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Download Blood: Chapter 16 - Madeira City Schools
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Transcript
•Blood: Chapter 16 •Functions Transporting substances between body cells and external environment • • • • Oxygen Nutrients Carbon dioxide and other wastes •Functions (cont.) • 2. Maintaining homeostasis • Body temperature • pH (blood is a buffer) • Defense mechanisms -- cleansing and clotting of wound, fighting disease •Blood composition • • • • Red blood cells White blood cells Platelets Plasma -- contains: • • • water, amino acids/proteins, carbohydrates, lipids, hormones, electrolytes, cell wastes, vitamins •Blood volume • Determined by: • • • Body size (reason for weight limit for donors) Fat tissue in body Body’s level of electrolytes and fluids •Interstitial fluid • • Extracellular fluid (fluid outside the cells) that bathes cells of tissues Flows back and forth between blood and cells, carrying nutrients and wastes • • Lymph system •Lymph system • • • • Lymph made up of interstitial fluid System fights infection and conveys immunity Connected with circulatory system Made up of lymph nodes, lymph vessels, organs such as spleen •Red blood cells • • • • • Also called erythrocytes or RBCs Biconcave disks (thin near center) Flexible and rounded No nucleus 6 micrometers in diameter (1 micrometer = 1/50th width of human hair) •RBCs -- form follows function • • • • Diconcave disks (thin near center) -- more surface area for gas exchange Flexible and rounded -- move through small capillaries better No nucleus -- more room for hemoglobin 6 micrometers -- just wide enough to go through capillaries single file • • • • Hemoglobin Protein which binds oxygen where oxygen concentration is high (lungs) Releases oxygen where concentration is low Color is bright red when it has bound oxygen •Sickle Cell Anemia •Sickle Cell Anemia • • • Recessive trait Single mutation produces hemoglobin that forms long chains in low oxygen concentration Makes cells sickle shaped •Sickle Cell Anemia (cont.) • • • • Cells no longer rounded so get stuck in capillaries Block blood flow -- very painful No cure yet Life expectancy in 40s or 50s •Carbon dioxide • • Carried in blood by reacting with water to form bicarbonate (HCO3-) (just like sodium bicarbonate -- baking soda) •Red blood cell count • • • • Smear blood on slide which has grid Use grid to estimate number of rbc’s in one cubic mm Counts reflect blood’s oxygen carrying capacity Good diagnostic tool •Red blood cell count •RBC life cycle • • • • Produced in red bone marrow Average life span -- 120 days Production rate of red blood cells controlled by negative feedback mechanism; low oxygen concentration in blood stimulates production -altitude effect on athletes red blood cells produced to replace those destroyed; total number of blood cells in body remain constant •Nutrients needed for RBC production • • • Folic acid -- for DNA Vitamin B12 -- for DNA Iron -- for hemoglobin •RBC destruction • • Destroyed by macrophages (large white blood cells) in the liver and spleen Destroyed when no longer can carry out function -- damaged, changed shape so don’t slip through capillaries as well •Recycling of iron • • Iron is removed from hemoglobin for reuse Byproduct is bilirubin which liver excretes into bile (remember the digestive system?) •Anemia • • Blood’s carrying capacity below normal Either because there are too few RBCs • or because there is too little healthy hemoglobin in each RBC •Symptoms and causes • • • • Fatigue Shortness of breath Difficulty concentrating Many possible causes • • • Nutrient deficiency (esp. iron) Blood loss/RBC destruction (sickle cell) Low RBC production or RBCs abnormal •Physiological jaundice •Physiological jaundice • • • • • Bilirubin accumulates in infant because liver not active enough to excrete it as fast as it’s produced Very common, especially in premature infants Causes yellowing of skin Treat with light therapy (esp. UV light) which breaks down bilirubin can cause brain damage if left untreated too long •Blood types • • • • A, B, AB, and O Rh factor -- either positive or negative Caused by carbohydrate antigens on surface of red blood cells (remember glycoproteins in the cell membrane?) Recognized as foreign by body if the antigens don’t match the body’s blood type •Inheritance of blood types • • • • 3 possible blood type alleles on chromosome 9 A and B are co-dominant O is recessive Rh+ is dominant •Rh factor in pregnancy • • • Rh negative mother carrying Rh positive fetus may make anti-Rh antibodies Antibodies could attack fetus More likely in subsequent pregnancies with Rh positive fetus White blood cells • • • • Aka leukocytes Different types for different functions Produced in red bone marrow and lymph system Life span depends on type, ranges from 12 hours to weeks, months, even years T-cells or T leukocytes • • White blood cell taken over by AIDS virus Important component of leukocyte mixture White blood cell counts • • Useful in diagnosis, numbers usually increase when have infectious disease DIFF = differential WBC • • • Gives percentages of each kind of white blood cell Helps with diagnosis because different diseases produce different percentages AIDS shows reduced number of T-cells White blood cell functions • • Control disease by phagocytizing microorganisms Also control microorganisms by producing antibodies • • Important role in this function played by lymphocytes Also assist in clotting by releasing histamines which increase blood flow Pus • Made up of white blood cells, dead tissue, dead invaders Leukemia • • • Cancer in bone marrow Affected marrow produces abnormal WBCs which don’t mature Abnormal cells crowd out normal WBCs so immunity is decreased Leukemia (cont.) • • • Affected marrow produces fewer RBCs and platelets -- can lead to anemia and bleeding Survival rates have improved greatly over last 40 years thanks to research; vary depending upon age of onset http://www.leukemia-lymphoma.org/all_page?item_id=9346 Platelets • • • • Thrombocytes Produced in red bone marrow (precursor cell shatters into many small platelets) No nucleus Lifespan: about 10 days Clotting • • Platelets are sticky so join together in first clot Then help form fibrin that will make a scab Terrific adaptation • • Clotting process triggered by collagen, air exposure, and substances released by injured tissue Platelets won’t normally contact air, or injured tissue or collagen (since there’s no collagen in vessel walls) UNLESS it’s time to form a clot Edema • • • Tissue swelling Water leaves plasma and goes to interstitial fluid Many causes including kidney/liver problems (electrolyte imbalance), heart failure, standing too much in hot weather, pregnancy -- can be warning sign of disease
