Physiology II- Midterm 1

Question 1

What 3 Systems Affect Cardiovascular System?

Answer 1

1. Endocrine
2. Nervous
3. Kidneys

Question 2

What type of organ receives the most blood and what are three examples?

Answer 2

Reconditioning organs

1. Digestive
2. Kidneys
3. Skin

Question 3

Blood flow is adjusted by _______ according to _____.

Answer 3

reconditioning organs, metabolic needs of organs

Question 4

Which organ is least tolerant to blood flow changes?

Answer 4

brain

Question 5

Blood flow depends on ____ and ____.

Answer 5

1. Pressure

2. Resistance

Question 6

Vascular resistance ____ flow rate while pressure gradient ____ flow rate.

Answer 6

decreases

increases

Question 7

What is a Pressure Gradient?

Answer 7

pressure difference between beginning and end of vessel

Question 8

What is Resistance?

Answer 8

measure of opposition to flow

Question 9

What/how effects resistance?

Answer 9

1. Blood viscosity (doesn’t usually change) as v increases, R increases
2. Length (doesn’t change) as L increases, R increases
3. Radius (most changed) as R increases R decreases

Question 10

What determines viscosity?

Answer 10

number of RBC’s

Question 11

Heart–> ____–>____–>____–>____–>____–>Heart

Answer 11

1. Arteries
2. Arterioles
3. Capillaries
4. Venules
5. Veins

Question 12

2 Functions of Arteries

Answer 12

1. Rapid Transit from heart to organs

2. Pressure reservoir to provide driving force

Question 13

Collagen provides _____strength, elastic provides ____ strength.

Answer 13

Tensile, elastic/stretch

Question 14

What is Blood Pressure?

Answer 14

force exerted by blood against a vessel wall that drives blood around body

Question 15

Blood Pressure Depends On…

Answer 15

1. Volume

2. Compliance of vessel walls

Question 16

Arteries are ___ complient than veins

Answer 16

less

Question 17

What is systolic blood pressure?

Answer 17

• peak pressure
• exerted by ejected blood against vessel walls during cardiac systole
• around 120mmHg (“normal”)

Question 18

What is diastolic Blood Pressure?

Answer 18

• minimum pressure
• when blood is draining into vessels downstream
• around 80mmHg (“normal”)

Question 19

What is Pulse Pressure?

Answer 19

• pressure difference between systolic and diastolic pressure
• pulse we can feel close to skin

Question 20

What is Mean Arterial Pressure?

Answer 20

• MAP

- average pressure driving blood forward into tissues throughout cardiac cycle

Question 21

Muscular Arteries

Answer 21

• deliver blood to specific organs
• thick muscular media
• active in vasoconstriction
• helps regulate blood pressure

Question 22

Radius supplying individual organs can be adjusted to….. How?

Answer 22

• distribute CO among organs depending on body’s momentary needs
• dilation increases blood flow
• constriction decreases blood flow

Question 23

Arterioles

Answer 23

• major resistance vessels
• exist within organs
• resistance occurs in arterioles primarily

Question 24

What are the two resistance mechanisms?

Answer 24

1. Vasoconstriction (narrowing)

2. Vasodilation (enlarging)

Question 25

How does vasoconstriction and vasodilation effect resistance and flow?

Answer 25

Vasoconstriction–> decreases flow, increases resistance

Vasodilation–> increases flow, decreases resistance

Question 26

What is Vascular Tone?

2 Factors of Vascular Tone.

Answer 26

degree of constriction experienced by a blood vessel

1. Myogenic activity of smooth muscle
2. Sympathetic fibres continually release norepinephrine

Question 27

What regulates flow?

Flow is never ___ or _____.

Answer 27

• ANS
• nonexistent/stopped
• organ/tissue dies

Question 28

What are intrinsic and extrinsic factors? Local ___ and ____ influences change arterial radius.

Answer 28

Intrinsic–> local environment
Extrinsic –> neuronal inputs
- chemical (histamine, metabolic changes)
- physical (heat, cold, stretch, stress)

Question 29

What is Active Hyperaemia?

What are the 4 causes?

Answer 29

• increase in organ blood flow associated with increased metabolic activity of an organ or tissue
  1. Increases metabolic activity in organ
  2. Decreased O2, increased metabolites in ISF of organ
  3. Arteriolar dilation in organ
  4. Increased blood flow in organ

Question 30

What are the 7 chemical factors that cause vasodilation of arterioles?

Answer 30

1. decreased O2
2. Increased CO2
3. Increased Acid
4. Increased K+
5. Increased Osmolarity
6. Adenosine release
7. Prostaglandin release

Question 31

Endothelial Cells Are…
They release ___ in response to ___.
An example is ____.

Answer 31

• local vasoactive mediators
• locally acting chemical messengers
• chemical changes in their environment
• NO (nitric oxide)

Question 32

Norepinephrine and epinephrine are ___ controls. NE is a ___ and causes ___. E is a _____ or ______ and causes ____.

Answer 32

Extrinsic
a, vasoconstriction
b, vasodilation
a, vasoconstriction

Question 33

Local controls can _____ sympathetic vasoconstriction.

There is no ____ innervation to arterioles.

Answer 33

• override

- parasympathetic

Question 34

The Cardiovascular Control Centre is located in ____ and is the integrating centre for ____.

Answer 34

medulla of brain stem, BP regulation

Question 35

Vasopressin and Angiotensin II control ____.

Answer 35

fluid balance

Question 36

Describe a Capillary

Answer 36

• smallest blood vessel (single file RBCs)
• exchange site for blood and tissues
• thin walled
• small radius
• branched
• slow velocity of blood
• close to target tissues

Question 37

Where does exchange occur in capillaries?

Answer 37

between endothelial cells

Question 38

3 Typesof Capillaries and Example Locations

Answer 38

1. Continuous
   
   • have tight junctions
   • e.g. skin, muscles
2. Fenestrated
   
   • more permeable
   • e.g. kidneys, intestines, hormone tissues
3. Sinusoidal
   
   • incomplete basement membrane
   • e.g. liver, bone marrow, lymphoid

Question 39

What are capillary pores?

Answer 39

• water-filled gaps
• at junctions between cells
• permit water-soluble
• size varies between organs

Question 40

How do lipids and proteins exchange between capillaries and tissues?

Answer 40

Lipids–> pass through lipid bilayer (pass readily)

Proteins–> vesicular transport too big to diffuse (e.g. hormones)

Question 41

What proteins do not pass through capillaries? Why?

Answer 41

plasma proteins, because no mechanisms of transport

Question 42

Two types of passive exchange

Answer 42

1. Passive Diffusion

2. Bulk Flow

Question 43

What is Bulk Flow? What is it for?

Answer 43

-not metabolic (no energy exchange)
-movement of fluid from blood to ISF and back
-through capillary pores
-ultrafiltration and reabsorption
distributes ECF

Question 44

What are the Starling forces?

What do they influence?

Answer 44

1. Capillary Blood–> hydrostatic pressure
2. Plasma–> colloid osmotic pressure
3. Interstitial Fluid–> hydrostatic pressure and colloid osmotic pressure
   - Bulk Flow

Question 45

What is Hydrostatic Pressure?

Answer 45

force exerted by fluid pressing against a wall

Question 46

Where does most filtration occur?

Answer 46

filtration=fluid out

arterial end because pressure is higher

Question 47

What is Colloid Osmotic Pressure?

Answer 47

• force opposing hydrostatic pressure
• created by plasma proteins
• does not vary across capillaries

Question 48

If BP increases fluid moves ____ via bulk flow. If BP decreases fluid moves ___ via bulk flow.

Answer 48

into interstitial space, into plasma space

Question 49

Define…

1. Lymphatic System
2. Initial Lymphatics
3. Lymph
4. Lymph Vessels

Answer 49

1. Networks of one way vessels allowing fluid to be returned from ISF to blood
2. Small, blind-ended, terminal vessels permeating almost every tissue
3. ISF entering a lymphatic vessel
4. convergence of initial lymphocytes that enter into venous system near entrance to RA. One way

Question 50

4 Functions of the Lymphatic System

Answer 50

1. Return of Lymph
2. Defence against disease
3. Transport absorbed fat
4. Return filtered proteins

Question 51

What is Edema, and what are its four causes?

Answer 51

• swelling of tissues due to accumulation of ISF
  1. Decrease in concentration of plasma proteins
  2. Increase in permeability of capillary wall
  3. Increased venous pressure
  4. Block of lymph vessels

Question 52

Veins

Answer 52

• return blood to heart
• large radius and little resistance
• blood reservoir (60% of blood is in veins at any given time)
• walls are thinner
• little smooth and elastic tissue
• more collagen than elastin

Question 53

Five Factors that Increase Venous Return

Answer 53

1. driving pressure around 15mmHg
   - sympathetic venous vasoconstriction
   - skeletal muscle activity
   - respiratory activity
   - effect of cardiac suction

Question 54

What is the purpose of venous valves?

Answer 54

mechanically prevent back flow of deoxygenated blood

Question 55

Three Primary Determinants of Blood Pressure

Answer 55

1. Cardiac Pressure
2. Total Peripheral Resistance
3. Mean Arterial Pressure

Question 56

Mechanisms of blood pressure regulation

Answer 56

Baroreceptors- arterial pressure sensors (increased action potentials as MAP increases)
-e.g. carotid sinus, aortic arch

Question 57

How does the ANS effect heart functions?

Answer 57

• changes cardiac output

- changes blood vessel size (resistance to flow)

Question 58

What does sympathetic drive regulate?

Answer 58

1. Arteriolar diameter (TPR)

2. Venular diameter (CO)

Question 59

What does the PNS regulate?

Answer 59

heart rate

Question 60

What are the steps of Baroreceptor Reflex?

Answer 60

1. Baroreceptors monitor BP
2. Action potentials are produced in cardioregulatory/vasomotor centres in medulla oblongata
3. Decreased parasympathetic stimulation of heart, increasing heart rate
4. Increased sympathetic stimulation increases heart rate and stroke volume
5. Increased sympathetic stimulation increases vasoconstriction

Question 61

Describe Baroreceptor Reflex

Answer 61

• short-term adjustments
• occur within seconds (rapid response)
• change made by CO and TPR
• mediated by ANS
• influences HR, veins, arterioles
• if BP deviates for a few days a new set point is in place

Question 62

What is a longterm regulator of blood pressure?

Answer 62

blood volume influenced by salt/water balance

Question 63

What are the three main components of blood?

Answer 63

1. Erythrocytes
2. Leukocytes
3. Platelets

Question 64

What are thrombocytes?

Answer 64

• platelets
• cell fragments
• used in homeostasis
• produced in bone marrow

Question 65

What is Hematocrit?

Answer 65

percentage of cells that are RBCs

Question 66

What makes of the Buffy coat after centrifuging?

Answer 66

platelets

Question 67

What are the three components of Plasma?

Answer 67

1. water
2. proteins
3. organic molecules

Question 68

What are the three groups of plasma proteins?

Answer 68

1. Albumins
   
   • most prevalent
   • colloid osmotic pressure
   • bind substances
2. Globulins
   
   • transport hormones and cholesterol
   • aid in blood-clotting
   • immunoglobulins (antibodies)
   • inactive before input
3. Fibrinogen
   
   • forms fibrin threads for clotting

Question 69

Constituent of Blood:

Function of Water

Answer 69

• transport medium

- carries heat

Question 70

Constituent of Blood:

Functions of Electrolytes

Answer 70

• membrane excitability
• osmotic distribution of fluid between ECF and ICF
• buffer pH changes

Question 71

Constituent of Blood:

Functions of Nutrients, Wastes, Gasses, Hormones

Answer 71

• transported in blood

- blood gas CO2 plays a role in acid-base balance

Question 72

Constituents of Blood:

Functions of Plasma Proteins

Answer 72

• exert osmotic pressure for distribution of ECF between vascular and interstitial compartments
• buffer pH changes

Question 73

Blood Constituents:

Function of Albumins

Answer 73

• transport many substances

- contribute to colloid osmotic pressure

Question 74

Blood Constituents:

Functions of Alpha and Beta Globulins

Answer 74

• transport water insoluble substances
• clotting factors
• inactive precursor molecules

Question 75

Blood Constituents:

Functions of Gamma Globulins

Answer 75

-antibodies

Question 76

Blood Constituents:

Functions of Fibrinogen

Answer 76

inactive precursor for the fibrin meshwork of a clot

Question 77

Describe Erythrocytes

Answer 77

• transport O2 to tissues
• remove CO2 from blood
• thin and biconcave
• large surface area
• very flexible
• no nucleus or organelles
• no DNA or RNA
• have enzymes and hemoglobin

Question 78

Why are Erythrocytes so flexible?

Answer 78

they have to fit into capillaries which are smaller than they are

Question 79

What are the two enzymes in RBCs and what do they do?

Answer 79

1. Glycolytic Enzymes
   
   • anaerobic resp
   • need glycolysis for ATP
2. Carbonic Anhydrase
   
   • CO2 transport
   • catalyses CO2 into HCO3-

Question 80

Describe Hemoglobin

Answer 80

• Hb
• found only in RBCs
• contain pigment
• ion
• red when oxygenated
• blue when deoxygenated
• carries O2
• combines with CO2, H+ from CO2 rxn, Co, NiO2

Question 81

What are the two components of hemoglobin and what do they do?

Answer 81

1. Globin
   
   • protein
   • four folded poly-peptide chains
2. Heme
   
   • four iron groups
   • each bound to one poly-peptide

Question 82

What is Erythropoiesis?

Answer 82

erythrocyte production

Question 83

Describe the production sites of erythropoiesis in each stage of life

Answer 83

1. Intrauterine
   - yolk sac -developing liver and spleen
   - bone marrow when developed
2. Childhood
   - bones (RBM)
3. Adults
   - sternum (RBM)
   - ribs (RBM)
   - ends (upper of long bone) (RBM)

Question 84

How does the spleen contribute to erythropoiesis?

Answer 84

removes old RBC’s from blood

Question 85

Describe the progression of cell development in erythropoiesis

Answer 85

• —————————–BONE MARROW—————————–
  1. Pluripotential Stem Cell
  2. Erythroid
  3. Normoblast
  4. Reticolocyte
• ————————————-Blood————————————-
  5. Erythrocyte

Question 86

4 Steps of Control of Erythropoiesis

Answer 86

1. Kidneys detect decreased O2 carrying capacity
2. kidneys secrete erythropoietin hormone
3. Erythropoiesis stimulated
4. Increased O2 carrying capacity relieves initial stimulus through negative feedback

Question 87

Cells committed to become RBCs….

Answer 87

undergo proliferation and maturation causing them to lose their nucleus and organelles and gain Hb

Question 88

What is the life span of a RBC?

Answer 88

120 days

Question 89

Blood types are categorized by…

Answer 89

the type of antigen present on the RBCs

Question 90

Why antigens do A, B, AB, and O blood have?

Answer 90

A-A on RBC, Anti-B in plasma
B-B on RBC, Anti-A in plasma
AB-A&B on RBC, none in plasma
O- none on RBC, Anti-A and Anti-B in plasma

Question 91

What is the universal receiver and why?

Answer 91

AB because it has both A and B antigens on RBC and no antigens in it’s plasma

Question 92

What is the universal donor and why?

Answer 92

O, because it doesn’t have antigens on RBC, and has both antigens in plasma

Question 93

What is a transfusion reaction?

Answer 93

occurs when blood of incompatible type is given causing kidney failure

Question 94

What is the most dangerous transfusion reaction?

Answer 94

AB in plasma for incoming RBCs

Question 95

Rh Factor

Answer 95

• people with Rh are Rh positive
• people without Rh are Rh negative
• no naturally occurring antibodies develop against Rh factor
• Anti-Rh antibodies are only produced by Rh-negative people if exposed to Rh-positive blood (dangerous second time they are exposed)

Question 96

Describe the process of filtering and destroying RBCs

Answer 96

• spleen filters and removes old RBCs
• liver metabolizes byproducts from breakdown of RBCs
• iron is recycled for new Hb
• iron is stored in ferritin in liver, spleen and small intestine

Question 97

What is Anaemia?

Answer 97

• below normal O2 carrying capacity of blood

- cab be nutritional

Question 98

Describe Pernicious Anemia

Answer 98

• B12 deficiency (needed for folic acid)
• dietary
• lack intrinsic factor in stomach lining

Question 99

Describe Aplastic Anaemia

Answer 99

• insufficient RBC production

- bone marrow destruction from radiation, chemo etc.

Question 100

Describe Renal Anaemia

Answer 100

kidney disease/ failure

Question 101

Hommorrhagic Anaemia

Answer 101

• wound

- menstrual flow

Question 102

Hemolytic Anaemia

Answer 102

• rupture of RBC
• infections
• sickle cell disease
• fragile (destruction of deformed)
• production unable to keep up with removal

Question 103

Primary Polycythaemia

Answer 103

• erythropoiesis at excessive and uncontrolled rate

- increases viscosity of blood

Question 104

Secondary Polycythaemia

Answer 104

• adaptive mechanism to help decrease O2
• occurs at high altitude
• occurs due to chronic lung disease or heart failure

Question 105

Leukocytes

Answer 105

• white blood cells
• mobile units of immune system
• colourless in real life
• structure and function varies
• larger than RBCs

Question 106

What are the three functions of Leukocytes?

Answer 106

1. defends against invading pathogens
2. Identifies and destroys cancer cells
3. Removes worn-out cells and tissue debris

Question 107

What are Granulocytes? What are the three Granulocytes? Where are they produced?

Answer 107

cytoplasmic granules

1. Neutrophils
2. Eosinophils
3. Basophils

bone marrow

Question 108

What are Agranulocytes? What are the two Agranulocytes? Where are they produced?

Answer 108

no cytoplasmic granules

1. Monocytes
   
   • bone marrow
2. Lymphocytes
   
   • lymphocytes already in lymphoid tissues

Question 109

Leukopoiesis

Answer 109

• chemical messages from damaged or invaded tissues

- colony-stimulating factors from endothelial cells, marrow, fibroblasts, and activated WBCs

Question 110

What are Neutrophils?

Answer 110

• phagocytic specialists

- destroy bacteria by phagocytosis by releasing bacteria-killing chemicals

Question 111

What are the four functions of Neutrophils?

Answer 111

1. First defenders on scene of bacterial invasion
2. Importnat in inflammatory responses
3. Scavenge to clean up debris
4. Increased cell count may point to bacterial infection

Question 112

What are Eosinophils?

Answer 112

• increase in circulating associated with allergic reactions (including asthma and hay fever) and internal parasite infestations
• attack and secrete killing substance

Question 113

What are Basophils?

Answer 113

• least numerous

- synthesize and store histamine and heparin (allergies and anti-clotting)

Question 114

What are Monocytes?

Answer 114

• phagocytic
• migrate to tissue to become macrophages
• for antigen presentation, cytokine production, and cytotoxicity
• emerge from bone marrow
• circulate for day or two before settling in various areas to mature

Question 115

What are Lymphocytes?

Answer 115

• B&T cells

- immune defence against specifically programmed targets

Question 116

B Lymphocytes

Answer 116

• produce antibodies

- responsible to antibody mediated or humoral immunity

Question 117

T Lymphocytes

Answer 117

• do not produce antibodies

- destroy specific target cells by releasing chemicals punch holes in the victim cell (cell-mediated immunity)

Question 118

Platelets

Answer 118

• from megacaryocytes

- don’t leave the blood

Question 119

What is the lifespan of a monocyte?

Answer 119

Several months to a few years

Question 120

What is the lifespan of a lymphocyte?

Answer 120

-100-300 days

Question 121

Where can you find approximately 1/3 of all Platelets?

Answer 121

in blood filled-sacs in the spleen, only released by sympathetically induced splenic contraction when needed

Question 122

What is Thrombopoietin?

Answer 122

a liver hormone that increases the number of megakaryocytes and more platelets/cell
-unknown mechanism

Question 123

What is a Thrombocyte?

Answer 123

-cytoplasmic fragments derived from megakaryocytes

Question 124

What is the lifespan of a platelet?

Answer 124

around 10 days

Question 125

Describe and Throbocyte

Answer 125

• no nuclei
• have some organelles and enzymes
• have granules
• essential for blood clotting

Question 126

What are the three secretary products in thrombocyte granules?

Answer 126

1. ADP
2. Serotonin
3. Epinephrine

Question 127

What is Haemostasis?

Answer 127

stoppage of bleeding from broken blood vessels

Question 128

What is the first step of Haemostasis?

Answer 128

Vascular Spasm

1. when blood vessel is damaged tissue secretes constriction factors
2. vessels constrict to minimize blood loss and maintain BP
3. endothelial layer becomes sticky to start clotting

Question 129

What is the second step of Haemostasis?

Answer 129

Formation of Platelet Plug

1. platelets aggregate on contact with exposed collagen in damaged wall
2. platelets release thromboxane which induces platelet aggregation and arterial constriction
3. platelets release ADP causing other platelets to become sticky
4. Plug results in decreased blood loss

Question 130

What is the third step of Haemostasis?

Answer 130

Blood Coagulation

1. blood converted into solid gel called clot or thrombus around platelet plug

Question 131

What is the one cell absolutely required for Haemostasis?

Answer 131

platelets

Question 132

Clotting factors are _____ in blood plasma as an _______.

Answer 132

present, inactive precursor

Question 133

What causes a Clotting Cascade?

Answer 133

12 plasma proteins from liver acting as co-factors/proteolytic enzymes

Question 134

What is the final step in a clotting cascade?

Answer 134

conversion of fibrinogen into a stabilized fibrin mesh

Question 135

What triggers a clotting cascade?

Answer 135

1. Intrinsic pathway

2. Extrinsic pathway

Question 136

Describe the Intrinsic Pathway

Answer 136

• all elements present in blood
• 7 steps
• factor XII (Hageman factor) is activated by coming into contact with exposed collagen in injured vessel or foreign surface

Question 137

Describe the Extrinsic Pathway

Answer 137

• 4 steps
• requires contact with tissues external to the blood
• tissue thromboplastin released from traumatized tissue directly activates factor X

Question 138

Describe Clot Retraction

Answer 138

-contraction of platelets shrinks fibrin mesh, squeezing fluid from the clot

Question 139

Describe Clot Dissolution

Answer 139

• enzyme plasmin dissolves clot
• plasmin formed from plasminogen
• Factor XII
• plasminogen converted to plasmi
• fibrinolytic enzyme
• breaks down fibrin meshwork

Question 140

Most ____ is bound to fibrin threads thus ___ systematic clotting.

Answer 140

thrombin, preventing

Question 141

Unbound thrombin is ____.

Answer 141

inactivated

Question 142

What two endothelial cells are clot controllers?

Answer 142

1. Nitric Oxide

2. Prostacydin

Question 143

What are two types of inappropriate clotting?

Answer 143

1. Thrombus

2. Emboli

Question 144

Describe a Thrombus

Answer 144

• abnormal intravascular clot attached to a vessel wall
• can eventually completely occlude the vessel
• Ischemia and tissue death downstream from the clot

Question 145

Describe an Emboli

Answer 145

• freely floating clots

can suddenly block blood flow

Question 146

Where does a Pulmonary Embolism occur?

Answer 146

lungs

Question 147

What can a Cerebral Embolism cause?

Answer 147

stroke

Question 148

What are three factors that can cause a thromboembolism?

Answer 148

1. Endothelial cell dysfunction (atherosclerosis)
2. Imbalances in the clotting
3. Slow-moving blood from dehydration

Question 149

How can impaired liver function affect coagulation?

Answer 149

reduced protein production including clotting factors

Question 150

How can vitamin K deficiency affect coagulation?

Answer 150

• decreased synthesis of clotting factors

Question 151

Define Immunity

Answer 151

the body’s ability to resist or eliminate potentially harmful foreign materials or abnormal cells

Question 152

Four Functions of Immunity

Answer 152

1. Defends against invading pathogens
2. Removes “worn-out” cells and tissue damaged by trauma
3. Identifies and destroys abnormal or mutant cells that have originated in the body
4. Mounts inappropriate immune response that lead either to allergies or to autoimmune disease

Question 153

What are the Two Major Targets of the Immune System

Answer 153

1. Bacteria

2. Viruses

Question 154

Describe Bacteria

Answer 154

• non-nucleated
• single-celled
• causes tissue damage and disease by releasing enzymes or toxins

Question 155

Describe Viruses

Answer 155

• consists of either DNA or RNA enclosed by a protein coat

- cannot carry out metabolism or reproduce without invading a host cell

Question 156

What are two barriers that act as external defences?

Answer 156

1. Skin
   
   • physical
   • produce antimicrobial chemicals
2. Mucous Membrane
   
   • sticky secretions

Question 157

What are the three defences of the digestive system?

Answer 157

1. Saliva
   
   • friendly bacteria convert nitrate into nitrite
2. Nitrite is converted into nitric oxide in the stomach which is toxic
3. Gastric juice kills other bacteria

Question 158

What are the three defences of the respiratory system?

Answer 158

1 .Lymphoid tissues (tonsils, adenoids) provide protection against inhaled pathogens

2. Cilia lining pathway beat upwards and trap inspired debris in mucous
3. Alveolar macrophages scavenge air sacs of the lungs

Question 159

Describe Neutrophils

Answer 159

highly mobile phagocytes that engulf and destroy unwanted materials

Question 160

Describe Eosinophils

Answer 160

• secrete chemicals that fight parasites

- involved in allergic reactions

Question 161

Describe Basophils

Answer 161

• release histamine and heparin

- involved in allergic reactions

Question 162

Monocytes

Answer 162

-transformed into macrophages (tissue-bound phagocyte specialists)

Question 163

Lymphocytes (two types and functions)

Answer 163

1. B-Cells
   
   • transformed into plasma cells that secrete antibodies
2. T-Cells
   
   • responsible for cell-mediated immunity
   • mainly produced from lymphoid colonies in lymphoid tissues

Question 164

What is a Lymphoid Tissue?

Answer 164

tissues that produce, store, or process lymphocytes

Question 165

What are the eight lymphoid tissues?

Answer 165

1. Bone Marrow (B-cell maturation)
2. Lymph nodes
3. Spleen
4. Thymus (T-cells maturation)
5. Tonsils
6. Adenoids
7. Appendix
8. Peyer’s Patches (GALT)

Question 166

What is an Innate Immune Response?

Answer 166

• non-specific
• work immediately when triggered
• non-selective
• rapid but limited responses
• first line of internal defence

Question 167

If Innate Immune Responses are non-selective then how do they not attack everything?

Answer 167

they recognize general molecular properties (e.g. sugars or lipids) and mark invaders as foreign based on this

Question 168

What Lymphocytes are Used in Innate Immune Responses?

Answer 168

1. Neutrophiles
2. Macrophages
3. Some plasma proteins

Question 169

Define Diapedesis

Answer 169

the passage of blood cells through the intact walls of the capillaries, typically accompanying inflammation

Question 170

Define Chemotaxis

Answer 170

chemicals release initiate rolling (margination) and migration

Question 171

What are the effects of Innate Immune Response?

Answer 171

• vasodilation
• increased capillary permeability
• localized edema
• walling off of inflamed area
• emigration of leukocytes
• leukocyte proliferation
• mark bacteria for destruction by opsonins
• leukocyte destruction of bacteria

Question 172

Describe Phagocytosis

Answer 172

• recognize carbs or lipids on bacteria wall after contact

- aided by opsonins (prepare for eating)

Question 173

What is Pus made up of?

Answer 173

collection of phag cells and dead tissues

Question 174

What is an Opsonin?

Answer 174

action of some agents to help phagocytosis

-receptors on phagocyte are specific to opsonin

Question 175

What is Histamine?

Answer 175

from mast cells; induces local vasodilation and increases capillary permeability

Question 176

What are Interleukin-1 and 6, and TNF?

Answer 176

• from macrophages
• fever
• promote inflammation
• enhances proliferation and differentiation of B and T lymphocytes

Question 177

Can tissue repair ever be perfect? Why?

Answer 177

Yes

lost cells are replaced by the same cells

Question 178

Where is Scar Tissue Produced?

Answer 178

non-regenerative tissues

Question 179

Describe the Complement System

Answer 179

• non-specific
• composed of plasma proteins produced in liver
• circulate in inactive form
• cascade sequence of events

Question 180

C5 to C9 assemble to from _________.

Answer 180

Membrane Attack Complex (MAC)

Question 181

Describe the steps of the complement system

Answer 181

1. embeds in surface membrane of nearby microorganisms
2. Resulting hole makes membrane leak
3. Victim cell swells and bursts
   * *Kills without phagocytosis

Question 182

What are the __ Components of Innate Immune Response?

Answer 182

1. Complement System
2. Phagocytosis
3. Antiviral Effect of Interneuron
4. Natural Killer Cells
5. Complement System

Question 183

What is the difference between primary mechanisms and alternate pathways?

Answer 183

Primary- activated by antibodies

Alternate- activated by exposure to carb chain on microorganisms

Question 184

How do Alternate Pathways Work?

Answer 184

• forms membrane attack complex that punch holes in victim cells

Question 185

What are complement proteins in the inflammatory process of alternate pathways?

Answer 185

• opsonins
• promote vasodilation and increased vascular permeability
• stimulate release if histamine from mast cells
• chemotoxins

Question 186

What is the Antiviral Effect of Interneuron?

Answer 186

• inhibits multiplication of viruses in most cells
• triggers the production of virus-blocking enzymes by potential host cells
• released nonspecifically from any cell infected by a virus
• provides general, rapid defence until more specific but slower-responding immune mechanisms can begin

Question 187

What are Natural Killer Cells?

Answer 187

• lymphocyte-like cells
• nonspecifically destroy virus-infected cells and cancer cells
• directly lyse cell membranes upon first exposure to these cells

Question 188

What are the three components of Adaptive Immunity?

Answer 188

1. Antibody -Mediated/ Humoral Immunity
2. Cell-Mediated Immunity
3. B-Lymphocytes

Question 189

Descrive Antibody-Mediated/Humoral Immunity

Answer 189

• produces antibodies using activated B lymphocyte (plasma cells)

Question 190

Describe Cell-Mediated Immunity

Answer 190

• produces activated T lymphocytes

- directly attack unwanted cells

Question 191

B-Lymphocytes

Answer 191

• each lymphocyte has receptors for one antigen
• one binding with processed and presented antigen
• most B-cells differentiate into active plasma cells
• the rest become dormant (memory cells)

Question 192

Describe Plasma Cells

Answer 192

• secreted into blood or lymph, depending on the location of the activated plasma cell
• produce and secrete IgG antibodies
• combine with antigen and marks it for destruction
• during initial contact antibody response is delayed to form plasma cells
• peak is reached in a few weeks by primary response
• after peak, antibody concentration decreases

Question 193

Do Plama Cells or B Cells have more Er?

Answer 193

Plasma

Question 194

What are the five immunoglobulin subclasses?

Answer 194

1. IgM
2. IgG
3. IgE
4. IgA
5. IgD

Question 195

What is IgM?

Answer 195

• B-cell surface receptor for antigen attachment

- secreted in early stages of plasma cell response

Question 196

What is IgG?

Answer 196

• most abundant immunoglobin in blood

- produced in large amounts when body is exposed to same antigen

Question 197

What is IgE?

Answer 197

• protects against parasitic worms

- antibody mediator for allergic responses

Question 198

What is IgA?

Answer 198

• in secretions of digestive, respiratory, urinary systems

- in milk and tears

Question 199

What is IgD?

Answer 199

• surface of many B cells

- unknown function

Question 200

What combination of immunoglobulin subclasses produce the most significant response?

Answer 200

IgM and IgG

Question 201

Describe the Composition of Antibodies

Answer 201

• Y shaped
• four interlinked polypeptide chains (2 long and heavy, two short and light)
• identical unique antibody binding fragments at tip

Question 202

What is significant about the tail of antibodies?

Answer 202

properties of tail determine function of antibody and subclass

Question 203

What is Agglutination?

Answer 203

the clumping of foreign cells and antibodies

Question 204

What are the three functions of antibodies?

Answer 204

1. activated complement system
2. Enhance phagocytosis (opsinization)
3. Stimulating killer (K) cells

Question 205

What is Clonal Selection?

Answer 205

• diverse B lymphocytes are produced during fetal development, each capable of synthesizing an antibody against a particular antigen

Question 206

Memory Cells

Answer 206

• small %
• dormant
• more ready for immediate action upon re-exposure to same antigen than original lymphocyte of clone

Question 207

Describe Secondary Response

Answer 207

• quicker
• more potent
• longer lasting
• induced by disease or vaccine

Question 208

What is Active Immunity?

Answer 208

• self generated

- from exposure to antigen

Question 209

What is Passive Immunity?

Answer 209

• “borrowed immunity”
• from transfer of pre-formed antibodies
• provide immediate protection or bolster resistance
  eg. transfer of IgG from mom to fetus, Ab against rabies virus in non-imunized person

Question 210

What is the percentage of contribution of T ad B lymphocytes?

Answer 210

B- 1/2 body’s specific immune defence

T - 50-70% of total lymphocyte number in blood circulation

Question 211

Where do T cells get clonal and specific antigen receptors? Where do clines mature?

Answer 211

thymus

Question 212

What two things must occur for a T cel to be activated?

Answer 212

1. foreign antigens

2. Self Antigens (MHC)

Question 213

What is CD8?

Answer 213

• T cell
• killer/cytotoxic
• destroys cancer/virus cells

Question 214

What is CD4?

Answer 214

• T cell
• helper
• modulates activities of other immune cells
• secrete chemicals (cytokines) that amplify activity of other cells
  (B&T cell growth factor, macrophage migration inhibitor)

Question 215

What are Memory T-Lymphocytes?

Answer 215

• form memory pool
• primary and secondary responses
• primary responses initiated in lymphoid tissue
• most die via apoptosis in a few weeks
• remaining become long-lived memory T

Question 216

Describe Cell-Mediated Immunity

Answer 216

• antigen complexed with another cellular protein
• major histocompatibility complex (MHC)
• “identity tags” for biological self

Question 217

What is MHC?

Answer 217

• plasma membrane bound glycoproteins
• directs synthesis
• exact pattern varies from one individual to another

Question 218

What is Class I MHC?

Answer 218

expressed on surface of all nucleated cells

Question 219

What is Class IIMHC?

Answer 219

• expressed on immune system cells

- macrophages, dendritic cells, activated B cells

Question 220

What are the mechanisms of killing of CD8 cells?

Answer 220

• perforin molecules
• release granzymes to induce apoptosis (programmed cell death)
• released virus dealt with by phagocytes Ab+compliment
• require Class I MHC

Question 221

CD8 cells require ____ while CD4 cells require _____.

Answer 221

Class I MHC

Class II MHC

Question 222

What causes Immune diseases?

Answer 222

Inappropriate Immune Attacks

-too much or too little responses or mistargeted response.

Question 223

Describe Autoimmune Disease

Answer 223

• treats part of self as foreigner

e. g. Diabetes, Arthritis

Question 224

Describe Allergy as anImmune disease

Answer 224

• inappropriate specific immune reactivity to normally harmless environmental substance
• offending against allergen
• immediate and delayed hypersensitivity
• using chemical mediator histamine