chapter 11

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How long do platelets circulate before being removed by phagocytes? A) 9-12 days B) 6-18 hours C) 2-3 days D) 4-8 weeks E) 1-2 months

9-12 days

Which of the following is an agranulocyte? A) erythrocyte B) basophil C) neutrophil D) eosinophil E) monocyte

monocyte

Which disease is characterized by defective hemoglobin that results from a mutation affecting the amino acid sequence of one pair of the globular proteins of the hemoglobin molecule resulting in stiff, markedly curved red blood cells? A) sickle cell anemia B) thalassemia C) hematuria D) jaundice E) aplastic anemia

sickle cell anemia

Platelets are A) giant, multinucleated cells. B) cellular fragments. C) immature leukocytes. D) fixed macrophages. E) surface antigens.

cellular fragments

Formed elements that are nucleated and capable of amoeboid movement are A) leukocytes. B) chondrocytes. C) thrombocytes. D) erythrocytes. E) melanocytes.

leukocytes

The average life span of a red blood cell is about A) 1 week. B) 1 month. C) 4 months. D) 6 months. E) 1 year.

4 months

________ directly stimulates red blood cell production. A) Intrinsic factor B) Thyroxine C) EPO D) Vitamin B12 E) GH

EPO

Bill wants to determine his blood type, so he takes a few drops of blood from a puncture wound in his finger and mixes it with various antisera. His blood cells agglutinate when mixed with the anti-A serum and anti-Rh serum, but not with the anti-B serum. This means A) Bill could receive type B blood in a transfusion. B) Bill could donate blood to an individual with type AB blood. C) Bill is Rh-negative. D) Bill's plasma would cross-react with type O negative red blood cells. E) Bill's plasma contains anti-B antibodies.

Bill's plasma contains anti-B antibodies.

Plasma proteins that are necessary for blood to maintain osmotic pressure are A) albumins. B) fibrinogens. C) globulins. D) fibrin. E) platelets.

albumins

During the recycling of hemoglobin, what is the breakdown product of the globular proteins of each hemoglobin molecule? A) amino acids B) stercobilins C) bilirubin D) transferrin E) urobilins

amino acids

________ is a condition in which the oxygen-carrying capacity of RBCs is reduced. A) Erythropoiesis B) Lymphopoiesis C) Anemia D) Leukopenia E) Leukemia

anemia

Agglutinins A) are surface antigens on RBCs. B) prevent blood clotting. C) are substances that can trigger a protective defense mechanism called an immune response. D) are antibodies that will attack surface antigens on RBCs of a different blood type. E) contain abundant stained "granules."

are antibodies that will attack surface antigens on RBCs of a different blood type.

The function of hemoglobin is to A) bind and transport oxygen and carbon dioxide. B) protect the body against pathogens. C) aid in the process of blood clotting. D) carry nutrients from the intestine to the body's cells. E) absorb and neutralize the acids generated by active tissues

bind and transport oxygen and carbon dioxide

________ is the characteristic of WBCs that allow them to enter surrounding tissue by squeezing between adjacent epithelial cells in the capillary wall. A) Hemotaxis B) Positive chemotaxis C) Hemolysis D) Diapedesis E) Amoeboid movement

diapedesis

Erythropoietin is most likely released under which of the following conditions? A) during anemia B) when the respiratory surfaces of the lungs are optimally enhanced C) when the carbon dioxide content of air in the lungs declines D) during erythrocytosis E) when blood flow to the thymus declines

during anemia

During their formation, RBCs A) flatten. B) multiply their mitochondria. C) eject their nucleus. D) are saturated with oxygen. E) recycle hemoglobin into iron and pigment molecules

eject their nucleus.

A drifting blood clot, air bubble, or fat globule is called A) thrombus. B) plaque. C) clotting factor. D) embolus. E) hemostatic element.

embolus

) Formation of red blood cells is called A) thrombopoiesis. B) leukocytosis. C) leukopoiesis. D) erythropoiesis. E) erythrocytosis.

erythropoiesis

Plasma and interstitial fluid account for most of the volume of ________ in the body. A) serum B) lymphatic fluid C) whole blood D) extracellular fluid E) packed blood

extracellular fluid

A hemoglobin molecule contains A) three protein chains, four heme groups, and two iron ions. B) two protein chains, two heme groups, and four iron ions. C) four protein chains, two heme groups, and two iron ions. D) four protein chains, four heme groups, and four iron ions. E) four protein chains, six heme groups, and two iron ions.

four protein chains, four heme groups, and four iron ions.

The percentage of whole blood volume occupied by formed elements is called A) normovolemic. B) reticulocyte count. C) hematocrit. D) hemoglobin concentration. E) differential count.

hematocrit.

Red blood cells result from the divisions of cells called A) hemocytoblasts. B) lymphoblasts. C) monoblasts. D) myeloblasts. E) progenitor cells.

hemocytoblasts

When foreign cells invade the body, one would most likely expect to see increased numbers of A) erythrocytes. B) eosinophils. C) basophils. D) lymphocytes. E) thrombocytes.

lymphocytes

Thrombocytopenia is defined as a deficiency of A) antibodies. B) erythrocytes. C) platelets. D) eosinophils. E) neutrophils.

platelets

In adults, the stem cells responsible for the production of red and white blood cells originate primarily in the A) liver. B) thymus. C) spleen. D) red bone marrow. E) yellow bone marrow

red bone marrow

A blood clot attached to the wall of a vessel is called a(n) A) embolus. B) thrombus. C) plaque. D) coagulant. E) platelet plug

thrombus

1) The term ________ refers to the combination of plasma and the formed elements together. A) whole blood B) hematocrit C) thrombocyte D) hemopoiesis E) packed cell volume

whole blood

The primary function of white blood cells is to A) remove carbon dioxide from active cells. B) clump together and stick to the blood vessel walls. C) carry oxygen from the lungs to the body's cells. D) carry nutrients from the digestive system to the body's cells. E) help defend the body against pathogens.

help defend the body against pathogens.

When large numbers of RBCs break down in the circulation, the urine can turn reddish or brown in a condition called A) sickle cell anemia. B) hemoglobinuria. C) pernicious anemia. D) leucopenia. E) septicemia.

hemoglobinuria.

The inherited condition resulting from the inadequate production of clotting factors is termed A) anemia. B) thalassemia. C) jaundice. D) hemophilia. E) leukopenia.

hemophilia.

A sample of tissue from an injury shows a large number of eosinophils. This would indicate that the tissue was A) abscessed. B) inflamed. C) being rejected. D) infected by viruses. E) infected by parasites

infected by parasites

Which condition results from abnormally high levels of bilirubin in the plasma of blood? A) hematuria B) hypoxia C) hemoglobinuria D) jaundice E) thalassemia

jaundice

________ are large phagocytic WBCs that remain in circulation for only about 24 hours before entering peripheral tissues to become tissue macrophages. A) Neutrophils B) Eosinophils C) Basophils D) Lymphocytes E) Monocytes

monocytes

The most abundant type of WBC in a normal blood sample is the A) basophil. B) neutrophil. C) lymphocyte. D) eosinophil. E) monocyte.

neutrophil

Which of the following are the most active type of leukocytes, phagocytically, and are usually the first to arrive at an injury site? A) neutrophils B) eosinophils C) basophils D) lymphocytes E) erythrocytes

neutrophils

What is the chief difference between plasma and serum? A) amount of water B) quantity of electrolytes C) quantity of organic wastes D) presence/absence of clotting proteins E) concentration of glucose

presence/absence of clotting proteins

During red blood cell development, what is the term given to the first anucleate cell? A) reticulocyte B) erythrocyte C) myeloid stem cell D) hemocytoblast E) proerythroblast

reticulocyte

Agglutinogens of the various blood types are examples of A) surface antibodies. B) channel proteins. C) leukocytes. D) surface antigens. E) agranulocytes.

surface antigens

Neutrophils A) are agranulocytes. B) are not phagocytic. C) have multiple nuclei. D) are active in fighting bacterial infection. E) are responsible for specific defenses.

are active in fighting bacterial infection

Blood is approximately ________ percent plasma by volume. A) 46-63 B) 37-54 C) 12-33 D) 25-39 E) 99.9

46-63

For erythropoiesis to proceed normally, protein synthesis requires adequate supplies of factors, such as vitamin B12, which is absorbed from the diet in the presence of which of the following? A) thyroxine B) intrinsic factor C) Factor X D) platelet factor E) EPO

intrinsic factor

Excess transferrins are removed in the ________, where the iron extracted from heme molecules is stored in special protein-iron complexes. A) liver and thymus B) liver and spleen C) thymus and bone marrow D) spleen and bone marrow E) thymus and spleen

liver and spleen

The white blood cells that are important in leaving the blood vessels and phagocytizing large materials, releasing chemicals that draw fibroblasts to the injured areas, are A) neutrophils. B) eosinophils. C) basophils. D) lymphocytes. E) monocytes

monocytes

The least numerous white blood cells in peripheral circulation are the A) neutrophils. B) eosinophils. C) basophils. D) lymphocytes. E) monocytes.

basophils

The process of blood clotting is an example of which function of blood? A) stabilizing body temperature B) transporting dissolved gases, nutrients, hormones, and metabolic wastes C) defending against toxins and pathogens D) regulating the pH and ion composition of interstitial fluids E) restricting fluid losses at injury sites

restricting fluid losses at injury sites

A person's blood type is determined by the A) size and shape of red blood cells. B) number of antibodies in the plasma. C) chemical character of hemoglobin. D) presence or absence of specific surface antigens on the plasma membrane. E) type of oxygen- and carbon dioxide-binding sites on the hemoglobin molecules.

presence or absence of specific surface antigens on the plasma membrane.

A normal WBC count is about ________ cells per microliter. A) 1,500-4,000 B) 1,800-7,300 C) 5,000-10,000 D) 150,000-500,000 E) 4.4 million-6 million.

5,000-10,000

Without mitochondria, RBCs are relatively inefficient in terms of energy production. However, there is an advantage to RBC function. What is this advantage? A) It ensures that its iron component will interact with the plasma protein transferrin. B) It stimulates the conversion of yellow bone marrow to red bone marrow. C) It stimulates the absorption of vitamin B12. D) It ensures that its iron component is converted to bilirubin. E) It ensures that any oxygen the RBCs absorb will be delivered to peripheral tissues.

It ensures that any oxygen the RBCs absorb will be delivered to peripheral tissues.

Which cell population of WBCs migrate to sites of injury and cross the capillary wall to accumulate within damaged tissues, where they discharge their granules into the interstitial fluids? A) monocytes B) eosinophils C) basophils D) lymphocytes E) neutrophils

basophils

Which organ synthesizes more than 90 percent of plasma proteins? A) kidney B) spleen C) liver D) bone marrow E) thymus

liver

Platelets A) are phagocytic. B) are a major component of the vascular clotting system. C) are a component of the unformed elements of blood. D) are lymphocytes. E) have multi-lobed nuclei.

are a major component of the vascular clotting system.

In the process of hemoglobin recycling, each heme molecule is stripped of its iron and converted to which pigmented organic compound? A) urobilin B) bilirubin C) stercobilin D) transferrin E) biliverdin

biliverdin

________ are the most abundant cell population of the formed elements of blood. A) Erythrocytes B) Platelets C) Neutrophils D) Lymphocytes E) Monocytes

Erythrocytes

As blood flows through peripheral tissues, what occurs regarding the hemoglobin molecules of RBCs? A) Hemoglobin binds oxygen and releases its bound carbon dioxide. B) Hemoglobin releases carbon dioxide and oxygen. C) Hemoglobin binds oxygen and carbon dioxide. D) Hemoglobin binds carbon dioxide and releases its bound oxygen. E) Hemoglobin gains an increase in its oxygen-carrying capacity.

Hemoglobin binds carbon dioxide and releases its bound oxygen.

2) Fresh whole blood is usually collected through a procedure called A) acupuncture. B) transfusion. C) venipuncture. D) arterial puncture. E) hematocrit.

Venipuncture

Why might women be more prone to suffering from iron-deficient anemia than men? A) Women require about 50% more heme units per hemoglobin. B) Hemoglobin molecules break down more readily in women. C) Women have approximately half as many iron reserves. D) The RBCs in women have a shorter lifespan. E) Women absorb less iron from their diet.

Women have approximately half as many iron reserves.

Type AB blood contains A) A agglutinins on the red blood cells. B) agglutinogen A and agglutinogen B. C) B agglutinogens on the red blood cells. D) B agglutinins in the plasma. E) agglutinin A and B.

agglutinogen A and agglutinogen B.

Which of the following represents the correct sequence of stages in RBC maturation? A) stem cell, erythroblast, proerythroblast, reticulocyte, RBC B) hemocytoblast, myeloblast, reticulocyte, megakaryocyte, RBC C) myeloid stem cell, proerythroblast, erythroblast, reticulocyte, RBC D) monoblast, promonocyte, myelocyte, band cell, RBC E) lymphoblast, proerythroblast, reticulocyte, band cell, RBC

myeloid stem cell, proerythroblast, erythroblast, reticulocyte, RBC

Pus associated with infected wounds contains which type of white blood cell? A) basophils B) lymphocytes C) eosinophils D) monocytes E) neutrophils

neutrophils

EPO is released when A) oxygen levels in the blood increase. B) oxygen levels in the blood decrease. C) carbon dioxide levels in the blood increase. D) carbon dioxide levels in the blood decrease. E) protein levels in the blood increase.

oxygen levels in the blood decrease

In blood smear preparations, blood is collected from which type of vessel? A) veins B) peripheral capillaries C) arteries D) lymphatic ducts E) venules

peripheral capillaries

A toxin that blocks the stomach's ability to release intrinsic factor would most likely cause A) hemophilia. B) an embolism. C) leukopenia. D) iron deficiency anemia. E) pernicious anemia.

pernicious anemia.


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