Blood Components and Blood Tests Chapter 12 Components
Blood Components and Blood Tests Chapter 12
Components of Blood • 5. 5 liters in an average adult What are the main components of blood? • 2 main components: 1. Plasma: – Straw-colored liquid 2. Formed elements: – Dark-red and buff colored
What Parts Make Up the Formed Elements? 1. Red blood cells (RBCs) • Aka erythrocytes “erythro”=red 2. White blood cells (WBCs) • Leukocytes “leuko”= white 3. Platelets • thrombocytes
Percentages of Particles in Blood
Blood Plasma • • • 92% water 7% proteins. . Albumin, globulin, fibrinogen Wastes Electrolytes Nutrients, vitamins, hormones Gases… oxygen, carbon dioxide, nitrogen
Red Blood Cells • Biconcave disc, for more surface area • Smaller then WBCs • Anucleated– no nucleus when mature Contain hemoglobin: What is the role of hemoglobin (in RBCs)? • A large molecule use to transport oxygen and carbon dioxide in the blood • Red pigment= heme • 4. 5 -5 million RBCs per microliter of blood • Lower amounts in females than males
Characteristics of WBCs • Have nucleus • Larger than RBCs • 5 kinds that are divided up into granular and agranular What is the difference? • Granular have “dots” that can be seen with staining, agranular “dots” cannot be seen • “agranular” because old microscopes were not powerful enough to see the stains
What are the Types of WBCs? • • Granular: Neutrophils – phagocytes –engulf bacteria Eosinophils– kill parasites, allergic reaction Basophils– release heparin, allergic reaction • Agranular: • Lymphocytes– immune functions, antibodies… T-cells and B-cells • Monocytes– phagocyte, engulf dead RBCs
Platelets • Thrombocytes • 130, 000 -360, 000 per microliter • Help close breaks in damaged blood vessels, clots blood • Cells ½ size of RBC • anucleated
Antigens and Antibodies • Agglutination– clumping of RBCs following a blood transfusion • Antigens– chemicals (surface of RBC) that stimulate B-cells (lymphocytes) to produce antibodies • Different blood types have different antigens, and during blood transfusions, can cause a agglutination due to antigen/antibody reaction • Blood types are hereditary
ABO Blood Groups / 4 Blood. Types 1. Type A– (antigen A) – person will produce anti-B antibodies 2. Type B—(antigen B)– person will produce anti-A antibodies 3. Type AB– (antigen A and B) – no antibodies produced 4. Type O – (no antigen A or B). . Person produces both and A and B antibodies
Can blood type A receive type AB? Can blood type AB receive type O? Can blood type AB receive type A? In US, type O, 47%. . . Type A, 41%. . . Type B, 9%. . . Type AB, 3%
Rh Blood Group • Named after Rhesus monkey in which it was first studied • if RBC has the Rh antigen, then it is Rhpositive • If RBC does NOT have Rh antigen, then it is Rh-negative • Anti-Rh antibodies do not appear spontaneously, only after being exposed
Rh incompatibility Mother to Child • If an Rh-negative mother has an Rhpositive child • The mother will build up anti-Rh antibodies in response • The next time she has a Rh-positive child, her immune system (anti-Rh antibodies) will attack Rh-positive fetal red blood cells • Called Erythroblastosis fetalis
Rh Incompatibility… Erythroblastosis fetalis. Infant may be anemic, brain damaged, or die
Blood Types • AB+ • AB- rarest type in U. S. • A+ • A • B+ • B • O+ most common in U. S. • OWhich is considered the universal donor? Which is considered the universal recipient?
AA AO BB BO AB OO AA AA AA OR AO AB AB OR AO AA OR AB AO AO AA OR AO OR OO AB OR BO AB OR AO OR BO OR OO AA OR AB OR AO OR BO AO OR OO BB AB AB OR BO BB BB OR BO AB OR BB BO BO AB OR AO OR BO OR OO BB OR BO OR OO AB OR AO OR BB OR BO BO OR OO AB AA OR AO OR AB OR BO AB OR BB AB OR AO OR BO AA OR AB OR BB AO OR BO OO AO AO OR OO BO BO OR OO AO OR BO OO
Rh factor probability
Blood type Probability 1. Father is Blood type A-, mother O+. Is O+ a possible blood type for child? 2. Mother is blood type AB-, Father is O+. Is B- a possible blood type for this child? 3. Mother is AB+, father is B+. Is A+ a possible blood type for this child? Which of the above could cause future complications for births? Explain your answer.
Blood Disorders
Sickle-Cell Anemia • Hereditary • Affects mostly African. Americans, Middle. Easterners • 2 genes causes the red blood cells to be sickle shaped and not round • Produce abnormal hemoglobin • Cells clump together • Organs can’t get oxygen they need
Polycythemia • Abnormally high red blood cells • One symptom is generalized itching when in warm water (due to histamines) • Untreated this can lead to heart attack or stroke
Anemia • Abnormally low RBC count • One of the most common blood disorders • Can cause fatigue and stress to body organs • Low iron, usually
Leukemia • Cancer that starts in blood forming tissue and causes large numbers of white blood cells to be produced and released into the bloodstream– immature and not functioning properly • 22, 000 deaths a year from leukemia
Normal Human Blood
Bovine Blood
Camel Blood
Cat Blood
Bird Blood
Limulus blood
Reptile blood
Frog Blood
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