Chapter 19, Chapter 19: Blood,

EPO

-AKA Erythropoietin -Comes from kidney -Red blood cell formation -Occurs in red bone marrow or myeloid tissue -Stimulated directly by peptide hormone erythropoietin and indirectly by other hormones.

White Blood Cell Movement Characteristics

-All can migrate out of the blood stream -All are capable of Amoeboid Movement -All are attracted to specific chemical stimuli -Neutrophils, Eosinophils, and Monocytes are capable of phagocytosis.

Lymphocyte Functions

-B lymphocytes develop plasma cells and secrete antibodies. -T lymphocytes kill foreign cells. Organize immune response. -Natural Killer/NK cells. Detect and destroy abnormal tissue cells/cancer.

Red Blood Cell Structure

-Biconcave Disc Shape with a thin central region and thicker outer margin. -No nucleus

Neutrophil

-Leukocyte->Granulocyte -Multilobed nucleus with small pink granules.

3 Components of Centrifuged Blood

-Plasma floats because it is lighter. -Buffy coat: thin layer in the middle. -Red blood cells are heavier due to the iron concentration and are at the bottom of the tube.

Transporting functions of blood

-Respiratory gases -Hormones -Nutrients -Metabolic waste

Blood typing importance

-recipient/donor compatibility -Rh factor and hemolytic disease of the newborn -Can exclude suspects from crime scenes -Determine paternity

What amount of formed elements is platelets and white blood cells in percentage?

0.1%

What percentage are other solutes?

1%

What percentage are regulatory proteins?

1%

Which three classes of lymphocytes are the primary cells of the lymphoid system?

1) T cells 2) B cells 3) NK cells

What four characteristics of white blood cells are important to their response to tissue invasion or injury?

1) ameboid movement, a gliding movement that transports the cell 2) emigration, squeezing between adjacent endothelial cells in the capillary wall 3) positive chemotaxis, the attraction to specific chemical stimuli 4) phagocytosis

What four conditions cause the release of erythropoietin?

1) during anemia 2) when blood flow into the kidneys declines 3) when oxygen content of the air in the lungs declines 4) when the respiratory surfaces of the lungs are damaged

What are the functions of the various types of white blood cells?

1. Help the body fight against any type of invasion 2. Help remove toxins and waste 3. Remove abnormal or damaged cells

What is the structure of a red blood cell?

1. Large surface area-to-volume ratio. 2. Form stacks 3. Bend and flex

3 components that make up the formed elements of blood:

1. Red blood cells 2. White blood cells 3. Platelets

What are the three types of lymphocytes?

1. T cells 2. B cells 3. Natural Killer cells

3 primary functions of platelets:

1. Transport clotting chemicals 2. Form a plug in the walls of damaged blood vessels 3. Contraction after clot forms

8 primary functions of blood:

1. Transports and dissolves gas 2. Distributes nutrients 3. Transports waste 4. Delivers enzymes and hormones 5. Regulates ph and electrolyte composition 6. Restricts fluid losses 7. Defends against pathogens 8. Regulates body temperature

What five major functions are performed by blood?

1. Transports dissolved gases, nutrients, hormones, and metabolic wastes. 2. Regulates pH and electrolyte composition of interstitial fluids throughout the body 3. Restricts fluid losses through damaged vessels or at other injury sites. 4. defends against toxins and pathogens 5. Stabilizes body temperature.

The steps (in order) of the process of hemostasis are:

1. Vascular Spasm 2. Platelet phase 3. Coagulation 4. Retraction 5. Fibrinolysis

5 events in the clotting response and summary:

1. Vascular phase-spasm, damaged muscle 2. Platelet phase-platelet aggregation and adhesion 3. Coagulation phase-clot formation 4. Clot retraction-contraction of blood clot 5. Clot destruction-enzymes destroy clot

5 major components of plasma:

1. Water 2. Electrolytes 3. Nutrients 4. Waste 5. Protein

Why are small, superficial veins used in venipuncture?

1. easy to locate 2. walls of veins are thinner 3. blood pressure is low.. so the puncture would heal quickly

Where is bone marrow located?

1. vertebra 2. sternum 3. ribs 4. skull 5. scapulae 6. pelvis 7. proximal bones

How many pints of blood do you have in your body?

10

How long of a lifespan does a neutrophil generally have?

10 hours

Percentage of type B blood in US

10%

What percentage of white blood cells are eosinophils?

2-4%

What percentage of white blood cells are Monocytes?

2-8%

What percentage of white blood cells are lymphocytes?

20-30%

How long will a monocyte live before becoming a tissue macrophage?

24 hours

How many red blood cells does the average adult have in their body?

25 trillion

a typical microliter of blood contains______ leukocytes

3,000-5,000

What percent of all cells in the body are red blood cells?

33.3% or 1/3rd

What percentage are globulins?

35%

What is the range of formed elements in your blood in percentage?

37-54%

What percent of whole blood are formed elements?

37-54%

Blood temperature is roughly _____ and the blood pH averages ______.

38 C; 7.4

Blood temperature is approximately ______, and blood pH averages ________

38*C 7.4

Of all blood in the US, ______% have been found to contain AB blood.

4

Percentage of type AB blood in US

4%

What percentage is fibrinogen?

4%

What % of blood are albumins?

4.2%

What percent of plasma proteins is required for inducting water over a membrane?

4.2%

Percentage of type A blood in US

40%

What is the normal Hematocrit of a woman?

42 (range 37-47)

Hematocrit in female adults

42-lower because estrogen does not stimulate red blood cell production.

The percentage of whole blood occupied by cellular elements is:

45%

What is the normal hematocrit of a male?

46 (range 40-54)

Percentage of type O blood in US

46%

What percent of whole blood is plasma?

46-63%

Hematocrit in male adults

46-higher because androgens stimulate red blood cell production.

Typically, one micorliter of blood contains _____ erythrocytes

5.2 million

Typically, one microliter of blood contains ___ erythrocytes.

5.2 million

If blood comprimises 7 percent of the body weight in kilograms, how many liters of blood would there be in an individual who weighs 85 kg?

5.95

If blood comprises 7% of the body weight in kilograms, how many liters of blood would there be in a individual who weighs 85kg?

5.95 L

Most erythrocytes have at least ____ kinds of surface antigens

50

Under "normal" conditions, neutrophils comprise _____ of the circulatory white blood cells

50-70 percent

Under "normal" conditions, neutrophils comprise _____ of the circulatory WBC's.

50-70%

What percentage of a white blood cell is Neutrophil?

50-70%

Plasma contributes approximately ______ percent of the volume of whole blood, and water accounts for _____ percent of the plasma volume

55% 92%

A typical microliter of blood contains ___ leukocytes

6,000-9,000

What percentage are albumins?

60%

What percentage are plasma proteins?

7%

How many days (from beginning to end) does it take for yellow bone marrow to turn into red bone marrow?

7-10 days

How long do platelets live?

9-12 days

What percentage is water?

92%

What percentage are Red Blood Cells?

99.9%

What percentage of white blood cells are basophils?

<1%

Anemia

A condition where oxygen carrying capacity of blood is reduced. May occur due to a decrease in the number of red blood cells present. Also known as a decrease in hematocrit or a reduced content of Hb in RBC's.

Erythropoietin or EPO

A drug used by endurance athletes to increase the oxygen-carrying capacity of their blood by increasing the number of RBCs is called _______________________. Provide the name and abbreviation.

What is estrogen?

A female hormone that does not stimulate the red blood cells

Antibody

A globular protein produced by plasma cells that will bind to specific antigens and promote their destruction or removal from the body. AKA Immunoglobulin

Porphyrin ring

A heme group consists of a ________________ that holds 1 atom of iron. An iron atom can reversibly bind to one oxygen molecule (O2).

Iron

A heme group consists of a porphyrin ring that holds 1 atom of _________________.

Globins

A hemoglobin molecule consists of 4 polypeptide (protein) chains called _____________and 4 iron containing pigment molecules called Hemes.

Hemes

A hemoglobin molecule consists of 4 polypeptide (protein) chains called globins and 4 iron containing pigment molecules called ______________.

deoxyhemoglobin

A hemoglobin molecule whose iron is not bound to oxygen is called ______

Erythropoietin

A hormone produced and released by the kidney that stimulates the production of red blood cells by the bone marrow.

What is androgen?

A male hormone that stimulates the Red Blood Cells

Blood Doping

A practice used by athletes to elevate their hematocrits by reinfusing packed RB's that were removed and stored at an earlier date to improve oxygen delivery to muscles and enhance performance.

blood

A specialized fluid connective tissue that contains cells suspended in a fluid matrix.

What is a rouleau?

A stack of red blood cells

Antigen

A substance capable of inducing the production of antibodies.

agglutinogens -->

A, B, and Rh

Universal Recipient

AB type because they can take any blood but A anitbodies and B antibodies need to be removed first.

Organic Nutrients

ATP production

Immunoglobulins in plasma that react with antigens on the surfaces of foreign red blood cells, when donor and recipient differ in blood type are called:

Agglutinins

Basophil Functions

Allergic response

Eosinophil Function

Allergic response and release chemicals to attack parasitic worms.

Biconcave Disc Shape 3-3 Consequences

Allows RBC to stack like dinner plates. This is called a rouleaux and makes the RBCs less likely to clog a vessel. RBC's pass uniformly through the vessel in a single file row.

Biconcave Disc Shape 2-3 Consequences

Allows for flexibility so it can twist and bend to fit through small diameter capillaries.

Leukopenia

An abnormal decrease in the number of WBCs is called ___________________

Leukocytosis

An abnormal increase in the number of white blood cells is called ________________

Hemoglobin

Anemia is a condition in which the oxygen-carrying capacity of blood is reduced. All of the many types of anemia are characterized by reduced number of RBCs or a decreased amount of ____________________ in the blood.

immunoglobulins

Another name for antibodies

erythrocytes

Another name for red blood cells.

leukocytes

Another name for white blood cells.

To check the efficiency of gas exchange at the lungs, blood would be drawn from an:

Arterial puncture

Why is aspirin sometimes prescribed for the prevention of vascular problems?

Aspirin helps prevent vascular problems by inhibiting clotting. It inactivates platelet enzymes involved in the production of thromboxanes and prostaglandins, and it inhibits endothelial cell production of prostacyclin.

Vitamin B12 Deficient Anemia

B12 is needed for red blood cell production. A diet deficient in B12 leads to anemia.

HDN without treatment

Baby will die before birth or shortly after. Baby suffers from anemia and high concentration of circulating bilirubin that produces jaundice.

anaerobic metabolism of glucose

Because RBCs lack mitochondria, they obtain energy by:

Determine blood type by

Binding of antibodies to the surface antigens of red blood cells

Blood regulating pH of interstitial fluid

Blood absorbs and neutralizes acids generated by active tissues. Diffusion between interstitial fluid and blood eliminates deficiencies or excess ions.

Blood regulation of body temperature

Blood absorbs heat generated by active skeletal muscles and redistributes it to other tissue.

formed elements

Blood cells and cell fragments suspended in plasma make up this:

Formed elements

Blood cells and cell fragments suspended in the plasma that include platelets, leukocytes, and erythrocytes. Makes up 37-54% of the whole blood volume.

5

Blood is ____times more viscous than water.

Plasma

Blood is a fluid connective tissue with a matrix called:

Plasma

Blood is composed of formed elements (cells and platelets) suspended in a fluid matrix called ____________________.

See agglutination

Blood sample mixed with antibody takes on granular appearance.

Blood defense against pathogens

Blood transports white blood cells/specialized cells to other tissue to fight infection or remove debris and delivers antibodies to attack foreign organisms.

fibrinolysis

Breakdown and removal of a clot; destruction of fibers

_____ and _____ affects almost every aspect of the clotting process

Calcium Vitamin K

proerythroblasts erythroblast

Cells destined to become RBCs first differentiate into _____and then proceed through various ____ stages.

The cardiovascular and lymphatic systems are components of a single:

Circulatory system

AB blood type

Codominant. Determined by the presence of both A and B surface antigens in RBC's

Hemoglobin Structure/Hb

Complex quarternary structure. 4 polypeptide chains, 2 alpha and 2 beta, that each have a heme molecule that each contains an atom of iron.

Plasma

Consists primarily of water and is noncellular; the fluid matrix of blood

The anticoagulant that inactivates thrombin is:

Coumadin

Rh factor

Determines positive or negative in blood type. Rh- will have Rh antibodies Rh+ will not have antibodies

A blood type

Dominant. Determined by the presence of A surface antigens in RBC's

B blood type

Dominant. Determined by the presence of B surface antigens in RBC's

red marrow

During extreme stimulation such as severe blood loss, areas of yellow marrow conver to _____ to increase RBC production.

biliverdin

During recycling of RBCs, each heme unit is stripped of its iron and converted to:

Bilirubin

During the break down of red blood cells, most of the _________________ is excreted by the liver into the bile and the remainder by the kidneys. It is this substance along with urobillins gives fecal matter is brown color and urine its characteristic yellow color.

heme

Each Hb chain contains a single molecule of ___, a non-protein pigment complex.

alpha and beta

Each Hb molecule has 2___chains and 2___ chains of polypeptides.

oxyhemoglobin

Each heme unit holds an iron ion in such a way that the iron can interact with oxygen molecule, forming _____

Describe the structure of hemoglobin.

Each molecule of hemoglobin consists of four protein subunits, each of which contains a single molecule of heme, a non-protein ring surrounding an iron ion.

280 million

Each red blood cell contains about how many hemoglobin molecules?

Disadvantages of blood doping

Elevates blood viscosity and increases the workload on the heart.

Difference between an embolus and thrombus:

Embolus- drifting blood clot Thrombus- blood clot that stays in one spot

Blood regulating fluid loss

Enzymes and other substances in blood respond to breaks in vessel walls by initiating clotting/Agglutination.

RBC

Erythrocytes. Transport respiratory gases O2 and CO2.

myeloid tissue

Erythropoiesis occurs where?

transferrins

Excess____ are removed in the liver and speen and the iron is stored in two special protein-iron complexes.

urobilins and stercobilins

Feces is yellow-brow or brown because it contains:

Immobile monocytes found in many connective tissues are called:

Fixed macrophages

amino acids, iron, and vitamins

For erythropoiesis to proceed normally, the red bone marrow must recieve adequate supplies of _______ required for protein synthesis.

Monocyte Functions

Form macrophages, which are phagocytic cells. "bigger eaters"

The blood cells and cell fragments suspended in the ground substance are referred to as:

Formed elements

Platelet Functions 2

Forms a temporary patch in the walls of damaged blood vessels. Platelets clump together at an injury site, forming a platelet plug to slow blood loss while clotting occurs.

The factor which stimulates the production of neurophils, eosinophils, and basophils is:

G-CSF

The factor which stimulates the production of neutrophils, eosinophils, and basophils is:

G-CSF

Plasma cell

Gamma globulins are antibodies (immunoglobulins) that are produced by what specific type of leukocyte?

Genotype

Genetic combination of alleles that determines phenotype. Ex. ii, iAi, iAiA, iAiB

Surface antigens

Glycolipids and glycoproteins imbedded in the plasma membrane of RBC's that react with antibodies produced by cells of the immune system and determine blood type.

What are the two types of white blood cells?

Granular Agranular

Leukocyte classification

Granulocytes have stained cytoplasmic granules and agranulocytes lack stained cytoplasmic granules.

Blood regulation when body temp is high

Heat will be lost across the skin surface.

decrease

Hematocrit increases during dehydration, owing to a ____ in plasma volume.

Volume of Packed red cells (VPRC) or packed cell volume (PCV)

Hematocrit is commonly reported as the ____ because it contains mostly RBCs.

The part of the red blood cell's ability to transport oxygen and carbon dioxide is:

Hemoglobin

Lymphocyte Pathology

High number may indicate Mono or viral infection or lymphocytic leukemia.

Monocyte Pathology

High numbers may indicate monocytic leukemia or infection.

Eosinophils Pathology

High numbers of eosinophils may indicate presence of allergies or parasitic worm infection.

Neutrophil Pathology

High numbers of neutrophils may indicate infection, inflamation or myelogenous leukemia. Numbers can be decreased by hepatitis, mumps, influenza.

Erythropoietin or EPO

Hormone produced by the kidneys that stimulates erythropoiesis. Provide name and abbreviation.

transport globulins

Hormone-binding proteins, metalloproteins, apolipoproteins, and steroid-binding proteins are all examples of what?

4

How many heme UNITS does each hemoglobin contain?

4-5

How many liters of blood does the adult female contain?

5-6

How many liters of blood does the adult male contain?

280

How many million Hb molecules does each red blood cell contain?

Erythropoietin or EPO

Hypoxia due to decreased RBC count, decreased availability of oxygen to blood, and increased tissue demands for oxygen can cause an increase in what hormone to increase RBC production? Provide name and abbreviation

pernicious anemia

If vitamin B12 is not obtained from the diet, normal stem cell divisions cannot occur and _____ results.

Agglutinins

Immunoglobulins in plasma that react with antigens on the surfaces of foreign red blood cells when donor and recipient differ in blood type. AKA Antibody

globulins

Importnat plasma _____ include antibodies.

Advantages of blood doping

Improves oxygen delivery to muscles and enhances performance.

4.2-5.5

In an adult female, 1 microliter of whole blood contains ____ million RBC's

4.5-6.3

In an adult male, 1 microliter of whole blood contains____ million RBC's

urobilinogens and stercobilinogens

In the large intestine, bacteria convert bilirubin to related pigments called:

Biconcave Disc Shape 1-3 Consequences

Increases the surface area: volume ratio and this allows the RBC to maximize diffusion of respiratory gases.

What contribution from the intrinsic and the extrinsic pathways is necessary for the common pathway to begin?

Initiation of the common pathway requires the activation of Factor X and the formation of prothrombinase by the intrinsic and/or intrinsic pathways

Four types of anemia

Iron deficiency anemia Vitamin B12 deficient anemia Pernicious anemia Sickle cell anemia

transferrin

Iron extracted from heme molecules may be bound and stored in a phagocytic cell or released into the bloodstream, where it binds to _____

Menstrual

Iron-deficiency anemia is caused by an inadequate absorption of iron, excessive loss of iron, increased iron requirement, or insufficient intake of iron. Women are at greater risk for iron-deficiency anemia due to ____________ blood losses and increased iron demands of the growing fetus during pregnancy

Bilirubin

Jaundice is caused by the build-up of ______ in the skin and is often due to liver problems

Monocyte

Leukocyte->Agranulocytes Large bean-shaped nucleus

Lymphocytes

Leukocyte->Agranulocytes Large nucleus occupies most of cell volume

Basophil

Leukocyte->Granulocyte Bilobed nucleus with large blue granules.

Eosinophil

Leukocyte->Granulocyte Bilobed nucleus with large red-orange granules.

WBC

Leukocytes. Fight disease causing pathogens. Neutrophils, Eosinophils, Basophils, Lymphocytes, Monocytes.

120 days

Life span of a typical red blood cell is about how many days?

The bloodstream carries cells, antibodies, and cytokines of the:

Lymphatic system

Lymphoid stem cells

Lymphocytes

T cells and B cells are representative cell populations of WBC's identified as:

Lymphocytes

The production of lymphocytes from stem cells is called:

Lymphopoieses

hemolyze

Macrophages of the liver, spleen, and bone marrow monitor the condition of circulating RBC's generally recognizing and engulfing them before they ____, or rupture

Iron deficiency anemia

Mainly results from an insufficient intake of dietary iron. Can also occur due to blood loss or insufficient absorption of iron in the diet due to Crohn's disease or Celiac disease.

Plasma

Matrix of blood and contains proteins and other solutes. Makes up 46-63% of the volume of whole blood.

Platelets originate from enormous cells called:

Megakaryocytes

Buffy coat

Middle layer. includes white blood cells and platelets and is a thin layer in the middle.

Hemoglobin

Molecules of ____ account for more than 95% of a RBCs intracellular proteins.

The leukocyte that would be involved in producing scar tissue that "walls off" an injured area is a:

Monocyte

Serum

Name for the yellowish fluid that is similar to plasma but without the clotting proteins and factors.

Iron deficiency anemia

Name of the most common type of anemia.

Albumins

Name of the plasma proteins that maintain osmotic pressure of the vascular system. Function to draw water from the surrounding tissue (interstitial) fluid into the capillaries to maintain blood volume and pressure.

Neutrophils

Name of the specific type of leukocytes that are active phagocytes which destroy bacteria. Their number increases during acute bacterial infections. These dead leukocytes, cell debris, and fluid can accumulate as pus at sites of infections.

Basophils

Name of the specific type of leukocytes that are usually the least numerous - less than 1% of WBC population. They contain purplish granules that contain: Histamine - a vasodilaton and heparin - an anticoagulant

Eosinophils

Name of the specific type of leukocytes that function to help reduce the severity of allergy attacks by phagocytosing the immune complexes; kill parasites

Neutrophils

Name of the specific type of leukocytes that make up 60-70% of WBC population. Their nucleus consists of 2-6 lobes and are also called polymorphonuclear leukocytes because of multilobed nuclei.

Eosinophils

Name of the specific type of leukocytes that make up about 3% of WBC population. Their nucleus contains two lobes connected by a narrow isthmus and their cytoplasm contains reddish/orange granules.

Lymphocytes

Name of the specific type of leukocytes that make up about 30% of WBC count. They contain large round or oval purple nucleus and have no visible granules.

T lymphocytes

Name of the specific type of lymphocyte that functions to kill virus-infected and cancerous cells and can differentiate into many other cells (killer T, helper T, suppressor T, etc.)

B lymphocytes

Name of the specific type of lymphocyte that when stimulated differentiates into plasma cells which secretes antibodies (immunoglobulins)

Hemocytoblast

Name of the stem cell that gives rise to all blood cells

Erythrocyte

Name the cell that has a round biconcave shape

Carbon monoxide poisoning

Name the condition that you would treat with breathing pure oxygen in a hyperbaric chamber in which the air pressure is about two to three times higher than normal. This speeds the replacement of this poison with oxygen in your blood.

Monocyte

Name the specific type of leukocyte that conain large pale blue cells with dark U or kidney-shaped nucleus. Are phagocytic and can develop into wandering macrophages that migrate through tissues.

Pernicious anemia

Name the type of anemia caused by insufficient hemopoiesis due to a lack of vitamin B12 which is required for proper red blood cell production.

Erythrocytes

Name the type of blood cell that contain hemoblobin, are anucleated and do not contain mitochondria.

Leukocyte

Name the type of cell that functions to defend the body against pathogens and remove toxins and damaged cells. They have a nucleus, mitochondria, but do not contain hemoglobin.

Megakaryocyte

Name the type of cell that gives rise to platelets. Note that platelets are fragments and not cells.

Alpha and beta globulins

Name the type of globulins that function to transport lipids, steroids, fat-soluble vitamins, and metal ions (iron).

Never Let Monkeys Eat Bananas

Neutrophil, Lymphocyte, Monocyte, Eosinophil, Basophil

Which kinds of white blood cells contribute to the body's non-specific defenses?

Neutrophils, eosinophils, basophils, and monocytes

7.35 to 7.45

Normal pH range of Blood

Universal Donor

O type because it can give blood to any type due to lack of antigens.

Problems arise for HDN

Occurs when mm is Rh- and baby is Rh+. Starting in second pregnancy because not as many fetal cells enter the maternal circulation stimulating anti-Rh antibodies with the first pregnancy. Exposure to these blood cells occurs during delivery when bleeding at the placenta and uterus take place.

Macrophages

Old and damaged RBCs are engulfed by what type of cell in the spleen, liver, and bone marrow?

toxins and pathogens

One function of blood is that it defends against:

pH and composition of interstitial fluids

One function of blood is that it regulates:

fluid loss at injury sites

One function of blood is that it restricts:

body temperature

One function of blood is that it stabilizes:

dissolved gases, nutrients, hormones, and metabolic wastes

One function of blood is that it transports:

Platelets

Participate in blood clot formation

Hematocrit

Percentage of whole blood volume contributed by formed elements. 99.9% is red blood cells

Intrinsic factor

Pernicious anemia is due to insufficient hemopoiesis due to a lack of vitamin B12 which is required for proper red blood cell production. Usually caused by the inability of the stomach to produce _______________________, which is needed for absorption of vitamin B12 in the small intestine. Can also result from a dietary deficiency of vitamin B12.

Neutrophil Function

Phagocytosis of bacterial pathogens

Phenotype

Physical expression of inherited alleles. Ex. A, B, AB, O

The ground substance of the blood is the:

Plasma

What are the parts of the whole blood?

Plasma formed elements

agglutinins

Plasma contains antibodies, sometimes called ____ that will attack the antigens on foreign RBCs.

Which of the following statements is correct?

Plasma contributes approximately 55 percent of the volume of whole blood and h20 accounts for 92 percent of the plasma volume

Plasma

Plasma floats because it is lighter

Globulins

Plasma protein that can be antibodies or transport types. Antibodies attack foreign materials and transport globulins bind small hormones and other compounds. Constitutes 35% of plasma proteins.

Fibrinogen

Plasma protein that can interact with each other to form large, insoluble strands of fibrin, and form a clot.

Albumins

Plasma protein that is most abundant type and a major contributor to osmotic pressure. Constitutes 60% of plasma proteins.

What is plasma composed of?

Plasma proteins Other Solutes Water

After a clot has formed, the clot shrinks due to the action of actin and myosin filaments contained in:

Platelets

Megakaryocyte

Platelets are disc-shaped cell fragments in the blood that are produced by what cell in the bone marrow?

Intrinsic factors

Produced by parietal cells in stomach. Helps in the absorption of vitamin B12

Plasma

Proteins: albumin, globulin, fibrinogen, regulatory proteins. Other solutes: Electrolytes, organic nutrients, organic wastes.

Hemolytic disease of the newborn

RBC related disorder caused by a cross-reaction between fetal and maternal blood types. Genes for blood type come from both parents so baby can have a type different from either parent. During pregnancy the mothers antibodies can cross the placenta and attack/destroy fetal RBCs.

Rouleaux

RBC stacks like dinner plates and makes them less likely to clog a vessel.

1/3

RBC's account fo roughly what percent of all the cells in the body?

Sperocytosis:

RBC's are destroyed, RBC's are read as deformed

Fetal Hemoglobin

RBC's of an ebryo or fetus. Contains a different form of hemoglobin that binds oxygen more readily. Allows fetus to steal oxygen from the maternal bloodstream at the placenta.

Mitochondria

RBCs are anucleated and do not contain this organelle that make ATP by aerobic respiration.

Myeloid Stem cells

RBCs, WBCs

O blood type

Recessive. Determined by the absence of A and B surface antigens in RBC's. Has A and B antibodies.

How do red blood cells differ from white blood cells in form?

Red blood cells are biconcave discs that lack mitochondria, ribosomes, and nuclei; and they contain a large amount of hemoglobin.The five types of white blood cells vary in size from slightly larger to twice the diameter of a red blood cell, contain a prominent nucleus, and may contain granules with distinct staining properties.

How do red blood cells differ from white blood cells in function?

Red blood cells transport oxygen, while white blood cells are involved in immunity.

The formed elements of the blood consist of:

Red blood cells, white blood cells, and platelets

Hemoglobin

Red pigment that gives whole blood its deep red pigment. Binds and transports oxygen and carbon dioxide.

Platelet Functions 3

Reduces the size of breaks in vessel walls by shrinking clot through the contraction of platelet filaments.

Platelet Functions 1

Release chemicals important to the clotting process by releasing enzymes and other factors at the right times to initiate the clotting process

Sickle Cell Anemia

Results from a mutation of the amino acid sequence of the beta-globin molecule of hemoglobin where valine replaces the amino acid, glutamic acid, as the 6th amino acid in the beta-globin primary structure. When oxygen binds to the hemoglobin in this instance, the red blood cells take on a sickle shape.

D antibody

Rh factor. Needs to be matched before giving or receiving.

Prevention of HDN

RhoGAM, prevents anti-Rh antibody production when administered to the mother between the 26th and 28th week of pregnancy and during and after deliver.

The flattened shape of RBC's enables them to form stacks called:

Rouleaux

Erythrocyte

Scientific name for a red blood cell

Centrifugation

Separates blood into 3 components by spinning the sample in a small tube using a centrifuge.

When clotting proteins are removed from the plasma, the remaining fluid is the:

Serum

Pernicious anemia

Similar to B12 anemia but occurs when there is poor absorption of the B12 vitamin due to lack of intrinsic factors.

Albumins

Sixty percent of plasma proteins are _______________

Platelets

Small, membrane bound cell fragments that contain enzymes and other substances important to clotting.

Agglutinogens

Surface antigens on red blood cells whose presence and structure are genetically determined.

agglutinogens

Surface antigens on your own RBCs:

Basophil Pathology

Systemic release of histamine causes widespread vasodiliation, hypotension, and anaphylactic shock.

Oxyhemoglobin

Term for hemoglobin when is binds to oxygen

Deoxyhemoglobin

Term for hemoglobin when it is not bound to oxygen as oxygen is released.

Carboxyhemoglobin

Term for hemoglobin when its iron binds to carbon monoxide.

Thrombopoiesis

Term for the formation of platelets (thrombocytes) that are technically not a cell.

Erythropoiesis

Term for the formation of red blood cells

Leukopoiesis

Term for the formation of white blood cells

Hematopoiesis or hemopoiesis

Term for the process of making new blood cells. Provide two terms

rouleaux

The 'stacks' of RBC's is known as:

Agglutination

The aggregation of red blood cells due to interactions between surface antigens and plasma antibodies. AKA Clumping or Hemolysis

42 and 46

The average percentage of hematocrit in males and females is how much?

5 liters

The average volume of blood is about how many liters?

Hemolysis

The breakdown of red blood cells

Granulocytes

The category of leukocytes that contain large granules that are easily seen and include neutrophils, eosinophils, and basophils

Agranulocytes

The category of leukocytes that contain small granules that are not easily seen and include lymphocytes and monocytes

How does the structure of the hemoglobin relate to its function?

The central iron ions are what actually pick up and release oxygen molecules.

Hemostasis

The cessation of bleeding

Dark red

The color of deoxygenated blood is _____________

Bright red

The color of oxygenated blood is _____________

Antigen-antibody Complex

The combination of an antigen and a specific antibody.

120

The life span of a RBC is usually less than ____ days due to the lack of internal organelles.

90

The liver synthesizes and releases more than ___% of the plasma proteins.

Heme group

The part of hemoglobin that is a pigmented molecule containing iron and can reversible bind to one oxygen molecule (O2).

Hematocrit

The percentage of RBCs in a whole blood sample is called a _______________________

hematuria

The presence of intact RBCs in urine- a sign called ____ occurs only after kidney damage or damage to vessels along the urinary tract.

Diapedesis

The process of WBCs migrating across the endothelial lining of a capillary squeezing between adjacent endothelial cells is called _____________

Thrombocyte

The scientific term for a platelet

Leukocyte

The scientific term for a white blood cell

Why the difference in hematocrit between male and female?

The sex difference in hematocrit primarily reflects the fact that androgens stimulate the red blood cell production, while estrogen does not.

hypoxia

The state of low tissue oxygen levels is called:

Albumins

The three main classes of plasma proteins consist of , clotting proteins, globulins and ________________

Clotting proteins

The three main classes of plasma proteins consist of albumins, globulins and ________________

Leukocyte

The type of blood cell that defend the body against pathogens and remove toxins and damaged cells.

globulins

These account for approximately 35% of proteins in plasma.

erythroblast

These actively synthesize hemoglobin and are named based on total size, amount of hemoglobin present, and size and appearance fo the nucleus.

white blood cells

These are less numerous than RBC's and participate in the body's defense mechanisms.

yellow bone marrow

These are marrow areas containing a fatty tissue known as:

platelets

These are small, membrane-bound cell fragments that contain enzymes and other substances important to the process of clotting.

myeloid and lymphoid

These are the 2 stem cells produced by hemocytoblasts

red blood cells

These are the most abundant blood cells and are essential for the transport of oxygen in the blood.

red blood cells, white blood cells, and platelets

These are the three formed elements in whole blood:

ferritin and hemosiderin

These are the two special protein-iron complexes that excess iron are stored in:

Transport globulins

These bind small ions, hormones, and compounds that might otherwise be lost at the kidneys or that have very low solubility in water.

apolipoproteins

These carry triglycerides and other lipids in the blood.

myeloid stem cell

These divide to produce RBCs and several classes of white blood cells.

phagocytes

These engulf the RBCs after they are ruptured or damaged (usually about 120 days)

hromone-binding proteins

These provide a reserve of hormones in the bloodstream.

metalloproteins

These transport metal ions.

steroid-binding proteins

These transport steroid hormones in the blood.

Myeloid and lymphoid

These two populations of stem cells are responsible for the production of all kinds of formed elements.

Why are mature red blood cells incapable of aerobic respiration, protein synthesis, and mitosis?

They don't have a nucleus or ribosomes or mitochondria

albumins

This accounts for roughly 60% of the plasma proteins.

Albumins

This is a major contributor to the osmotic pressure of plasma and are important in the tranport of fatty acids, thyroid horomones, some steroid hormones, and other substances.

Erythropoietin

This is aka erythropoiesis-stimulating hormone and is a glycoprotein, formed by the kidneys and liver that appears in the plasma when peripheral tissues are exposed to low Oxygen levels.

hemocytoblasts

This is also known as multipotent stem cells in bone marrrow

Hemoglobin

This is responsible for the cell's ability to transport oxygen and carbon dioxide.

hematocrit

This is the percentage of whole blood volume contributed by formed elements.

fibrinogen

This major type of plasma protein functinos in clotting.

sickle cell anemia

This results from a mutation affecting the amino acid sequence of the beta chains in Hb molecule.

erythropoietin

This stimulates increased cell division rates in erythroblasts and in the stem cells that produce erythroblasts and speeds up the maturation of RBCs.

During recycling, when iron is extracted from the heme molecules and released into the bloodstream, it binds to the plasma protein:

Transferrin

What are the three functions of platelets during the clotting process?

Transport chemicals important to clotting form a temporary patch in the walls of damaged blood vessels actively contract after the clot has formed

Circulating leukocytes represent a small fraction of the total population, since most WBS's are found in peripheral tissues

True

In a mature RBC, energy is obtained exclusively by anaerobic respiration (i.e. the breakdown of glucose in the cytoplasm)

True

What different blood types are there?

Type A Type B Type AB Type O Rh positive Rh negative

Hemolytic anemia

Type of anemia caused by RBC plasma membranes rupturing prematurely. The released hemoglobin pours into the plasma and may damage the filtering units (glomeruli) in the kidneys. The condition may result from inherited defects such as abnormal red blood cell enzymes or from outside agents such as parasites, toxins, or antibodies from incompatible transfused blood.

Hemorrhagic anemia

Type of anemia caused by excessive loss of RBCs through bleeding resulting from large wounds, stomach ulcers, or especially heavy menstruation.

Erythrocyte

Type of cell that contains hemoglobin and functions to carry oxygen.

B lymphocytes

Type of leukocyte that differentiate into plasma cells and secrete antibodies (immunoglobulins)

Hemoglobin

Type of protein that functions to carry oxygen and to a minor extent carbon dioxide.

fibrin

Under certain conditions, fibrinogen molecules interact, forming large, insoluble strands of ____ that are the basic framwork for a clot.

urobilins and stercobilins

Upon exposure to oxygen, some of the urogilinogens and stercobilinogens are converted to:

urobilins

Urine is yellow because it contains:

The first phase of homeostasis involves a period of local vasoconstriction called the:

Vascular phase

The most common clinical procedure for collecting blood for blood tests is the:

Venipuncture

Interactions between the dissolved proteins and the surrounding water molecules determine:

Viscosity

Interactions between the dissolved proteins, formed elements, and the surrounding water molecules determines the blood's

Viscosity

For erythropoieses to proceed normally, the myeloid tissues must receive adequate amounts of amino acids, iron, and:

Vitamin B12

For erythropoiesis to proceed normally, the myeloid tissues must receive adequate amounts of amino acids, iron, and:

Vitamin B12

Blood regulation when body temp is low

Warm blood is directed to the brain and to other temperature sensitive organs.

androgens

What accounts for the difference in percentage of hematocrit in males and females?

The levels of respiratory gases and the concentrations and types of dissolved proteins

What are the primary differences between plasma and interstitial fluid?

Albumins, globulins, and fibrinogens

What are the three major types of plasm proteins?

B12, B6, and folic acid

What are the three vitamins required for erythropoiesis?

Hemoglobin

What gives red blood cells their color and functions to carry oxygen?

disassembled and then either metabolized or absorbed by other cells

What happens to globular proteins when RBCs get recycled.

vessels of embryonic yolk sac

What is the primary site of blood formation for the first eight weeks of a developing fetus?

100.4

What is the temperature of blood in °F

agglutination

What it is called when foreign cells clump together.

92

What percentage of the volume does water account for in plasma?

hemoglobinuria

When abnormally large numbers of RBCs break down in the bloodstream, urine may turn red or brown, this is called:

carbaminohemoglobin

When alpha and beta chains of hemoglobin bind to carbon dioxide the form:

Buffy coat

When blood is centrifuged the WBCs and Platelets form a thin layer between the RBCs and plasma. What is this layer called?

serum

When preventing a blood clot in a sample of blood the clotting proteins are removed and this is what is left behind.

reticulocyte

When the erythroblast becomes a normoblast and shed its nucleus it becomes a:

How do elements of blood defend against toxins and pathogens in the body?

White blood cells defend against toxins and pathogens. Neutrophils, eosinophils, and monocytes engulf and digest bacteria, protozoa, fungi, viruses and cellular debris. Lymphocytes specialize to attack and destroy specific foreign cells, proteins and cancerous cells, directly or through the production of antibodies.

1000

Whole blood contains how many RBCs for every 1 WBC?

macrophages

____ of the liver, spleen, and bone marrow monitor the condition of RBC and engulf them before they hemolyze.

A vitamin K deficiency in the body will eventually cause:

a breakdown of the common pathway, deactivating the clotting system

What is plasma?

a fluid connective tissue

Antigens:

a substance that is usually foreign to the body that can trigger an immune response

A condition in which a drifting blood clot becomes stuck in a blood vessel, blocking circulation, is called:

a thrombosis

What is the major function of a globulin?

a) bind small ions, hormones, or compounds that might otherwise be filtered out of the blood at the kidneys or have very low solubility in water b) attack foreign proteins and pathogens

What is the lifespan of a red blood cell?

about four months

Rh negative blood:

absence of the Rh surface antigen

Clot destruction involves a process that begins with:

activation of the proenzyme plasminogen, which leads to the production of plasmin

clot destruction involves a process that begins with:

activation of the proenzyme plasminogen, which leads to the production of plasmin

normoblast

after 4 days of differentiation, the erythroblast is called a ____

When does the neutrophil die?

after engulfing one to two dozen bacteria

cross-reaction -->

agglutination

Antigens on the surfaces of RBCs whose presence and structure are genetically determined are called:

agglutinogens

What are the plasma proteins?

albumins globulins fibrinogen regulatory proteins

What three types of plasma proteins are in the blood?

albumins globulins fibronigen

The three primary classes of plasma proteins are:

albumins, globulins, and fibrinogen

The three primary classes for plasma proteins are:

albumins, globulins, and fibrogen

The number of eosinophiles increases dramatically during:

an allergic reaction or a parasitic infection

The number of eosinophils increases dramatically during:

an allergic reaction or a parasitic infection

A condition in which a drifting blood clot becomes stuck in a blood vessel, blocking circulation, is called:

an embolism

A person with type O blood contains:

anti-A and anti-B agglutinins

If you have type A blood, your plasma holds circulating _____ that will attack ______ erythrocytes

anti-B agglutinins Type B

If you have type A blood, your plasma holds circulating _____ that will attack _____ erythrocytes.

anti-B agglutinins; Type B

agglutinins -->

antibodies

Platelets are unique formed elements of the blood because they:

are cytoplasmic fragments rather than idividual cells

Red blood cells

are heavier due to the iron concentration and are at the bottom of the tube.

To check the efficiency of gas exchange at the lungs, blood would be drawn from an

arterial puncture

Although they are very rare, Basophils release other chemicals that bring additional eosinophils and _____

basophils

Why do red blood cells only last four months?

because of the severe stress

When heme is stripped of its iron, it is converted to:

bilirubin

During RBC recycling each heme unit is stripped of its iron and converted to:

biliverdin

A specialized fluid connective tissue that contains cells suspended in a fluid matrix is the:

blood

platelets -->

blood clotting

What is the role of blood in the stabilization and maintenance of body temperature?

blood stabilizes and maintains body temperature by absorbing and redistributing the heat produced by active skeletal muscles. Dermal capillaries constrict when body temperature falls, thereby decreasing blood flow to the skin and conserving heat for internal organs that are more temperature sensitive.

What does blood stabilize?

body temperature

What is a leukocytes?

body's defense mechanism

The primary site of erythropoiesis in the adult is the:

bone marrow

pH regulation -->

buffer in blood

How do the cells leave the bloodstream and enter the damaged area?

by leaving through small pores in the blood vessel lining

How is blood type determined?

by the presence or absence of specific surface antigens in red blood cell plasma membranes

Blood transports dissolved gases, bringing oxygen from the lungs to the issues and carrying:

carbon dioxide from the tissues to the lungs

Blood transports dissolved gases, bringing oxygen from the lungs to the tissues and carrying:

carbon dioxide from the tissues to the lungs

Organic Wastes?

carried to sites for excretion

Dehydration would:

cause an increase in the hematocrit

Agglutinogens are contained (on, in) the _____, while the agglutinins are found (on, in) the ______.

cell membrane of RBs; plasma

An arterial puncture generally drawn from the radial artery at the wrist or the brachial artery at the elbow would primarily be used for:

checking the efficiency of gas exchange at the lungs

What is a platelets function?

clotting

What is the function of Fibrinogen?

clotting

What is the function of platelets?

clotting

Basophiles are specialized in that they:

contain histamine that exaggerates the inflammation reponse at the injury site.

Basophils are specialized in that they:

contain histamine that exaggerates the inflammation response at the injury site

Organic Waste consists of:

creatinine

T cells and B cells are representative cell populations of white blood cells identified as:

cymphocytes

The process of white blood cells migrating across the endothelial lining of a capillary, squeezing between adjacent endothelial cells, is called:

diapedesis

A blood cell count that determines the numbers and kinds of leukocytes is called a:

differential

Loose connective tissue and cartilage contain a network of insoluble fibers, whereas plasma, a fluid connective tissue, contains:

dissolved proteins

What are the other solutes?

electrolytes organic nutrients organic wastes

In addition to water and proteins, plasma consists of:

electrolytes, nutrients, and organic waste

In addition to water and proteins, the plasma consists of:

electrolytes, nutrients, and organic wastes

What do neutrophils, eosinophils, and monocytes do?

engulf and digest bacteria, protoza, fungi, viruses, and cellular debris.

mature red blood cells -->

enucleated

What is the function of Regulatory Proteins?

enzymes hormones

Very immature RBCs that actively synthesize hemoglobin are the

erythroblasts

Reticulocytes are nucleated immature cells that develop into mature:

erythrocytes

Retilocytes are nucleated immature cells that develop into mature:

erythrocytes

The blood cells that may originate int he thymus, spleen, and lymph nodes as well as in the bone marrow are the:

erythrocytes

what formed element is the most numerous?

erythrocytes

What are the formed elements?

erythrocytes leukocytes platelets

Leukemia is a condition charcterized by:

extremely elevated levels of circulating WBC's

Leukemia is a condition characterized by:

extremely elevated levels of circulating white blood cells

T/F: Circulating leukocytes represent a small fraction of the total population, since most white blood cells are found in peripheral tissues.

false

T/F: Plasma represents 56-63% of blood?

false

T/F: myeloid tissue is found in the tarsals, clavicals, and patella

false

The iron extracted from heme molecules during hemoglobin recycling is stored in the protein-iron complexes:

ferritin and hemosiderin

The iron extracted from heme molecules during hemoglobin recycling is stored int he protein-iron complexes:

ferritin and hemosiderin

The insoluble fibers that provide the basic framework for a blood clot are called:

fibrin

White blood cells -->

fight infections

Immobile monocytes found in many connective tissues are called

fixed macrophage

What does blood restrict?

fluid loss at injury sites

The large surface area-to-volume ratio of a red blood cell allows:

for oxygen and carbon dioxide to be exchanged faster

Megakaryocytes are specialized cells of bone marrow responsible for:

formation of platelets

-poiesis

formation, production

The blood cells and cell fragments suspended in the ground substance are referred to as:

formed elements

Hemopoiesis (hematopoiesis)

formed elements are produced through the process of:

Megakaryocytes are specialized cells of the bone marrow responsible for:

formulation of platelets

A hemoglobin molecule is composed of:

four protein chains and four heme groups

When the components of whole blood are separated, they are said to be:

fractioned

Platelets:

fragments containing enzymes

What is the major function of a fibronigen?

functions in blood clotting

What does blood transport?

gases nutrients hormones waste

Type AB blood:

has both surface antigen A and B

Type O blood:

has neither A nor B surface antigen

Type A blood:

has surface antigen A only

Type B blood:

has surface antigen B only

What is NOT a function of leukocytes?

help in ATP production

The percentage of whole blood occupied by cellular elements is the:

hematocrit

The stem cells that produce all of the blood cells are called:

hematocytoblasts

Formed elements in the blood are produced by the process of:

hematopoiesis

The waste product of bilirubin is formed from:

heme

pigment complex -->

heme

The precursor of all blood cells in the human body is the:

hemocytoblast

The precursor of all blood cells that develop into mature:

hemocytoblast

The part of the red blood cell responsible for the cells ability to transport oxygen and carbon dioxide is

hemoglobin

What is responsible for binding the oxygen and the carbon dioxide together?

hemoglobin

What is the red pigment that causes blood to be red?

hemoglobin

Iron is necessary in the diet because it is involved with:

hemoglobin production

The presence of hemoglobin in urine is called:

hemoglobinuria

The most common blood test used to determine if a person is anemic is:

hemolobin

The rupturing of blood cells is called:

hemolysis

During this chapter you heard many examples of the key term to A & P, which is:

homeostasis

erythropoietin -->

hormone

Regulatory proteins function:

hormones

Why is a male's hematocrit higher than a females? ________ called ______

hormones androgen

When clinicians refer to low blood volumes, they use the term:

hypovolemic

Heterozygous

iAiB, alleles are different

Anemia

if the hematocrit is low or the Hb content of RBCs is reduced, the resulting condition is called:

Homozygous

ii, alleles are the same

reticulocytes -->

immature red blood cells

antibodies -->

immunoglobulin

Where do platelets reproduce?

in the bone marrow

Where does reproduction of blood cells take place?

in the bone marrow and lymphoid tissues

Where are the new red blood cells produced?

in the red bone marrow

Erythropoietin directly stimulates red blood cell formation by:

increasing rates of mitotic divisions in erythroblasts, speeding up maturation of red blood cells, accelerating the rate of hemoglobin synthesis.

Rh positive blood:

indicates the presence of Rh surface antigen

The difference between the A, B, and O blood types and the Rh factor is:

individuals who are Rh- do not carry agglutinins to Rh factor unless they have been previously sensitized.

The blood transports specialized cells that defend peripheral tissues from:

infection and disease

The blood transports specialized in cells that defend peripheral tissues from:

infection and disease

The fate of iron after hemoglobin breakdown occurs as follows:

iron --> bloodstream --> transferrin --> (stored) ferritin and hemosiderin

The fate of iron after hemoglobin breakdown occurs as follows:

iron --> bloodstream -->transferrin --> new hemoglobin;; heme--> biliverdin -->bilirubin--> (liver)-->bile-->excreted;; iron --> bloodstream -->transferrin-->(stored) ferritin and hemosiderin

Hematocrit:

is the percent of whole blood contributed by formed elements

The important effect(s) on RBC due to their unusual shape is (are)

it enables RBC's to form stacks, it gives each RBS a lare surface area-to-volume ratio, it eneables RBS's to bend and flex when entering small capillaries.

bilirubin -->

jaundice

bilirubin -->

juandice

Excessive numbers of white blood cells refers to a condition called:

leukocytosis

An inadequate number of white blood cells is called:

leukopenia

Globulins involved in lipid transport are called:

lipoproteins

Erythropoietin appears in the plasma when peripheral tissues, especially the kidneys, are exposed to:

low oxygen concentrations

The blood cells that may originate in the thymus, spleen, and lympth nodes as well as in the bone marrow are the:

lymphocytes

the production of lymphocytes from stem cells is called

lymphocytes

The bloodstream carries cells, antibodies, and cytokines of the:

lymphoid system

monocyte -->

macrophage

What is the major function of an albumin?

maintain osmotic pressure of plamsa and are important in the transport of fatty acids

Plasma -->

matrix

Platelets originate from enormous cells called

megakaryocytes

Transport globulins that bind metal ions are called:

metalloproteins

Circulating mature RBC's lack

mitochondria, ribosomes, nuclei

The leukocyte that would be involved in attracting fibroblasts that produce scar tissue that "walls off" an injured area is a

monocyte

Agranular white blood cells:

monocyte lymphocyte

The two types of agranular leukocytes found in the blood are:

monocytes, lymphocytes

What are eosinophils most effective against?

multicellular parasites, such as flukes or roundworms that are too big to engulf

What are the first cells to arrive at the site of an injury?

neutrophils

Granular white blood cells:

neutrophils eosinophils basophils

microphages -->

neutrophils, eosinophils

Based on their staining characteristics, the types of granular leukocytes found in the blood are:

neutrophils, eosinophils, basophils

If agglutinogen "B" meets with agglutinin "anti-A" the result would be:

no agglutination would occur

If agglutinogen "B" meets with agglutinin "anti-A", the result would be:

no agglutination would occur

Protein synthesis in a circulating RBC occurs primarily in:

none of these

Which of the three "other solutes" is responsible for ATP production?

organic nutrients

What is the function of Albumins?

osmotic pressure (water going over a membrane)

Regulatory functions of blood

pH Electrolytes Fluid loss/Hemostasis Body temperature

Anemia is:

painful, not enough erythrocytes

A vitamin B12 deficiency results in the type of anemia known as:

pernicious

The ground substance of the blood is the:

plasma

whole blood -->

plasma and formed elements

lymphocytes

plasma cells are derived from:

Serum is:

plasma minus fibronigen

During fibronlysis, the clot gradually dissolves through the action of

plasmin

during fibrinolysis the clot dradually dissolves through the action of

plasmin

After a clot has formed, the clot shrinks due to the action of actin and myosin filaments contained in

platelets

neutrophils -->

polymorphonuclear leukocytes

The acticity of the common pathway stimulates both the intrinsic and extrinsic pathways by the:

positive feedback loop which accelerated the clotting process

The activity of the common pathway stimulates both the intrinsic and extrinsic pathways by the:

positive feedback loop which accelerates the clotting process.

An arterial puncture generally drawn from the radial artery at the wrist or the brachial artery at the elbow would primarily be used for:

preparing a blood smear

Iron is necessary int he diet because it is involved with:

prevention of hematuria

heparin-->

prevents clotting

Define erythropoiesis.

production of red blood cells

ferritin -->

protein-iron complex

The "common pathway" in blood clotting involves the following events in sequential order as follows:

prothrombin ---> thrombin ---> fibrinogen ---> fibrin

In adults, the circulatory blood:

provides nutrients, oxygen, and chemical instructions for cells, is a mechanism for waste removal for cells, transports special cells to defend tissues from infections and disease

In adults, the circulatory blood:

provides nutrients, oxygen, and chemical instructions for cells; is a mechanism for waste removal for cells; and transports special cells to defend tissues from infection and disease

The best laboratory procedure for obtaining blood to determine the hemoglobin level is:

puncturing the tip of a finger

The best laboratory procedure for obtaining blood to determine the hemoglobin level is:

puncturing the tip of the finger

The formed elements of the blood consist of:

red and white blood cells, and platelets

What does RBC stand for?

red blood cells

Myeloid (marrow) tissue is also called

red bone marrow

erythr/o-

red, red blood cell

What do basophils do?

releases chemicals that bring additional eosinophils and basophils to the area

What is the function of a T cell?

responsible for cell-mediated immunity

What is the function of a B cell?

responsible for humoral immunity

What is the function of a NK cell?

responsible for immune surveillance

Circulating mature red blood cells lack:

ribosomes, mitochondria and nuclei

The flattened shape of RBcs enables them to form stacks called

rouleax

Homeostasis means:

self-regulating adjustments that keep the body healthy

When clotting proteins are removed from the plasma, the remaining fluid is the:

serum

A anemia resulting from the production of an abnormal form of hemoglobin results in a condition known as:

sickle cell anemia

An anemia resulting from the production of an abnormal form of hemoglobin results in a condition known as:

sickle cell anemia

Why do red blood cells form stacks?

so they can get through narrow, small blood vessels

What do lymphocytes do?

specialize to attack and destroy specific foreign cells, proteins, and cancerous cells, directly or through the production of antibodies.

lymphocytes -->

specific immunity

Venipuncture is a common sampling technique because:

superficial veins are easy to locate the walls of the veins are thinner than arteries the blood pressure in veins is relatively low

Venipuncture is a common sampling technique because

superficial veins are easy to locate, the walls of the vien are thinner than arteries, the blood pressure in veins is relatively low.

clot retraction -->

syneresis

Rh-negative blood indicates:

the absence of Rh agglutinogen

Rh-negative blood indicates:

the absence of the Rh agglutinogen

The part of the hemoglobin molecule that DIRECTLY interacts with oxygen is:

the iron ion

The part of the hemoglobin molecule that directly interacts with oxygen is:

the iron ion

The reason liver disorders can alter the composition and functional properties of the blood is because:

the liver is the primary source of plasma proteins

In hemolytic disease of the newborn:

the mother's agglutinins cross the placental barrier and destroy fetal red blood cells

In hemolytic disease of the newborn:

the mothers agglutinins cross the placental barrier and destroy fetal red blood cells

What does blood regulate?

the pH level and ion composition of interstitial fluid

What does your immune system recognize as normal?

the surface antigens on your plasma membrane

lymphoid stem cells

these divide to produce the various classes of lymphocytes.

What happens as monocytes are actively eating?

they will release chemicals that attract and stimulate neutrophils, additional monocytes, and other phagocytic cells

blood type

this is a classification determined by the presence or absence of specific surface antigens in RBC plasma membranes.

erythropoietin

this is released during anemia, when blood flow to the kidneys declines, when oxygen content of the lungs declines, and when the respiratory surfaces of the lungs are damaged.

erythropoiesis

this is the process of red blood cell formation.

How many new red blood cells enter the bloodstream each second?

three million

A low blood platelet count refers to a condition called:

thrombocytopenia

Platelet production -->

thrombocytopoeisis

A condition which generally results from accelerated platelet formation in response to an infection, inflammation, or cancer is:

thrombocytosis

A condition which generally results from accelerated platelet formation in response to infection, inflammation, or cancer is:

thrombocytosis

The rate of megakaryocyte activity and platelet formation is regulated by:

thrombopoietin interleukin-6 multi-CSF

The rate of megakaryocyte activity and platelet formation is regulated by:

thromopoietin, interleukin-6, multi-CSF

Stem cells responsible for lymphopoiesis are located in:

thymus and spleen lymphnodes and red bone marrow

The extrinsic pathway involved in blood clotting involves the release of:

tissue factors and tissue thromboplastin

The extrinsic pathway involved in blood clotting involves the release of:

tissue factors and tissue thromoplastin

What is something that does NOT get transported by blood?

toxins

What do white blood cells defend against?

toxins and pathogens

What does blood defend against?

toxins and pathogens

During red blood cell recycling, each heme unit is stripped of its iron and converted to:

transferrin

The PRIMARY function of a mature red blood cell is:

transport of respiratory gases

The primary function of a mature RBC is:

transport of respiratory gases

What do erythrocytes do?

transport oxygen

globulin -->

transport protein

What is water used for?

transportation

The primary function of blood is:

transportation of dissolved gases, nutrients, wastes, and homones; regulation of pH and ion composition of interstitial fluids; defense against doxins and pathogens

What is the function of Globulins?

transports ions, hormones

T/F: In a mature red blood cell, energy is obtained exclusively by anaerobic respiration.

true

A person with type O blood contains:

type O blood lacks agglutinins altogether

the first phase of hemostasis involves a period of local vasoconstriction called the ______ phase

vascular

The process of hemostasis includes five phases.

vascular, platelet, coagulation, clot retraction, clot destruction

The process of homeostasis includes 5 phases. The correct order of the phases as they occur after injury is as follows:

vascular, platelet, coagulation, clot retraction, clot destruction

What is collecting blood for analysis called?

venipuncture

median cubital vein -->

venipuncture

median cubital vein -->

venpuncture

Interactions between the dissolved proteins, formed elements, and the surrounding water molecules determine the body's

visocity

Electrolytes

vital cellular activities

What part of plasma is responsible for transporting the blood cells:

water

4

what percent of plasma proteins does fibrinogen account for?

Agglutination occurs

when an antibody is able to bind to an agglutinogen allowing the red blood cells to attach to each other. If agglutination occurs, substance is present, gives type of blood. Reaction gives type.

hemolysis

when this occurs, the Hb breaks down, and the alpha and beta chains are filtered by the kidneys and eliminated in urine.

The formed element of the blood include:

white blood cells red blood cells platelets

The "patrol agents" in the blood that defends the body against toxins and pathogens are:

white blood cells & antibodies

The "patrol agents" in the blood that defend the body against toxins and pathogens are:

white blood cells and antibodies

What type of fish were being used to research Von Willeband Disease?

zebra fish