body B. Oxygen rich blood rushes to the body C. Arteries carry blood away from the heart. The Heart is a Double Pump Superior Vena Cava Right Atrium Tricuspid Valve Right Ventricle Inferior Vena Cava Pulmonary Valve Pulmonary Arteries Pulmonary Vein Left Atrium Bicuspid Valve Aortic Valve Left Ventricle Another Animated View – Watch Carefully! Check out the Atrioventricular Valve (tricuspid) Doing its Job Preventing Backflow between the Right Ventricle and Atrium Heart Attacks Occur because of coronary blockage due to cholesterol blockages which obstruct blood flow to the heart itself Click the heart to see an animation ---------> 4 Root Cause of Heart Attacks 1. Heredity – the liver cranks out cholesterol, and there are two types: A. LDL – low density – bad, creates blockages B. HDL – high density – good, scrubs our tubes 2. Lack of regular exercise 3. Unhealthy, high-fat diets 4. Generally being a couch potato does not help Arterial Blockage 1-0-1 Blood Flowing through an Artery is Squeezed Along Blood Pressure • Healthy reading is 120 over 80, but what does this mean? Systolic Pressure • 120 mm of Hg is the minimum pressure the blood exerts to push blood through the artery of the arm, when cuffed Diastolic Pressure • 80mm of Hg is the residual or left over pressure after the blood surge went through Solutions to Blood Pressure • Reduce the volume of water in the blood • Water is attracted to salt, so reduce salt intake • Exercise to shed excess water • Eat healthier • Record pressure regularly • Medication needed in extreme cases Cardiac cycle • With each beat of the heart: – systole-contraction of the heart – diastole-relaxation of the heart • Electrocardiogram – recorded with electrodes on surface of the chest – P wave – depolarization (squeezing) of atria – QRS complex-depolarization (squeezing) of ventricles – T wave-repolarization (recharging) of ventricles Flash Animation of this Whole Process Components of Blood Erythrocytes make up about 99% of the cells in the blood. Components of Blood Whole Blood Plasma Formed Elements (46-63%) (37-54%) 1. Water (92%) 1. Red Blood Cells (99.9%) 2. Plasma Proteins (7%) 2. Platelets 3. Other Solutes (1%) 3. White Blood Cells (0.1%) Functions of Blood • Transportation of dissolved gases, nutrients, hormones, and metabolic wastes • Regulation of the pH and electrolyte throughout the body • Restriction of fluid losses • Defense against toxins and pathogens • Stabilize of body temperature These red blood cells function in oxygen transport Blood and Transportation • Red blood cells are packed with the protein hemoglobin (Hb) which carries O2 • CO2 is carried by Hb, and dissolved in plasma in multiple ways • Nutrients absorbed at the GI tract, or released by the liver or adipocytes, are distributed by blood • Hormones (blood-borne chemical messengers) are transported from glands to their target organs via the bloodstream • Metabolic wastes produced by cells are absorbed by the blood and carried to the kidneys for excretion Blood & Protection • Blood transports white blood cells, specialized cells that migrate into tissues to fight infections and remove debris. • Blood delivers antibodies, proteins that attack invading organisms and foreign compounds. • Blood contains enzymes that respond to a break in a blood vessel wall by forming a clot to restrict further fluid loss. Above, we have a SEM image of a blood clot. Notice the RBCs. Transports, organic and inorganic molecules, formed elements, and heat Water (92%) Albumins (60%): Contribute to plasma osmotic pressure; Transport lipids, steroid hormones Plasma Plasma Proteins (7%) Globulins (35%): Transport ions, hormones, lipids; Immune function Fibrinogen (4%): Essential component of clotting system Other Solutes (1%) Regulatory Proteins (<1%): Enzymes, Hormones Electrolytes: Ions necessary for vital cellular activity. Contribute to osmotic pressure of body fluids. Major electrolytes are Na+,K+, Ca2+, Mg2+, Cl-, HCO3-, HPO42-, SO42Organic Nutrients: Used for ATP production, cell growth and maintenance; Includes lipids, carbohydrates, and amino acids Organic Wastes: Carried to sites of breakdown or excretion; Includes urea, uric acid, creatinine, bilirubin, and ammonium ions Red Blood Cells (Erythrocytes) • Most abundant blood cells (99.9% of formed elements) – In ♂, 1µL of blood contains 4.5-6.3 million RBCs – In ♀, 1µL of blood contains 4.2-5.5 million RBCs • Contains the red pigment hemoglobin which binds and transports O2 and CO2 • Each RBC is a biconcave disc Diameter → 8µm Thickness → 2.5µm Interesting Facts about RBC’s • Increased RBC production when O2 decreases - high altitude training • Lack nucleus to carry more O2 • Life span of 120 days • Broken down in liver (bilirubin into bile…) Hemoglobin • Each chain contains a single molecule of heme, an iron-containing pigment – The iron ion in heme is able to reversibly bind an oxygen molecule. – Meaning, O2 can bind to Hb at the lungs and then be released at the tissues • Based on the above, how many molecules of O2 can each Hb protein bind? RBC Disorders 1. Anemia • • Fe (Iron) deficiency Pale apperance, and some weakness 2. Pernicous Anemia • • Will cause low vitamin B12 absorption RBC’s will not grow up / mature Hemophilia • hereditary bleeding disorders • Hemophilia A – Most common type (83%) – X-linked • Hemophilia B – Less common. – Also X-linked What symptoms do you suppose are characteristic of hemophiliacs? Components of Blood – Platelets, The Blood Clotters that stop Bleeding WBC’s (Leukocytes) • Larger than RBC’s • • Have nucleus – often multilobed Less numerous (under 0.1% of blood volume) • Types are based on presence or absence of granules in their cytoplasm. 1. GRANULAR 2. AGRANULAR Components of Blood Granular Leukocytes • • • Granules in cytoplasm Multi-lobed nucleus (polymorphonuclear) Types Include 1. Neutrophils » Specialize in attacking and digesting bacteria that have been “marked” for destruction 2. Eosinophils » phagocytize antibody-coated bacteria, protozoa, and cellular debris 3. Basophils – the allergy causers » migrate to injury sites and discharge the contents of their granules – histamine (a vasodilator) Agranular Leukocytes • • No granules The Explorers of the immune system 1. Lymphocytes (B&T) » Continuously migrate from the bloodstream thru peripheral tissues and back into the bloodstream » T cells: defend against foreign cells and tissues and coordinate the immune response » B cells: produce and distribute antibodies that attack foreign materials 2. Monocytes – the largest WBC’s » Becomes a MACROPHAGE in tissue and WBCs in order of abundance: Never (neutrophils Let (lymphocytes) Monkeys (monocytes) Eat (eosinophils) Bananas (basophils) How do I remember the relative percentages? 60 + 30 + 6 + 3 +1 (i.e., 60% neutrophils, 30% lymphocytes, 6% monocytes, 3% eosinophils & 1% basophils) WBC Disorders Leukemia • a form of cancer characterized by uncontrollable production of abnormal WBC’s • WBC’s will attack tissues and RBC’s Mononucleosis • Caused by the Epstein Barr virus • Signs of mono include fever, sore throat, headaches, white patches on the back of your throat, swollen glands in your neck, feeling tired and not feeling hungry WBC Disorders AIDS • HIV decreases the T-Cell Count • Attacking T-Cells is like turning off the master switch to the immune system. It’s scouts cannot react and summon the armies of WBC’s to do battle • As a result, infections and disease follow Cool Flash Movie --- > HIV Infection Rates Globally 1990-1999 Platelet Functions • Clot formation • Clot is a temporary patch (platelet plug) in the walls of damaged blood vessels. This Presentation Brought to you Couresy of the Hart Foundation