Fundamentals of Immunology for Blood Bankers

Question 1

What is the immune system (IS)?

Answer 1

A controlled system of biological components (cells, tissues etc.) that work together to defend the body from invasion/infection.

Question 2

What is immunity?

Answer 2

A specific response by the immune system to a previosly encountered pathogen via antigen-antibody complexes.

Question 3

What are Cytokines?

Answer 3

• soluble protein and peptide molecules are powerful mediators of the immune system.
• comminucated between cells through plasma

Question 4

How do Cytokines work? (3)

Answer 4

• bind to receptors on cells, # of receptors increase as cell is stimulated
• receptor and cytokine internalized, causes taret cell to differentiate
• cells respond to cytokines and react with chemoattraction, antiviral, antiproliferation, and immunomodulation

Question 5

Name two cytokines?

Answer 5

• Lymphokines - produced by lymphocytes
• Monokines - produced by monocytes and macrophages.

Question 6

What are Chemokines? (3)

Answer 6

• A type of cytokine
• A signalling protein produced that attracts leukocytes to the site of infection/inflammation. So immune cells can target and destroy invading bodies like microbes
• Form a concentration gradient; cells attracted to gradient and move toward higher concentration.

Question 7

Compare natural immunity and adaptive (acquired) immunity?

Answer 7

See Pictures

Question 8

What are the main components of Cellular and Humoral Immunity?

Answer 8

See picture

Humoral - Fluid Component: Complement (missing from table)

Question 9

What are the Physical and Biochemical Barriers in natural immunity?

Answer 9

Question 10

Acquired immunity: the antibody that the antigen is made against can be referred to as?

Answer 10

Antithetical Antigen

Question 11

Antigen-antibody complexes are known to be _____ _______ _____ which do not allow the recognition of near misses.

Answer 11

Three dimensional interactions

Question 12

What cells are responsible for humoral immunity?

Answer 12

B-cells

Question 13

When b-cells are activated and start procuding antibodies, they are called?

Answer 13

Plasma cells

Question 14

What do B cells do when they re-encounter a specific antigen?

What do they do when they encounter and unknown matching antigen?

Answer 14

• Multiple (clone itself)
• Internalizes antigen fragments, combines it with and presents it on its surface using its MHC II molecules.

Question 15

Represent 60-80% of circulating lymphocytes and are the primary cells in cell mediated immunity.

Answer 15

T cells

Question 16

What do T Helper (CD4) cells do? (4)

Answer 16

• Activate and direct the actions of other immune cells:
  
  • Secrete cytokines that activate macrophages
  • Activate B cells which make antibodies
  • Recognise antigen with help of MCH II molecules

Question 17

What do Cytotoxic T-Cells (CD8) do?

Answer 17

• Attack and lyse infected / damaged / dysfuctional cells

Question 18

What do regulatory supressor T -cells do?

Answer 18

• Regulate the immune response
• inhibit activities of B and T cells to prevent immune system going out of control.

Question 19

What are Natural Killer (NK) cells? (3)

Answer 19

• Granular lymphocytes that lyse virally infected cells, malignant cells and antibody-antigen complexs without needing stimulation.
• NK Cells act on cells missing self (MHC I)
• MHC I inhbits NK cells

Question 20

What is the purpose of neutrophils?

Answer 20

• Phagocytosis
• Use granules in cytoplasm to break down ingested material and kill microrganisms

Question 21

Where do basophils accumulate and what do they do?

What Ig are they activated by?

Answer 21

• Inflammatory sites
• release histamines
• IgE

Question 22

What funstions do Eosinophils perform? (2)

Answer 22

• Kill invading microorganisms, incl. some parasites
• control allergic reactions by secreting histaminase, enzyme that breaks down histamine. Stops allregic reaction gettingout of control

Question 23

Where are monocytes found?

Answer 23

• In the blood, when they enter tissues they become tissue macrophages

Question 24

What are the two functions moncytes / macrophages perform?

Answer 24

• engulf and ingest antigents via phagocytosis
• Are Antigen Presenting Cells (APCs) that process and present antigens to lymphocytes during the immune repsponse.

Question 25

What do APCs do?

Answer 25

• Display parts of ingested antigens bound to Major Histocompatibility Complex molecules (MHC) on their surfaces.
• certain T cells recognise this antigen-MHC complex and become active

Question 26

What steps are involved in antigen presentation by APCs?

Answer 26

1. antigen ingested and broken down
2. vesicle w/ MHC molecules merges w/ vesicle w antigen bits, form antigen-MHC complex.
3. Antigen-MHC complexes expoerted to surface
4. CD4 / CD8 cells activated based on type of antigen-MHC complex exposed. MHC molecules help T cells recognise foreign antigens.

Question 27

What part of the genome encodes MHC?

Answer 27

Human Leukocyte Antigen or Major Histocompatibility Factors

Question 28

What is critical to MHC?

Answer 28

immune recognition and regulation of antigen presentation in cell-to-cell interations, transplantation, paternity testing, and specific HLA patterns.

Correlates with sucesptibiilty to certain diseases

Question 29

What the classes of MHC molecules and their roles?

Answer 29

• Class I -
  
  • on all nucleated cells except trophoblasts (egg) and sperm, key in role in CD8 function.
• Class II
  
  • presemt on antigen presenting molecules like B-lymphocytes, activated T-cells, and dendritic cells.

Question 30

What are the 5 classes of Igs?

Answer 30

• IgG
• IgM
• IgA
• IgE
• IgD

Question 31

What is the function of IgG? (5)

Answer 31

• Can cross placenta - immunity to neonates
• neutralize toxins, fight infections
• Produced in response to antigens in transfusions / pregnancy
• Most involed in immune repose to antigens
• 80% of Igs are IgG

Question 32

What is the function of IgM? (8)

Answer 32

• Antigenic receptor site on immature B-lymphocytes
• 10 bingding sites
• Neutralizes toxins
• Most effective antibody for agglutintion
• Activates complement w/ 5c region
• Largest, first and main antibody in primary immune response.
• 6% of Igs

Question 33

What is the function of IgA? (4)

Answer 33

• Protect from bacteria and viruses
• Can cause anaphylactic transfusion reactions
• Secretory antibody
• 13% Igs

Question 34

What is the function of IgE? (5)

Answer 34

• Moderates release of histamines and heparin from basophils and mast cells.
• Attaches to surface of basophils and triggers immune response
• responsible for immediate hypersensitivity/allergic reactions/parasite infections
• receptors blocked by antihistamines
• <1% Igs

Question 35

What is the function of IgD?

Answer 35

• Dont really know
• may act as receptors for antigens when found on the surface of b-lymphocytes

Question 36

What are antigens?

Answer 36

• Any substance capable of interacting with an antibody
• can cause an immune response
• contain antigenic determinants called epitopes.

Question 37

What us an epitope?

Answer 37

The specific part of the antigen that is recognised by the immune system and part that binds w/ the antibody, b-cell or t-cell

Question 38

Describe primary antibody structure?

Answer 38

• Y shape formed by:
  
  • 2 large chains (inside)
  • 2 light chains (outside arms)
  • Bound by covalent bonds and disulfide bridges

Question 39

What enzymes cleave antibodies into 3 fragments?

What are the 3 fragments antibodies can be cleaved into?

Where are the above sites located on the Y shape and what do they bind?

Answer 39

• Papain
• Pepsin
• 2 antigen binding fragments (FAB - Fragment Antigen Binding sites)
• 1 Crystalizable site (Fc - Fragment Crystalizable)
• FAB - top of antibody ( consists of heavy and light chain) - binds antigens
• Fc - bottom (heavy chains only), binds receptors on specific immune system cells

Question 40

What is the variable domian of an antibody?

Answer 40

• Upper part of the FAB sites
• this area binds to s specific antigen
• 1 variable region at the top of each light and heavy chain.

Question 41

What is the Constant domain and its role?

Answer 41

• This is the bottom of the Y on an antibody consisiting of both heavy chains.
• Activates complement cascade

Question 42

What is the Hinge region?

Answer 42

• Center portion of the antibody
• lets antibody be flexible
• area where antibody can be broken apart by chemical treatment

Question 43

What does the primary response depend on?

Answer 43

characteristics of the antigen and individual

Question 44

IgM antibidy response proceeds in four phases after antigen challenge. What are the 4 phases?

Answer 44

• Lag - no antibody detectable
• Log - antibody titre increases logarthmically
• Plateau - antibody titre stabilizes
• Decline - antibody is catabolized

Question 45

When does the secondary (amnestatic) response occur?

Answer 45

After repeated exposure to the same foreign substance.

• Stimulates proliferation of clonces of memory cells followed by corresponding antibody production.

Question 46

How is the secondary response different from the primary response phases? (5)

Answer 46

• Shorter lag phase
• longer plateau
• more gradual decline
• IgG is main antibody
• Antibody levels are higher - 10X or greater

Question 47

What is antibody affinity?

Answer 47

strength of attraction of antibody FAB site and expitope/determinant site on an antigen

Question 48

What is antibody avidity?

Answer 48

The functional combining strength of antibody with its corresponding antigen.

strength of bonding is increased with multivalent antigen combined with more than one antibody combining activities.

To dissociate complex, all Ag-Ab bonds must be broken simultaneously

Question 49

What are monoclonal antiodies?

Answer 49

Purified antibodies from a single cell.

• Very pure and very specific for a particular antigen

Question 50

How were monoclonal antobodies produced?

Answer 50

• Fusing lymphocyes to produce a specific cell line that was immortal and produced specific antibodies. (Kohler, Mildstein, and Jerne 1975)
  
  • Hybridoma (cell hybrid) (developed from myleoma (tumor) plasma cells)
  • hybrid cells secrete antibodies characteristic of parent cell
  • MAbs (monoclonal antibodies)

Question 51

What is the greatest impact of MAbs in the analysis of cell membrane antigens in clinical applications? (5)

Answer 51

• Typing Tissue and Blood
• ID infectious agents
• ID tumor antigens and autoantibodies
• ID and quantifify hormones
• delivering immunotherapy

Question 52

What is complement?

Answer 52

A complex group of > 20 circulating and cell membrane protiens, protienases, and other enzymes.

The larger fragment is designated “b” and the smaller fragments as “a” EXCEPT for C2 which is the other way around.

Most of the proteins are normally inactive, but in response to the recognition of molecular components of microorganisms they become sequentially activated in an enzyme cascade – the activation of one protein enzymatically cleaves and activates the next protein in the cascade. Complement can be activated via three different pathways

Question 53

What are the primary roles of complement? (5)

Answer 53

• Direct lysis of cells and bacteria
• Oposonization
• phagocytosis
• Makes fragment split products involved in: inflammatory responses
• Memebrane Attack Complex (MAC)

Question 54

What are the three pathways that acivate complement protiens through a cascade event?

Answer 54

• Classical
• Alternative
• Lectin

Question 55

Where do the 3 complement cascade pathways converge?

What proteins are common to all 3 pathways?

Answer 55

• Pathways converge at the point of cleavage of C3 to C3b
• C2 and C5 are common to all 3 pathways

Question 56

What are three techniques to detect antibodies or antigens?

Answer 56

• Hemagglutination (precipitation)
• Agglutination inhibition
• Hemolysis

Question 57

What are the antibody or antigen tests that use radioisitope, enzyme or flourescent labels? (4)

Answer 57

• Radioimmunoassya (RIA)
• ELISA
• Western Blot (WB)
• Immunoflourescence (IF)

Question 58

Hemagglutination Technique: What are Red cell agglutination reactions used for?

Answer 58

• Analalyse blood group antigen-antibody responses
• typing ABO, Rh,a nd other blood group antigens

Question 59

What are the two stages of Red cell agglutination reactions?

Answer 59

• Sensitization
  
  • ​Antigen-Antibody binding
  • Epitopes on RBC membrane bind w/ FAB region
  • No Agglutination visible
• Precipitation
  
  • ​Lattice structure composed of antigen-antibody bridges
  • Visible agglutination present

Question 60

Describe the Agglutination Inhibition Method?

What is this test useful for?

Answer 60

• Substrate added to reagtion that blocks agglutinate formation (antibody-antigen complex)
• Secretory studys to check for ABO subtances prescence in body fluids and secretions

Question 61

Describe the Hemolysis method?

Give an example?

Answer 61

• String positive result indicates formation of antibody-antigen complex fixed by a complement system resulting in RBC lysis
• Lewis blood group antibodies:
  
  • Anti-Le^a
  • Anti-Le^b

Question 62

What intiates and immune response?

Answer 62

• Presentation of antigen (initiates formation, reacts with antibody)
• Immunogen (initiates immune response)

Question 63

What is primarily detected in blood banking?

Answer 63

• Detection of antibodies to blood group antigens

Question 64

What factors influence antigen-antibody reactions? (4)

Answer 64

• Intermolecular binding forces
• antibody properties
• Host factors
• tolerance

Question 65

What cell assists in antibody-dependent cell mediated cyctotoxicity (ADCC)?

Answer 65

lymphocytes

Question 66

What are host factors?

Answer 66

Factors unique to a host that determine an individuals immune response:

• Age
• Sex
• Hormones
• Nutritional status
• Race
• Exercise
• Disease/injury

Question 67

What factors influence the first stage of agglutination and must be controlled by a technician? (6)

Answer 67

• Centrifugation
• Temperature
• pH
• Incubation time
• type of enhancement media
• Zonal reactions

Question 68

Temperature:

1. IgM react best at what temperature range?
2. IgG are better detected at what temperature?

Answer 68

• React best 4 - 27 ^oC (immediate spin phase)
  
  • ABH, I, M, N, Le^a, Le^b, P₁
• 37 ^oC with AHG phase
  
  • D,C, E, c, e, K, F_y, J_k, S, s, Le^a, Le^b
• Antibodies that react in vitro below 37 ^oC = no clinical significance because rarely destroy transfused cells

Question 69

Why is centrifugation of RBCs and important factor?

Answer 69

• Having RBCs iin closer togther they overcome zeta potential (repel eachother)
• increased antibody-antigen formation
• Better agglutination

Question 70

What are 3 kinds of enhancement media and their effect on test?

Answer 70

• LISS - low ionic strength, RBCs take up antibody quickly 15 - 30 mins at 37^oC
• PEG (polyethylene glycol) - increases test sensitivity, 10 - 30 mins at 37^oC
• 22% Albumin - causes agglutination by adjusting zeta potential between RBCs 15 - 60 mins at 37^oC

Question 71

What is the ideal pH for agglutination reactions?

Answer 71

ideally 6.5 - 7.5

Question 72

What are the Zonal Reactions?

Answer 72

Various antibody to antigen ratios:

Question 73

What is the Zone of Equivalence?

Answer 73

Optimum antigen and antibody concentration present

Question 74

What is the Prozone Reaction?

Answer 74

False negative reaction due to excess antiobody

Question 75

What is a postzone reaction?

Answer 75

False negative due to excess antigen

Question 76

What Ig types are important in blood banking?

Answer 76

• IgM
  
  • ABH, MN, Lewis (Le^a and Le^b), Lutheran (Lu^a), and P blood group systems
• IgG
  
  • Ss, Kell (Kk, Js^a, Js^b, Kp^a, Kp^b, Lutheran (Lu^b), Duffy (Fy^a, Fy^b) and Kidd (Jk^a, Jk^b) antigens

Question 77

What is Hypersensitivity?

Answer 77

An inflammatory response to foreign antigens; can be cell or antibody mediated.

Question 78

What is Type I hypersensitivity? (4)

Answer 78

• Anaphylaxis or immediate hypersensitivity
• histamine released by mast cells / basophiles w/ IgE
• IgE made against antibodies
• Occurs in IgA deficient individuals who recieve plasma w/ IgA

Question 79

What is Type II Hyper sensitivity? (3)

Answer 79

• Involves IgM or IgG w/ complement, phagocytes, and proteolytic enzymes.
• Examples are:
  
  • HDN
  • Transfusion reactions
• Caused by blood group antibodies and autoimmune hemolytic reactions.

Question 80

What is Type III hypersensitivity? (2)

Answer 80

• Involves IgG + Phagocytes and IgM + complement
• Results in tissue damage from:
  
  • Immunue complexes of antigen-Ab aggregates
  • Complement
  • Phagocytes
  • Penecillin and oth. drug induced antibodies can lead to HTRs

Question 81

What is Type IV hypersensitivity? (3)

Answer 81

• T-cell mediated and their cytokines
  
  • fatal if untreated
• GRAFT VS. HOST (most common cause)
• Immunocompromised and immunosuppresed patients must received iraadiated blood products so t-lymphocytes do not engraft and attack host tissues
  
  • bone marrow transplant recipients
  • stem cell recipients

Question 82

What are monoclonal and polyclonal gammopathies?

Answer 82

• Plasma cell neoplams cause abnormal Igs from single b-cell clone (mono)
• Plasma cell neoplams cause abnormal Igs from multiple b-cell clones (poly)

****multiple myloma patients demonstarte rouleux during testing

Question 83

Hemolytic Diseases of the Newborn (HDN): Severe HDFN is most often associated with which antibodies?

Answer 83

IgG

Question 84

What are the primary phagocytic cells?

Answer 84

• Polymorphonuclear neutrophilic (PMN) leukocytes
• Mononuclear monocytes-macrophages

Question 85

What is the process of phagocytosis? (4)

Answer 85

• Chemotaxis
• Adherence (opsonization)
• Engulfment
• Digestion
• Subsequent phagocytic activity

Question 86

What are the only imunologically specific cellular components of the immune system and the adaptive components of innate immunity?

Answer 86

B Lymphocytes and T Lymphocytes

Question 87

What makes up primary (central) lymphoid tissue?

Answer 87

• Bone marrow
• (and/or fetal liver)
• Thymus

Question 88

What are the secondary lymphoid tissues? (8)

Answer 88

• Lymph nodes
• spleen
• GALT (guts Associated Tissues)
• BALT (bronchus associated tissues)
• SALT (Skin assoicated tissues)
• Thoracic duct
• Blood
• Mature lymps and accessory cells ( i.e. APCs)

Question 89

Most circulating lymphocytes are ____ , they are responsible for cellular immune responses and involved in the regulation of antibody reactions in conjunction with ____.

Answer 89

• T lymphocytes
• B lymphocytes

Question 90

What are the subset of B cells?

How are they distiguished?

Answer 90

• B1 and B2 cells
• B1 cells are distiguished by the CD5 marker, self renewing set, respond to common microbe antigens, and sometimes generate autoantibodies

Question 91

B cells are derived from an antigen-independent maturation process occuring in?

Answer 91

Bone Marrow

GALT

Question 92

These cells are not normally found in circulating blood, but in the bone marrow in cencentrations no higher than 2% normally. What are they?

Answer 92

Plasma cells

Question 93

B and T cells mature into _____ _____, the functional unti of the immune system.

Answer 93

Effector Cells

Question 94

What are the four unique serum proteins found in the alternative pathway?

Answer 94

• Factor D
• Factor B
• Factor P (Properdin)
• IF (initiating factor)

Question 95

What are the inhibitory proteins that regulate complement? (8)

Answer 95

• C1 Inhibitor (C1NH)
• Factor H
• Factor I
• C4-Binding Protien (C4BP)
• Anaphylatoxin inhbitor
• Anaphylatoxin inactivator
• MAC inhibitor
• C3 Nephritic Factor (NF)

Question 96

What are the physiological consequences of complement activation?

Answer 96

• Blood vessel dialation
• Increased vascular permeability
• Cellular consequences:
  
  • **Hemolysis** most impt in blood banking, concern is cell membrane lysis of antibody coated targets
  • Opsonization facilitating phagocytosis
  • Mediating hypersensitivity
  • Cell activation productig inflammatory mediators
  • Cytolysis

Question 97

Complement can be elevated in many inflammatory conditions and is therfore not clincally significant.

Low levels of complement suggest what biological effects? (3)

Answer 97

• Complement excessively activated recently
• Complement is currently being consumed
• Single complement component missung due to genetic defect.

Question 98

Complement is analysed by a _____ _____ ______ called __________?

Evaluation of which components is most useful in hemolytic transfusion reactions and autoimmune hemolytic anemias?

Answer 98

• Serum/plasma assay
• Nephelometry
• C3b and C3d

Question 99

What are non-specific indicators of an inflammatory response?

Answer 99

Acute-phase reactants

Question 100

Acute phase reactants include? (4)

Answer 100

• C-reactive protiens (CRP)
• Inflammatory mediators (C3 and C4)
• Fibrinogen
• Transport protiens (haptoglobin)
  
  • Inhibitors (alpha1-antitrypsin)
  • a1-acid-glycoprotein.

Question 101

Why is C-reactive protein an acute phase protein of choice for testing?

Answer 101

• Changes show great sensitivity
• Changes independent of ESR and parallel to inflammation
• direct and quantitative measure of acutephase reation, due to its fast kinetics, gives info on actual clinical situation.

Question 102

CRP is valuble monitoring therapy and diseaseactivity in?

Answer 102

• Rheumatoid arthritis
• Bacterial infection (septicemia)
• Rheumatic fever
• Crohn’s disease
• myocardial infraction
• stronger predictor of cardiovascular events than LDL Cholesterol
• Elevated can signal infection much earlier than bacterial culture confirmation

Question 103

The C reactive protein agglutination test is based on?

Answer 103

Reaction between patient serum containing CRP as the antigen and corresponding antihuman CRP antibodies coated to the treated surface of latex particles

Question 104

What lead to the development of highly specific and sensitive assays?

Answer 104

Monoclonal antibody (MAbs)

Question 105

The specimen of choice for most immunology tests is?

Answer 105

Serum, but oth. body fluids may also be tested

Question 106

Blood specimens are collected when and why?

Answer 106

Before a meal to aviod chyle (emulsion of fat globules) and appear in serum after eating / digestion.

Question 107

What contamination must be avoided because these substances have a denaturig effect of seim proteins?

Answer 107

Acid or alkali

Question 108

What urine specimen is preferred for pregnancy and UTI tests?

Answer 108

Mid-stream clean catch

Question 109

Urine for hCG tests should be collected at a suitable time interval beacuse?

What happens to concentration of hCG after conception?

When are peak levels reached?

Answer 109

hCG levels need to rise to a detectable level.

• hCG doubles every 2 - 3 days with [serum] level reaching 10 - 50 mIU/mL in the week after conception
• Peak levels reached 2-3 months after last period

Question 110

Why is complement inactivation done? (3)

Answer 110

• complement is known to interfere with reaction of certain syphilis tests and complement components (i.e C1q).
• It can agglutinate latex particles = false positive
• can cause lysis of indicator cells in hemagglutination assays.

Question 111

How is complement inactivated?

Answer 111

• Heat at 56^oC for 30 minutes
• When >4 hrs since inactivation done; reinactivate speciment by heating to 56^oC for 10 minutes

Question 112

What is the principle of agglutination tests?

Answer 112

Precipitation and agglutination are the visible expression of the aggregation of antigens and antibodies via the formation of a framework of alternating antibody and antigen molecules.

Question 113

Precipitation is the term for?

Answer 113

Aggregation of soluble test antigens

Question 114

What is agglutination?

Answer 114

Describles the aggregation of particulate test antigens

Question 115

What are some examples of artifical carriers?

Answer 115

• Latex particles and colliodal charcoal
• Cells unrelated to antigen, such as erthrocytes coated with constant amount of antigen can be used as biological carriers.
• Whole bacterial cells with antigen that will bind with antibodies in repsonse to that antigen when intorduced to the host.

Question 116

What factors does the quality of agglutination tests depend on? (3)

Answer 116

• TIme of incubation of antibody with source (serum)
• Amount of avidity of antigen conjugated to carrier
• Conditions of test environment (pH, [protein])

Question 117

Describe latex agglutination? (3)

Answer 117

• Abs bount to surface of latex beads (### exposed antigen binding sites)
• If antigen present (i.e. CRP), it will bind to latrex beads forming visible cross-linked aggregates.
• In some systems (pregnancy, rubella, Abs testing) latex particles coated w/ antigen; in prescence of serum Abs these particles agglutinate into large visble clumps.

Question 118

What are the two subunits of hCG and which one is tested for and why?

Answer 118

• Alpha and Beta
• Beta tested for because the alpha subunit is also found in FSH, LH, TSH as well.
  
  • Beta subunit has a unqiue carboxy-terminal region, so tests have MAb against beta unit to increase specificity and cutt down cross reactivity.

Question 119

What are flocculation tests based on?

Why are is this test macroscopically and microscopically visible?

Answer 119

• Interaction between souble antigen w/ antibody particles, redulting in formation of fine particles.
• macroscopically and microscopically visible because precipitate is forced to remain in a confined space.

Question 120

Floculation testing is used in testing for what?

Name the tests and the antigen antibody process leading to flocculation? (2)

Answer 120

• Syphilis testing
  
  • VDRL
    
    • antibody like protien regain binds to test antigen - cardiolipid-lecithin-cated cholesterol particles ==> particles flocculate
  • Rapid Plasma Regain (RPR)
    
    • cardiolipid-lecithin-cated cholesterol particles with choline chloride contains charcoal = macroscopically visible flocculation.

Question 121

What is Direct Bacterial Agglutination used for?

Answer 121

• Used to detect antibodies against the pathogen
• measure antibody produced by host to the antigen on the surfact=e of bacteria in reponse to infection with it.
• bacterial clump together in visble aggregates

Question 122

What influences the formation of aggregates in solution?

Answer 122

Electrostatic and other forces

Question 123

Why is sterile physiologic saline used for bacterial agglutination?

Answer 123

sterile physiologic saline with free positive ions used enhances aggregation of bacteria because most bacteral serfaces have a -ve charge that causes them to repel eachother.

Question 124

Bacterial Agglutination: Why is tube testing better?

Answer 124

• More sensitive than slide testing
• allows more time for antigen-antibody reaction
• small volume of liquid in slide testing can evaporate quickly

Question 125

What does hemaggutination test?

Answer 125

Antibodies to erythrocyte (RBC) antigens

same principle as latex agglutination

Question 126

What does centrifugation do?

Answer 126

Physically forces cells togther

Question 127

Agglutination enhancement: What does treatment with proteolytic enzymes do?

Answer 127

Alters the zeta potential or dielectric constant to enhance the chances of demonstratable agglutination.

Question 128

Agglutination enhancement: what does the use of Colliods do?

Answer 128

Alters the zeta potential of cells so IgG will be able to agglutinate

Question 129

Agglutination enhancement: When might Antihuman Globulin (AHG) Testing be used?

Answer 129

To facilitate agglutination if other tech. do not work especially if antigens deeply embedded in cell membrane surface.

Question 130

Graded Agglutination reactions?

Answer 130

Question 131

What is the priciple of the hCG test?

Answer 131

Agglutination between latex particles coated with anti-hCG antibodies and hCG

Question 132

What is a positive hCG test?

What is a negative?

What can caise false positives?

Answer 132

• Aggltination w/i 2 mins
• No agglutination seen
• hCG injection
• chrioepithelioma
• hydratiform mole
• Excessive asprin ingestion