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Circulation

Circulation. Chapter 23. Facilitating Exchanges. Circulatory systems ensure O2, CO2, nutrients, and wastes get to their specific sites in the body Important for animals to large to survive by diffusion alone

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Circulation

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  1. Circulation Chapter 23

  2. Facilitating Exchanges • Circulatory systems ensure O2, CO2, nutrients, and wastes get to their specific sites in the body • Important for animals to large to survive by diffusion alone • Cnidarians and flatworms have gastrovascular cavities that serve in digestion and distribution • Cells can exchange directly with water surrounding them • Animals with multiple layers of cells need a true circulatory system • Muscular pump (heart) and circulatory fluid (blood)

  3. Molecular Exchange • O2 and nutrients must enter cells • CO2 and wastes must exit • Larger organisms have smaller outer surfaces than inner • All cells must be in an aqueous environment • Folds and alternate structures within to facilitate

  4. Circulatory Systems • Direct exchange not between blood and body cells • Cells bathed in interstitial fluid that diffusion must pass • Open circulatory system • Many invertebrates including molluscs and all arthropods • Closed circulatory system • Often called a cardiovascular system • Earthworms, squids, octopuses, and vertebrates

  5. Open Circulatory System • Fluid pumped through open-ended vessels out to cells • No distinction between blood and interstitial fluid • Body movements circulate fluid to allow exchange • Heart with pores that allows fluid return and prevents backflow • Respiratory exchange through tracheal system

  6. Cardiovascular System • Blood confined to vessels • Separate from interstitial fluid • 3 kinds of vessels • Arteries (red) blood Away from heart • Veins (blue) blood to heart • Capillaries transport blood between the 2 • Heart with atrium and ventricle pumps blood to body cells • Arteries to arterioles to capillaries in capillary beds to venules to veins back to heart

  7. Cardiovascular System Evolution • Single Circuit pumps blood to capillaries which diffuses to body tissues • Double circulation pumps blood a second time after losing pressure in the capillaries • Pulmonary circuit carries blood between the heart and lungs • Systemic circuit carries blood between the heart and rest of the body

  8. Single Circuit • 2 chambered heart • Blood to gill capillaries where pressure is reduced considerably • Flow maintained by organism’s movements • Pressure to low for complex circulation

  9. Double Circulation • Amphibians have 3 chambered heart • Pulmocutaneous circuit because gas exchange in lungs and across skin • Mixing occurs, but most blood to proper location • Birds and mammals have 4 chambered hearts • Supports higher metabolic rates • Different ancestral evolution so demonstrates convergent evolution

  10. Human Cardiovascular System • R. ventricle to lungs via pulmonary arteries • CO2 and O2 exchange • Pulmonary veins back to L. atria to L. ventricle • Through aorta to systemic circuit • Branches to upper body and lower body separately • O2 poor blood back to R. ventricle via S. and I. vena cava (heart to lungs to heart to body tissue to heart)

  11. Cardiac Cycle • Sequence of pumping and filling of the heart • Heart pumps O2 poor blood to lungs and O2 rich blood to body • Diastole=entire heart relaxed, ventricles fill with blood • Systole=atria then ventricle contraction • Left stronger because blood to body, but volume is same in both sides=cardiac output

  12. The Beating Heart • Heart rate and cardiac rhythm can vary • Age and fitness can effect • Both increase with increasing activity levels • Blood flow controlled by internal valves • Open when pushed from behind and close when pushed from in front • Heart beat sounds = lub-dub • AV and semilunar valves’ closing respectively • Heart murmur sound when blood squirts backwards

  13. Beating to its Own Rhythm • Cardiac muscle tissue cycle without neural input • Pacemaker sets the contraction rate • AV node coordinates, delay to ventricle • Electric shock can be used to reset pacemaker during a heart attack • Artificial pacemaker when self system fails

  14. Cardiovascular disease • Disorders of heart and blood vessels • Heart attack is the damage or death of cardiac tissue from blockage of coronary arteries • Stroke is death of brain tissue from vessel blockage to the head • Most caused by arterosclerosis, or plaque build up, which narrows vessel openings • Clots trapped or blood flow is slowed • Anti-inflammatories, angioplasty, and clot-dissolving • Tendency to be inherited, but smoking can increase while exercise and low cholesterol diets can decrease

  15. Blood Vessel Functions • Must connect with all body tissues • Remarkable length, close enough for diffusion to occur • Into interstitial fluid first • Transport blood, nutrients, and wastes to disposal organs • Role in homeostasis and the environment of cells

  16. Blood Vessel Structure • Capillaries • Thin walls of single layer epithelial tissue • Wrapped in a basal lamina • Larger structures • Same epithelial structure, but reinforced • Supported by elastic fiber layer and smooth muscle • Arteries and arterioles • Thicker and sturdier to accommodate high pressure from heart • Veins and venules • Blood to heart at lower pressure • One way valves to prevent backflow

  17. Blood Flow • Blood pressure is the force blood exerts against vessel walls • Pumped to arteries faster than it can flow = stretching of vessels, detected as pulse • Pressure reduces from arteries to capillaries as resistance from vessel walls decreases • Smaller, but more numerous vessels • Relaxing muscles allows vessel dilation = drop pressure • Pressure almost zero at veins • 1 way valves and muscle to propel back to heart

  18. Digestive System Muscle Control • Every part of body has blood supply at all times • Certain areas always full, others are rationed by need • Smooth muscle controls arteriole flow • Precapillary sphincters control • Thoroughfare channel is always open • Relaxed vs. contracted While eating While exercising

  19. Capillaries • Only vessels that can allow diffusion between blood and interstitial fluid • Exchange of substances by diffusion (O2 and CO2), carried by endocytosis and released by exocytosis, or leaks in wall (water, sugars, and salts) • Direction of movement depends on osmotic and blood pressure differences • Arteriole end blood pressure drives fluid out of capillary • Venous end blood pressure drops so osmotic drives into • Fluid that leaves one end generally reenters at other • Rest returned via lymphatic system

  20. Blood Composition

  21. RBC Count • Set number needed for healthy organisms • Broken down and recycled every 3-4 months • Fe returned to bone marrow to form new RBCs • Low RBC count = anemia • Excessive tiredness due to lack of O2 • Most commonly due to low Fe (women more likely); also blood loss, vitamin and mineral deficiency, or cancers • Negative feedback sensitive to O2 • Low O2, kidneys produce erthropoietin (EPO) to stimulate bone marrow production of RBCs • Increased RBC production in individuals at high altitudes • Connections to athletic training, blood doping, and artificial EPO injections

  22. Blood Clots • Blood platelets and plasma protein fibrinogen prevent death from minor cuts, enable clotting • Upon damage vessel constricts to reduce blood loss • Platelets adhere to epithelium and form a sticky plug to halt blood loss • Clotting factors released from plug to form reinforced patch • Fibrinogen converted to fibrin which traps other blood cells

  23. Stem Cells • Unspecialized cells in red marrow of bones that can differentiate into different blood cells • Lymphoid stem cells produce lymphocytes for immune system • Myeloid stem cells produce RBCs, WBCs, and plaelets • Formed in early embryo and make all blood cells for life

  24. Leukemia • Cancer of white blood cells or leukocytes • Protect against infections and cancers • Cells become cancerous, grow uncontrollably, and crowd RBCs and platelets • Severe anemia and impaired clotting results • Usually fatal unless treated • Not all responsive to radiation and chemo • Bone marrow transplant, often from a sibling • Lifelong treatment with drugs to avoid rejection of cells • Can treat infected marrow to remove most cancer cells and re-inject • Umbilical cord blood has potential, but unsuccessful so far

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