Term
Which of the following are not required for clot formation? (1) vitamin K, (2) calcium, (3) prostacyclin, (4) plasmin, (5) fibrinogen.
A. 1,2, and 5
B. 3,4, and 5
C. 4 and 5
D. 1, 2, and 3
E. 3 and 4 |
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Definition
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Place the steps involved in hemostasis in the correct order. (1) conversion of fibrinogen into fibrin, (2) conversion of prothrombin into thrombrin, (3) adhesion and aggregation of platelets on damaged vessel, (4) prothrombinase formed by extrinsic or intrinsic pathway, (5) reduction of blood loss by initiation of vascular spasm.
A. 5,3,4,2,1
B. 5,4,3,1,2
C. 3,5,4,2,1
D. 5,3,2,1,4
E. 5,3,2,4,1 |
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Definition
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Which of the following statements explain why RBCs are highly specialized for oxygen transport? (1) RBCs contain hemoglobin. (2) RBCs lack a nucleus. (3) RBCs have many mitochondria and thus generate ATP aerobically. (4) The biconcave shape of RBCs provides a large surface area for the inward and outward diffusion of gas molecules. (5) RBCs can carry up to four oxygen molecules for each hemoglobin molecule.
A. 1,2,3, and 5
B. 1,2,4, and 5
C. 2,3,4, and 5
D. 1,3,and 5
E. 2,4, and 5 |
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Definition
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Which of the following are true? (1) WBCs leave the bloodstream by emigration. (2) Adhesion molecules help WBCs stick to the endothelium, which aids emigration. (3) Neutrophils and macrophages are active in phagocytosis. (4) The attraction of phagocytes to microbes and inflamed tisue is termed chemotaxis. (5) Leukopenia is an increase in WBC count that occurs during infection.
A. 1,2,4, and 5
B. 2,3,4, and 5
C. 1,2,3, and 4
D. 1,3, and 5
E. 1,2, and 4 |
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Definition
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A person with type A Rh- blood can receive a blood transfusion from which of the following types? (1) A Rh+, (2) B Rh-, (3) AB Rh-, (4) O Rh-, (5) A Rh-.
A. 1 only
B. 3 only
C. 4 only
D. 4 and 5
E. 1 and 5 |
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Definition
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A person with type B positive blood receives a transfusion of type AB positive blood. What will happen?
A. The receipient's antibodies will react with the donor's red blood cells.
B. The donor's antigens will destroy the recipient's antibodies.
C. The donor's antibodies will react with and destroy all of the recipient's red blood cells.
D. The recipient's blood type will change from Rh+ to Rh-.
E. These blood types are compatible, and the transfusion will be accepted.
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Definition
| A. The receipient's antibodies will react with the donor's red blood cells. |
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Term
What happens to the iron (Fe3+) that is released during the breakdown of damaged red blood cells?
A. It is used to synthesize proteins
B. It is transported ot the liver where it becomes part of bile.
C. It is converted into urobilin and excreted in urine.
D. It attaches to transferrin and is transported to bone marrow for use in hemoglobin synthesis.
E. It is utilized by intestinal bacteria to convert bilirubin into urobilinogen. |
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Definition
| D. It attaches to transferrin and is transported to bone marrow for use in hemoglobin synthesis. |
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Term
Which of the following would not cause and increase in erythropoietin?
A. Anemia
B. High Altitude
C. Hemorrhage
D. Donating Blood To A Blood Bank
E. Polycythemia |
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Definition
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Term
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Definition
| Contain hemoglobin and function in gas trasport |
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Term
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Definition
| Cell fragments enclosed by a piece of the cell membrane of megakaryocytes; contain clotting factors |
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Term
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Definition
| White blood cell showing a kidney-shaped nucleus; capable of phagocytosis |
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Definition
| Monocytes that roam the tissues and gather at sites of infection or inflammation |
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Term
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Definition
| Occur as B cells, T cells, and and natural killer cells |
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Term
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Definition
| Give rise to red blood cells, monocytes, neutrophils, eosinophils, basophils, and platelets |
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Term
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Definition
| Cells that give rise to all the formed elements of blood; derived from mesenchyme |
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