Human Anatomy & Physiology: MAP Chapter 17 Blood Flashcards

differentiate into macrophages

A. lymphocytes
B. neutrophils
C. monocyte
D. basophils
E. platelets

form a temporary plug at the site of bleeding

A. lymphocytes
B. neutrophils
C. monocyte
D. basophils
E. platelets

increase in number significantly during bacterial infections

A. lymphocytes
B. neutrophils
C. monocyte
D. basophils
E. platelets

play a critical role in immunity

A. lymphocytes
B. neutrophils
C. monocyte
D. basophils
E. platelets

contain the anticoagulant heparin granules

A. lymphocytes
B. neutrophils
C. monocyte
D. basophils
E. platelets

have both anti-A and anti-B antibodies

A. blood group A
B. blood group B
C. blood group AB
D. blood group O

have both antigens A and B

A. blood group A
B. blood group B
C. blood group AB
D. blood group O

have only anti-A antibody

A. blood group A
B. blood group B
C. blood group AB
D. blood group O

have the antigen A

A. blood group A
B. blood group B
C. blood group AB
D. blood group O

distribution

A. maintaining appropriate body temperature
B. preventing infection
C. delivering oxygen from the lungs

regulation

A. maintaining appropriate body temperature
B. preventing infection
C. delivering oxygen from the lungs

protection

A. maintaining appropriate body temperature
B. preventing infection
C. delivering oxygen from the lungs

water

A. produced by liver; exerts osmotic pressure to maintain water balance between blood and tissues
B. by-products of cellular metabolism (urea, uric acid)
C. involved in transport of lipids; involved in immune response
D. sodium, calcium, potassium, chloride, phosphate, sulfate
E. ninety percent of plasma volume; dissolving and suspending medium for solutes of blood

albumin

A. produced by liver; exerts osmotic pressure to maintain water balance between blood and tissues
B. by-products of cellular metabolism (urea, uric acid)
C. involved in transport of lipids; involved in immune response
D. sodium, calcium, potassium, chloride, phosphate, sulfate
E. ninety percent of plasma volume; dissolving and suspending medium for solutes of blood

globulins

A. produced by liver; exerts osmotic pressure to maintain water balance between blood and tissues
B. by-products of cellular metabolism (urea, uric acid)
C. involved in transport of lipids; involved in immune response
D. sodium, calcium, potassium, chloride, phosphate, sulfate
E. ninety percent of plasma volume; dissolving and suspending medium for solutes of blood

non-protein nitrogenous substances
A. produced by liver; exerts osmotic pressure to maintain water balance between blood and tissues
B. by-products of cellular metabolism (urea, uric acid)
C. involved in transport of lipids; involved in immune response
D. sodium, calcium, potassium, chloride, phosphate, sulfate
E. ninety percent of plasma volume; dissolving and suspending medium for solutes of blood

electrolytes
A. produced by liver; exerts osmotic pressure to maintain water balance between blood and tissues
B. by-products of cellular metabolism (urea, uric acid)
C. involved in transport of lipids; involved in immune response
D. sodium, calcium, potassium, chloride, phosphate, sulfate
E. ninety percent of plasma volume; dissolving and suspending medium for solutes of blood

porphyria

A. caused by defective synthesis of heme groups and production of nonfunctional hemoglobin molecules
B. caused by abnormal hemoglobin from a change in DNA, resulting in a change in one of the 287 amino acids
C. result from bleeding
D. results from destruction or inhibition of the red marrow by certain bacterial toxins, drugs, and ionizing radiation
E. can be a secondary result of hemorrhagic anemia, but it also results from inadequate diet or impaired absorption

hemorrhagic anemias

A. caused by defective synthesis of heme groups and production of nonfunctional hemoglobin molecules
B. caused by abnormal hemoglobin from a change in DNA, resulting in a change in one of the 287 amino acids
C. result from bleeding
D. results from destruction or inhibition of the red marrow by certain bacterial toxins, drugs, and ionizing radiation
E. can be a secondary result of hemorrhagic anemia, but it also results from inadequate diet or impaired absorption

aplastic anemia

A. caused by defective synthesis of heme groups and production of nonfunctional hemoglobin molecules
B. caused by abnormal hemoglobin from a change in DNA, resulting in a change in one of the 287 amino acids
C. result from bleeding
D. results from destruction or inhibition of the red marrow by certain bacterial toxins, drugs, and ionizing radiation
E. can be a secondary result of hemorrhagic anemia, but it also results from inadequate diet or impaired absorption

iron-deficiency anemia

A. caused by defective synthesis of heme groups and production of nonfunctional hemoglobin molecules
B. caused by abnormal hemoglobin from a change in DNA, resulting in a change in one of the 287 amino acids
C. result from bleeding
D. results from destruction or inhibition of the red marrow by certain bacterial toxins, drugs, and ionizing radiation
E. can be a secondary result of hemorrhagic anemia, but it also results from inadequate diet or impaired absorption

sickle-cell anemia

A. caused by defective synthesis of heme groups and production of nonfunctional hemoglobin molecules
B. caused by abnormal hemoglobin from a change in DNA, resulting in a change in one of the 287 amino acids
C. result from bleeding
D. results from destruction or inhibition of the red marrow by certain bacterial toxins, drugs, and ionizing radiation
E. can be a secondary result of hemorrhagic anemia, but it also results from inadequate diet or impaired absorption

Neutrophils

A. Their cytoplasm lacks visible cytoplasmic granules.
B. The most numerous of the circulating white blood cells; they stain pale lilac since the very fine granules take up both acid and basic stains.
C. Their cytoplasm contains large, coarse granules that stain purplish-black from basic dyes.
D. Their deep red nucleus has two lobes connected by a broad band of nuclear material; their large, coarse granules stain red with acid dyes.
E. Not complete cells, but fragments of cells; they are very small compared to other cellular components.

Eosinophils

A. Their cytoplasm lacks visible cytoplasmic granules.
B. The most numerous of the circulating white blood cells; they stain pale lilac since the very fine granules take up both acid and basic stains.
C. Their cytoplasm contains large, coarse granules that stain purplish-black from basic dyes.
D. Their deep red nucleus has two lobes connected by a broad band of nuclear material; their large, coarse granules stain red with acid dyes.
E. Not complete cells, but fragments of cells; they are very small compared to other cellular components.

basophils

A. Their cytoplasm lacks visible cytoplasmic granules.
B. The most numerous of the circulating white blood cells; they stain pale lilac since the very fine granules take up both acid and basic stains.
C. Their cytoplasm contains large, coarse granules that stain purplish-black from basic dyes.
D. Their deep red nucleus has two lobes connected by a broad band of nuclear material; their large, coarse granules stain red with acid dyes.
E. Not complete cells, but fragments of cells; they are very small compared to other cellular components.

Agranulocytes

A. Their cytoplasm lacks visible cytoplasmic granules.
B. The most numerous of the circulating white blood cells; they stain pale lilac since the very fine granules take up both acid and basic stains.
C. Their cytoplasm contains large, coarse granules that stain purplish-black from basic dyes.
D. Their deep red nucleus has two lobes connected by a broad band of nuclear material; their large, coarse granules stain red with acid dyes.
E. Not complete cells, but fragments of cells; they are very small compared to other cellular components.

platelets

A. Their cytoplasm lacks visible cytoplasmic granules.
B. The most numerous of the circulating white blood cells; they stain pale lilac since the very fine granules take up both acid and basic stains.
C. Their cytoplasm contains large, coarse granules that stain purplish-black from basic dyes.
D. Their deep red nucleus has two lobes connected by a broad band of nuclear material; their large, coarse granules stain red with acid dyes.
E. Not complete cells, but fragments of cells; they are very small compared to other cellular components.

Von Willebrand factor (VWF)

A. plasma minus the clotting proteins
B. catalyzes conversion of fibrinogen to fibrin strands
C. inactive form of thrombin
D. triggers the "shortcut" extrinsic mechanism that bypasses several steps of the intrinsic pathway
E. assist platelets to adhere to the collagen fibers

tissue factor (TFIII), or tissue thromboplastin

A. plasma minus the clotting proteins
B. catalyzes conversion of fibrinogen to fibrin strands
C. inactive form of thrombin
D. triggers the "shortcut" extrinsic mechanism that bypasses several steps of the intrinsic pathway
E. assist platelets to adhere to the collagen fibers

prothrombin

A. plasma minus the clotting proteins
B. catalyzes conversion of fibrinogen to fibrin strands
C. inactive form of thrombin
D. triggers the "shortcut" extrinsic mechanism that bypasses several steps of the intrinsic pathway
E. assist platelets to adhere to the collagen fibers

thrombin

A. plasma minus the clotting proteins
B. catalyzes conversion of fibrinogen to fibrin strands
C. inactive form of thrombin
D. triggers the "shortcut" extrinsic mechanism that bypasses several steps of the intrinsic pathway
E. assist platelets to adhere to the collagen fibers

serum

A. plasma minus the clotting proteins
B. catalyzes conversion of fibrinogen to fibrin strands
C. inactive form of thrombin
D. triggers the "shortcut" extrinsic mechanism that bypasses several steps of the intrinsic pathway
E. assist platelets to adhere to the collagen fibers

buffy coat

A. erythrocyte portion of centrifuged blood
B. thin, white-colored area in centrifuged blood that contains WBC and
C. the liquid portion of centrifuged blood that sits atop everything else

hematocrit

A. erythrocyte portion of centrifuged blood
B. thin, white-colored area in centrifuged blood that contains WBC and
C. the liquid portion of centrifuged blood that sits atop everything else

Plasma

A. erythrocyte portion of centrifuged blood
B. thin, white-colored area in centrifuged blood that contains WBC and
C. the liquid portion of centrifuged blood that sits atop everything else

True or False

Each hemoglobin molecule has four polypeptide chains

True or False
Eosinophils are erythrocytes that fight parasitic infection or allergic reaction.

True or False
Hemoglobin serves to transport oxygen, but NOT carbon dioxide.

True or False
Plasma contains water, proteins, nutrient molecules, and hormones.

True or False

Reticulocytes are sometimes found in circulating blood and are filled with hemoglobin and some ribosomes.

True or False

The buffy coat in centrifuged blood contains RBC and platelets.

True or False

The RBC count in both men and women is between 5.1 and 5.8 million per microliter of blood.

True or False

Vitamin D is essential for the synthesis of RBC.

True or False

When oxygen is bound to hemoglobin, it becomes oxyhemoglobin.

True or False

One of the regulatory functions of blood is to maintain normal temperatures in body tissues.

True or False

The most abundant component of plasma is protein.

True or False

Formed elements of blood include erythrocytes, leukocytes, and platelets.

True or False

Hemoglobin is the protein that makes red blood cells red.

True or False

Blood cell formation is referred to as hemostasis.

True or False

Dissolved proteins are an important part of blood clotting.

True or False

Blood is NOT important in the regulation of the body's pH.

A healthy adult male has approximately __________ liters of blood.

A) 1-2
B) 2-3
C) 3-4
D) 5-6
E) 7-8

A major plasma protein that maintains the blood osmotic pressure is __________.

A) angiotensinogen
B) fibrin
C) globulin
D) fibrinogen
E ) albumin

Diapedesis refers to __________.

A) the secretion of chemicals that trigger the inflammatory process
B) the type of movement erythrocytes use in the tissue spaces
C) the chemical attraction leukocytes use to reach the site of tissue damage
D) the engulfing of foreign bodies by leukocytes
E) the movement of leukocytes from blood vessels into tissue spaces

Granulocytes do NOT include __________.

A) basophils
B) PMNs
C) monocytes
D) neutrophils
E) eosinophils

Mature red blood cells in the circulating blood are filled with __________.

A) nuclei and all other cellular organelles
B) mitochondria
C) lysosomes
D) hemoglobin molecules
E) smooth endoplasmic reticulum

Pernicious anemia may result from __________.

A) abnormal production of hemoglobin caused by genetic defect
B) excessive bleeding
C) rupture of red blood cells caused by parasites
D) the lack of vitamin B12 in the diet or a deficiency of the intrinsic factor needed to absorb B12
E) the absence or depressed synthesis of globin chains

The final step in clot formation is __________.

A) prothrombin → thrombin
B) formation of prothrombin activator
C) fibrinogen → fibrin
D) platelet plug formation
E) the release of chemical by platelets

The most numerous leukocyte is the __________.

A) neutrophil
B) monocyte
C) lymphocyte
D) basophil
E) eosinophil

The terms biconcave and anucleated apply to __________.

A) white blood cells
B) platelets
C) leukocytes
D) red blood cells
E) thrombocytes

Which leukocyte contains histamine in its granules?

A) neutrophils
B) monocytes
C) eosinophils
D) basophils
E) lymphocytes

Which of the following is a protective function of blood?

A) preventing infection
B) transporting hormones from endocrine organs to target tissues
C) delivering oxygen from the lungs to all body tissues
D) maintaining normal body temperature
E) maintaining normal pH in the body

Which of the following statements about platelets is INCORRECT?

A) The formation of platelets is regulated by the hormone thrombopoietin.
B) Platelets are essential for the clotting process.
C) The life span of platelets is between 30 to 60 days.
D) Platelets contain serotonin, ADP, calcium, and PDGF.
E) Platelets are fragments of a larger cell called a megakaryocyte.

Which property do white blood cells have in common?

A) All WBCs are granulocytes.
B) WBCs are nucleated and have a protective function.
C) WBCs transport oxygen.
D) All WBCs have a phagocytic function.

Individuals with malaria have a better chance of surviving if they have which type of anemia?

A) iron-deficiency anemia
B) aplastic anemia
C) hemorrhagic anemia
D) sickle-cell anemia
E) renal anemia

Which of the following types of white blood cells kills parasitic worms, destroys antibody complexes, and inactivates some inflammatory chemicals of allergy?

A) neutrophils
B) eosinophils
C) lymphocytes
D) basophils
E) monocytes

Which of the following is a function of neutrophils?

A) mount immune response by direct cell attack or via antibodies
B) kill parasitic worms
C) release histamine and other mediators of inflammation
D) seal small tears in blood vessels
E) phagocytize bacteria

Which of the following is a function of erythrocytes?

A) transport oxygen and carbon dioxide
B) phagocytize bacteria
C) mount immune response
E) release histamine
D) kill parasitic worms

Which of the following is a function of basophils?

A) phagocytize bacteria
B) release histamine during allergic reaction
C) transport blood gases
D) kill parasites
E) mount immune response

Which of the following is a function of lymphocytes?

A) carry oxygen
B) destruction of virus-containing cells
C) regulate pH
D) produce albumin
E) maintain body temperature

The percentage of total volume used to determine the number of erythrocytes in a blood sample is referred to as the __________.

A) reticulocyte count
B) hematocrit
C) ESR
D) red blood cell count

The buffy coat that appears after a sample of blood has been centrifuged contains __________.

A) RBCs
B) serum
C) WBCs
D) plasma

Which of the following factors has the greatest effect on making RBCs very efficient oxygen transporters?

A) They represent most of the formed elements in the blood.
B) They carry 20% of the carbon dioxide released by tissues back to the lungs.
C) They don't contain a nucleus.
D) They generate ATP by anaerobic mechanisms and do not consume any of the oxygen they carry.

Another term for reduced hemoglobin is __________.

A) deoxyhemoglobin
B) hemoglobin S
C) oxyhemoglobin
D) carbaminohemoglobin

Which type of anemia results from the destruction or inhibition of the red marrow by drugs, chemicals, ionizing radiation, or viruses?

A) pernicious anemia
B) aplastic anemia
C) iron-deficiency anemia
D) renal anemia

The process of actively metabolizing oxygen by neutrophils to produce bleach and hydrogen to kill bacteria is known as __________.

A) chemotaxis
B) diapedesis
C) the respiratory burst
E) amoeboid movement

Which of the following substances is responsible for limiting a platelet plug to the immediate area of damage?

A) prostacyclin
B) adenosine diphosphate
C) thromboxane A2
D) serotonin

Erythroblastosis fetalis is caused by __________.

A) a loss of blood by the fetus
B) an Rh incompatibility between an Rh-negative mother and her Rh-positive baby during pregnancy
C) a malfunction of the thymus during fetal development
D) an increase in the number of erythrocytes in the newborn

Which of the following plasma expanders would be associated with the LEAST complications?

A) Ringer's solution
B) hetastarch
C) dextran
D) human serum albumin

Eighty-five percent of Americans carry the __________ Rh agglutinogen on their RBCs.

A) D
B) K
C) E
D) C

Which antibodies would be found in the serum of a person with AB blood?

A) anti-A antibodies
B) anti-B antibodies
C) neither anti-A nor anti-B antibodies
D) both anti-B and anti-A antibodies

The percentage of blood volume occupied by erythrocytes is called the __________.

A) hematocrit
B) blood volume
C) hemostat
D) buffy coat

Which of the following is NOT a role of albumin?

A) It acts as a carrier molecule.
B) It contributes to plasma osmotic pressure.
C) It serves an immune system function.
D) It acts as a blood buffer.

Which of the following is a characteristic of a mature erythrocyte?

A) It has a biconcave disc shape.
B) It has mitochondria.
C) It is composed mostly of albumin and water.
D) It has a nucleus.

One molecule of hemoglobin can bind a maximum of __________ oxygen molecules.

A) two
B) four
C) six
D) eight

Erythropoiesis is best defined as __________.

A) platelet production.
B) red blood cell production
C) leukocyte production
D) albumin production

Erythropoietin is made primarily by the __________.

A) spleen
B) pancreas
C) kidneys
D) pituitary gland

Aging red blood cells are fragmented and trapped in the __________.

A) spleen
B) intestines
C) kidneys
D) liver

A patient who lacks intrinsic factor would likely develop __________.

A) sickle-cell anemia
B) hemorrhagic anemia
C) aplastic anemia
D) pernicious anemia

The migration of white blood cells out of the capillary blood vessels is called __________.

A) diapedesis
B) transcytosis
C) leukocytosis
D) active transport

Neutrophil

A) the most numerous type of white blood cell
B) bilobed nucleus and dark-staining cytoplasmic granules
C) small agranulocyte with a lifespan that varies from a few hours to decades
D) has a role in killing parasitic worms
E) highly phagocytic cell with a U or kidney shaped nucleus

Macrophage

A) the most numerous type of white blood cell
B) bilobed nucleus and dark-staining cytoplasmic granules
C) small agranulocyte with a lifespan that varies from a few hours to decades
D) has a role in killing parasitic worms
E) highly phagocytic cell with a U or kidney shaped nucleus

Basophil

A) the most numerous type of white blood cell
B) bilobed nucleus and dark-staining cytoplasmic granules
C) small agranulocyte with a lifespan that varies from a few hours to decades
D) has a role in killing parasitic worms
E) highly phagocytic cell with a U or kidney shaped nucleus

Lymphocyte

A) the most numerous type of white blood cell
B) bilobed nucleus and dark-staining cytoplasmic granules
C) small agranulocyte with a lifespan that varies from a few hours to decades
D) has a role in killing parasitic worms
E) highly phagocytic cell with a U or kidney shaped nucleus

Eosinophil

A) the most numerous type of white blood cell
B) bilobed nucleus and dark-staining cytoplasmic granules
C) small agranulocyte with a lifespan that varies from a few hours to decades
D) has a role in killing parasitic worms
E) highly phagocytic cell with a U or kidney shaped nucleus

Which of the following is considered a type of lymphocyte?

A) basophil
B) B cell
C) neutrophil
D) macrophage

Overproduction of white blood cells is called __________.

A) leukopenia
B) polycythemia
C) leukocytosis
D) leucopoiesis

Platelets are derived from __________.

A) band cells
B) megakaryocytes
C) lymphocytes
D) monocytes

Which of the following shows the correct sequence of hemostasis from start to end?

A) vascular spasm, platelet plug formation, coagulation
B) vascular spasm, coagulation, platelet plug formation
C) platelet plug formation, vascular spasm, coagulation
D) coagulation, vascular spasm, platelet plug formation

Which of the following is true regarding the extrinsic pathway of blood clotting?

A) The extrinsic pathway is triggered by tissue factor.
B) The extrinsic pathway does not involve calcium ions.
C) The extrinsic pathway is slower than the intrinsic pathway of blood clotting.
D) The extrinsic pathway is independent of procoagulants.

heparin

A) converts fibrinogen to fibrin
B) generates thrombin
C) fibrin-digesting enzyme
D) inhibits coagulation
E) stimulates blood vessel healing

Thrombin

A) converts fibrinogen to fibrin
B) generates thrombin
C) fibrin-digesting enzyme
D) inhibits coagulation
E) stimulates blood vessel healing

prothrombin activator

A) converts fibrinogen to fibrin
B) generates thrombin
C) fibrin-digesting enzyme
D) inhibits coagulation
E) stimulates blood vessel healing

plasmin

A) converts fibrinogen to fibrin
B) generates thrombin
C) fibrin-digesting enzyme
D) inhibits coagulation
E) stimulates blood vessel healing

platelet-derived growth factor

A) converts fibrinogen to fibrin
B) generates thrombin
C) fibrin-digesting enzyme
D) inhibits coagulation
E) stimulates blood vessel healing

True or False

A free-floating blood clot is called a thrombus.

Blood type is determined by __________.

A) antibodies present in the plasma
B) glycoproteins present in the plasma
C) glycoproteins present on the surface of erythrocytes
D) antibodies present on the surface of erythrocytes

True or False

Hemolytic disease of the newborn (HDN) can develop when an Rh+ woman is pregnant with an Rh- baby.

would make antibodies to the A agglutinogen but not the B agglutinogen

A) person with type B blood
B) person with type A blood
C) person with type O blood
D) person with type AB blood

would make antibodies to the B agglutinogen but not the A agglutinogen

A) person with type B blood
B) person with type A blood
C) person with type O blood
D) person with type AB blood

would have type A and B agglutinogens

A) person with type B blood
B) person with type A blood
C) person with type O blood
D) person with type AB blood

would make antibodies to the A and B agglutinogens

A) person with type B blood
B) person with type A blood
C) person with type O blood
D) person with type AB blood

Choose the true statement about fetal hemoglobin.

A) Fetal hemoglobin has a higher affinity for oxygen than does adult hemoglobin.
B) Fetal hemoglobin contains four alpha chains.
C) Fetal hemoglobin is produced until the baby is one year old.
D) Fetal hemoglobin is called hemoglobin A.