lecture exam 2

Question 1

What does the lymphatic system collect from surrounding tissues and return to the blood?

Answer 1

Interstitial fluids that leak out of blood capillaries

Question 2

What are the normal components of lymph?

Answer 2

Water, plasma proteins, fats, lymphocytes

Question 3

What are the functions of the lymphatic system or tissue?

Answer 3

Return interstitial fluids to blood circulation, absorb lipids from digestive tract, filters the blood and mounts an immune response to defend against infections

Question 4

How does the permeability of lymphatic capillaries compare to that of blood capillaries?

Answer 4

Lymphatic capillaries are more permeable than blood capillaries due to their flaplike minivalves and collagen filaments.

Question 5

Where are lymphatic capillaries found in the body? Where are they absent?

Answer 5

Found everywhere except
bones, teeth, bone marrow, CNS, and avascular tissues

Question 6

are specialized lymph capillaries that occur in the fingerlike projections (villi) that extend into the small intestine.

Answer 6

Lacteals

Question 7

Which lymphatic structure drains lymph from the right upper limb and the right side of the head and thorax?

Answer 7

right lymphatic duct

Question 8

Which lymphatic structure drains lymph from the left side of the body and lower body?

Answer 8

thoracic duct

Question 9

What are the mechanisms that maintain lymph flow?

Answer 9

Skeletal muscle action, thoracic pressure changes, pulse of nearby arteries, and valves that prevent backflow

Question 10

What do both lymph transport and venous blood flow have in common?

Answer 10

Have minimal (or none)
pressure propulsion; both contain valves to prevent backflow of fluids.

Question 11

Explain how disorders of lymphatic structures can result in edema.

Answer 11

Edema is fluid buildup, this can
happen when there is poor circulation, swollen glands, or parasitic/bacterial infections.

Question 12

What are the small organs associated with lymphatic vessels?

Answer 12

Lymph nodes

Question 13

What kind of tissue predominantly makes up lymphoid tissue?

Answer 13

reticular connective tissue

Question 14

Where are large clusters of lymph nodes found within the body?

Answer 14

Axillary, cervical, inguinal, and
mammary regions.

Question 15

Be able to list and/or label the major structures of a lymph node. What vessels allow lymph to enter and exit a lymph node?

Answer 15

The capsule is a connective tissue membrane that surrounds the entire lymph node. Trabeculae are projections of the capsule that extend into the node to form compartments. Fluids enter via afferent vessels and exit via efferent vessels. As lymph travels into the lymph node, it is filtered as it passes through follicles located in the cortex and sinuses located in the medulla.

Question 16

What is a bubo?

Answer 16

Inflammation of a lymph node

Question 17

What is elephantiasis?

Answer 17

Parasitic disease that causes swelling, usually found in the feet

Question 18

What are the other lymphoid organs besides lymph nodes?

Answer 18

Spleen, thymus

Question 19

What are the functions of the spleen?

Answer 19

Filters blood, destroys and recycles old RBC’s, blood reservoir, and produces blood cells during fetal development

Question 20

What are the tissues referred to as MALT? List them

Answer 20

Peyer’s patches, appendix, and tonsils

Question 21

What are the functions of the thymus gland? What affect does age have on the size of the thymus?

Answer 21

Promotes maturation of T-cells; grows during childhood to maximum size around puberty, then gets smaller as it atrophies to fat by the time you end puberty

Question 22

Which immune cells become immunocompetent due to thymic hormones?

Answer 22

Mature T-cells

Question 23

What are Peyer’s patches and where are they located?

Answer 23

Nodules of lymphatic tissue in the ileum of the small intestines.

Question 24

Name each of the tonsils and their locations. What is their function?

Answer 24

Pharyngeal, palatine, and lingual
tonsils. Function is to filter particles entering the body through the mouth or nose

Question 25

List the mechanisms that play a role in the body’s first line of defense against microorganisms

Answer 25

Skin: low pH, keratin, dermicidin. Gastric juice has low pH. Mucous membranes entrap foreign materials. Saliva contains antimicrobial proteins.

Question 26

List the mechanisms that play a role in the body’s second line of defense against microorganisms.

Answer 26

Phagocytic cells, NK cells, inflammation, antimicrobial proteins, and fever

Question 27

What is opsonization? Explain.

Answer 27

The process in which proteins and antibodies bind to a foreign particle to make its surface more adherent to phagocytes

Question 28

List the mechanisms of the innate immune system defenses.

Answer 28

Skin and mucous membranes first, followed by cells and chemicals

Question 29

What are natural killer (NK) cells? Describe their role.

Answer 29

Lymphocytes that causes non-self cells to undergo apoptosis.

Question 30

What are the cardinal signs of inflammation?

Answer 30

Redness, heat, swelling, and pain

Question 31

What are the functions of the inflammatory response?

Answer 31

Increase blood flow to tissue to aid in repair

Question 32

Since parasitic worms are too large to phagocytize; they are attacked mainly by (cell type)

Answer 32

eosinophils

Question 33

Explain the happenings of phagocyte mobilization?

Answer 33

Phagocytes are able to find an injury site due to chemotaxis, which is the movement of cells in response to chemical gradients

Question 34

What are macrophages? Describe their role.

Answer 34

Macrophages are the main phagocytic cell within our body,
so they play a large role in destroying foreign materials.

Question 35

Explain what happens during chemotaxis.

Answer 35

Chemical gradients changing at an injury site attracts more
phagocytes.

Question 36

What is the role of interferon in defense against disease?

Answer 36

Proteins that an invaded cell secretes to stimulate neighboring cells to produce antiviral proteins.

Question 37

What is fever? What occurs that leads to a fever?

Answer 37

Rise in body temperatures due to chemicals secreted by leukocytes and macrophages called pyrogens.

Question 38

What are the characteristics of the adaptive immune system?

Answer 38

Must encounter antigen before mounting a defense against it. Takes longer to occur (4-6 days), but has memory for subsequent times the antigen enters the body.

Question 39

Explain the relation between self and nonself antigens and the immune cells.

Answer 39

Immune cells recognize
self vs non-self cells due to glycoproteins present on the cell membrane. This allows an immune response to be mounted against non-self cells, or self cells that have been invaded.

Question 40

Small molecules that bind with self-proteins to produce antigenic substances are called

Answer 40

haptens, aka incomplete antigens.

Question 41

What are the characteristics of complete antigens?

Answer 41

They are large molecules capable of stimulating an
immune response on their own.

Question 42

Can an antigen have many different antigenic determinants?

Answer 42

Yes, meaning multiple antibodies can be produced for the same antigen.

Question 43

Antigens exhibit immunogenicity and reactivity. What does this mean?

Answer 43

Immunogenicity is the ability to
stimulate the proliferation of specific lymphocytes. Reactivity is the ability to react with antibodies and lymphocytes released with an immune response

Question 44

What are epitopes?

Answer 44

Specific part of an antigen that a lymphocyte recognizes and binds to; also called antigenic determinants.

Question 45

What types of polymers can become antigens?

Answer 45

Proteins, polysaccharides, lipids, and nucleic acids are the most common antigens.

Question 46

What is the significance of MHC proteins, Class I and II, to the immune response?

Answer 46

Glycoproteins found
on a cell membrane that allow the immune system to differentiate between self and non-self cells.

Question 47

What is immunocompetence as in B or T cells?

Answer 47

The lymphocyte becomes mature when it displays
antigen receptors on its plasma membrane that allow it to bind to a specific antigen. Types of antigen receptors depends on genes.

Question 48

B lymphocytes develop immunocompetence in the

Answer 48

bone marrow

Question 49

What are primary lymph organs and secondary lymphoid organs?

Answer 49

Primary: bone marrow and thymus. Secondary: lymph nodes, spleen, and tonsils

Question 50

It is our ___ not antigens, that determine what specific foreign
substances our immune system will be able to recognize and resist.

Answer 50

genes

Question 51

When do T cells and B cells become fully immunocompetent?

Answer 51

When they have encountered their antigen

Question 52

Where are the antigen-binding sites on an antibody molecule?

Answer 52

Variable region

Question 53

The antibody molecule is held together by __ bonds

Answer 53

disulfide

Question 54

What are the results of antibody activity i.e. what is the function of antibodies?

Answer 54

Bind to antigen to be detected by B cell.

Question 55

What is the number of binding sites per functional antibody unit of the following antibodies: IgD, IgA, IgG, and IgM?

Answer 55

IgD: 2 binding sites; IgA: 4 binding sites; IgG: 2 binding sites; IgM: 10 binding sites

Question 56

How do antibodies contribute to complement fixation?

Answer 56

When an antibody binds to an antigen, this triggers complement to bind to them, leading to lysis of the foreign cell.

Question 57

Before a B lymphocyte can secrete antibodies it must transform into ___ cells

Answer 57

plasma

Question 58

What is clonal selection in B cells? What does it result in?

Answer 58

Clonal selection is when a B cell encounters its specific antigen then proliferates, producing clones of itself. This takes about 4-6 days, and the clones
differentiate into either plasma cells or memory cells.

Question 59

How do B cells respond to the initial antigen challenge?

Answer 59

By producing plasma and memory cells

Question 60

How does the primary immune response compare to the secondary response? What occurs and what is the rate of response in both?

Answer 60

Primary immune response takes 4-5 days to initiate and antibody levels decline after several weeks. Secondary immune response is re-exposure to an antigen and response only takes a few hours, and antibody levels will stay higher for months.

Question 61

Compare and contrast active and passive immunity. Give examples of each

Answer 61

Active immunity is when a
B-cell encounters antigens and produces antibodies against them; naturally acquired in response to bacteria, or artificially acquired in response to vaccine. Passive immunity is when already made antibodies are introduced into the body; naturally acquired through the placenta or breast milk; artificially acquired through serum injections.

Question 62

The function of the__ is to promote the maturation of T lymphocytes through the secretion of thymopoietin and thymosin.

Answer 62

thymus

Question 63

How do interleukins 1 and 2 enhance T cells?

Answer 63

Interleukins stimulate T-cells to proliferate and differentiate according to their function; specifically, interleukin 1 promotes inflammation, and
interleukin 2 stimulates T and B cell proliferation.

Question 64

are released by activated T cells and macrophages to mobilize immune cells and attract other
leukocytes into the area.

Answer 64

cytokines

Question 65

Compare and contrast CD4 and CD8 cells.

Answer 65

CD4 cells usually become helper T cells (also regulatory T cells) that activate B cells and other T cells, as well as macrophages. CD8 cells become cytotoxic T cells that destroy cells containing foreign antigens. Both can also become memory cells

Question 66

List the various types of T cells and their function. Which is the most critical cell in immunity?

Answer 66

Helper T cells direct the activation of other immune cells, and they are the most critical cell in immunity. Cytotoxic T cells directly attack and kill other cells. Regulatory T cells suppress the activity of lymphocytes via cytokines to prevent autoimmune responses. Memory T cells are long-lived and allow a faster response to a subsequent invasion.

Question 67

The only T cells that can directly attack and kill other cells are the

Answer 67

cytotoxic T-cells

Question 68

Define each of the following grafts and give examples: isografts, allografts, xenografts, autografts. Which results in graft rejection?

Answer 68

An isograft is from a genetically identical twin, an allograft is from an individual of the same species, a xenograft is from another animal species, and an autograft is from another part on the same body.

Question 69

What are proposed causes of autoimmune disorders?

Answer 69

The combination of genes and the environment

Question 70

What is a delayed hypersensitivity reaction?

Answer 70

An allergic reaction that occurs 24-48 hours after exposure due to time needed for T-cell activation.