Patho, Pharma and Immunology bits

Question 1

Define Pathology

Answer 1

The study of cause and effect of disease

Question 2

What are causes of fluctuating cognitive function?

Answer 2

Any brain bleed/abscess or alcohol intoxication

Question 3

What are 2 types of autopsy

Answer 3

Hospital

Medico-Legal

Question 4

What is a Hospital autopsy for?

Answer 4

Required for audits, teaching or research

Question 5

What is a Medico-Legal autopsy for?

Answer 5

Needed to find out cause of death and for forensic autopsies

Question 6

Which autopsy requires a ‘cause of death’ certificate?

Answer 6

Hospital autopsy

Question 7

When do you refer deaths to a coroner?

give examples

Answer 7

Presumed natural with cause of death unknown and have not seen dr in last 14 days
Presumed iatrogenic e.g. abortion, anaesthetic deaths and postoperative deaths
Presumed unnatural e.g. industrial death, suicide, murder

Question 8

What is meant by iatrogenic illness

Answer 8

Illness caused by medical examination

e.g. abortion, anaesthetic deaths, postoperative deaths

Question 9

What are the 4 main steps of an autopsy?

Answer 9

External Examination
Evisceration (Y-shaped incision)
Internal Examination
Reconstruction

Question 10

Define inflammation

Answer 10

Local physiological response to tissue injury. Usually it is not a disease instead a manifestation of a disease.

Question 11

Name 2 cells that are found in acute inflammation

Answer 11

Neutrophils

Endothelial cells

Question 12

Name 3 cells that are found in chronic inflammation

Answer 12

Macrophages
Lymphocytes
Fibroblasts

Question 13

Give the 4 different appearances of acute inflammation giving the latin translation

Answer 13

1. Rubor (redness) due to dilation of small blood vessels within the damaged area.
2. Calor (heat) due to increased blood flow resulting in vascular dilation
3. Tumor (swelling) result of oedema the accumulation of fluid from the extravascular space.
4. Pain (dolor) due to the stretching and the distortion of tissues.

Question 14

Give two local effects of inflammation

Answer 14

Swelling and the beneficial destruction of invading microbes

Question 15

Give 4 systemic effects of inflammation

Answer 15

Pyrexia
Constitutional symptoms
Weight loss
Haematological changes

Question 16

Give the definition of chronic inflammation: what makes it different to acute?
Is chronic inflammation always secondary to acute inflammation?

Answer 16

Subsequent and often prolonged tissue reactions following an initial response.
Doesn’t have to start with acute inflammation. All the cells normally travel in the body by laminar flow. In inflammation this process changes. LOADS of lymphocytes and macrophages.

Question 17

Give two examples of chronic inflammation

Answer 17

TB

Crohns

Question 18

What drug class is used to treat inflammation? What does it do?

Answer 18

NSAIDS
NSAIDS inhibit Cyclo oxgenase (COX) which produces prostaglandins.
There are two forms of COX. COX 2 is produced in response to an inflammatory response. Whilst Cox 1 is made for basic house keeping throughout the body.

Question 19

What is the difference between efficacy and affinity?

Answer 19

Efficacy: is the Effect! a drug has. High efficacy of a drug means it stimulates a number of responses.
Affinity: how much of the drug is required to produce 50% of the maximum product possible. Can include antagonists as well.

Question 20

What does potency mean?

Answer 20

a measure of drug activity

Question 21

What are the 4 forms of drug targets?

Answer 21

Enzyme
Receptor
Transport protein
Ion channel

Question 22

Name 4 routes of drug administrations and give an example of a drug for each

Answer 22

Oral (aspirin)
Sublingual (GTN )
Rectal (diazepam)
Subcutaneous (insulin)
IV (anything)
Intramuscular (anti-psychotics)
Inhalation (salbutamol) 
Topically (steriod)

Question 23

Define drug

Answer 23

Any chemical substance that has a biological impact on the body

Question 24

Define Pharmacology

Answer 24

The branch of medicine concerned with the uses, effects and modes of actions of drug

Question 25

What is PharmacoDYNAMICS

Answer 25

how a drug affects the body

Question 26

What is PharmacoKINETICS

Answer 26

What the drug does to the body
or a branch of pharmacology involved with the movement of drugs in the body
This includes absorption, distribution, metabolism and excretion

Question 27

Define receptor

Answer 27

Recognition proteins of endogenous mediators i.e. a cell membrane or cell cytoplasm of a nucleus.

Question 28

What is draggability?

Answer 28

The ability of a protein target to bind to small molecules with high affinity

Question 29

Whta are Mediators?

Answer 29

Intracellular proteins that enhance and activate the functions of other proteins

Question 30

What are 4 types of receptor?

Answer 30

Ligand gated ion channel
G-protein coupled receptors
Kinase linked receptors
Cytosolic/nuclear receptors

Question 31

Give example of Ligand gated ion channel and example of G protein coupled receptor

Answer 31

Ligand gated ion channel - Nicotinic ACh receptor

G protein coupled receptors - Beta-adrenoceptors

Question 32

How do Ligand Gated Ion Channels work?

Answer 32

Ligand binds to receptors on the ion channel, which causes the channel to open

Question 33

How do G protein Coupled Receptors work?

Answer 33

GPCRs interact with G proteins in the plasma membrane. When an external signaling molecule binds to a GPCR, it causes a conformational change in the GPCR. This change then triggers the interaction between the GPCR and a nearby G protein. It is this change that causes there to be activation of the cellular contents caused by the attachment of a ligand to a receptor.

Question 34

Give example of a ligand

Answer 34

Light or energy

Question 35

Give example of a kinase linked receptor and how it works

Answer 35

Activated by growth factors. Signal dimer, bonds to the receptor (tyrosine kinase). This stimulates kinase activity. These are generally needed to modify gene transcription. The tyrosines are then phosphorylated and the intracellular proteins bind to the phospho-tyrosine docking sites.

Question 36

What type of receptors are cytosolic/nuclear receptors and generally what is there purpose?

Answer 36

Steroid receptors

Generally needed to modify gene transcription

Question 37

What are 4 different parts of pharmacokinetics

Answer 37

Absorption (into the blood)
Distribution (into extra or intracellular space)
Metabolism (broken down in Liver and kidney!)
Elimination (i.e. urine, faeces and bile)

Question 38

By what 4 methods can absorption happen? (e.g. GI mucosa)

Answer 38

Passive diffusion
Facilitated diffusion
Active transport
Endocytosis

Question 39

What factors can affect absorption rates?

Answer 39

pH
Vascularity (e.g. shock reduces SC absorption)
Surface area
Contact time (e.g. with food = slower gastric emptying)

Question 40

Define distribution

Answer 40

The ability for a drug to reversibly leave a blood stream and enter the extracellular fluid and tissue

Question 41

What factors affect Distribution?

Answer 41

Blood flow (e.g. brain > muscles)
Capillary permeability
Plasma protein binding (e.g. albumin)
Tissue protein binding (e.g. cyclophosphamide accumulating in bladder leading to cystitis)
Lipophilicity (ability to cross cell membranes) i.e. a lot of drugs can’t cross the blood brain barrier

Question 42

Give example of tissue protein binding (factor affecting distribution)

Answer 42

Cyclophosphamide accumulating in the bladder leading to cystitis

Question 43

What has a higher blood flow out of brain and muscles?

Answer 43

Brain

Question 44

Define metabolism of a drug

Answer 44

Breakdown of the drug to allow it to be made into active forms and also excreted through hepatic, renal and biliary routes

Question 45

Metabolism-Pharmacokinetics: What are phase 1 reactions?

Answer 45

Involves cytochrome P450 enzymes
Add functional groups i.e. OH
OR Undergo Oxidation or Reduction

Question 46

Metabolism-Pharmacokinetics: What are phase 2 reactions?

Answer 46

Conjugation

i.e. add glucuronic acid

Question 47

Give example of a drug and example of a condition that can induce Cytochrome P450 enzyme and what is the effect of this?

Answer 47

Rifampicin
St John’s Wort
Induce cytochrome P450 and thus speed up phase 1 reactions (everything sped up as this is rate determining step)

Question 48

What graph can be used to distinguish between first order and zero order kinetics in a drug’s metabolism?

Answer 48

Plasma conc (y) against Time/hours (x)

Question 49

Describe line seen on a plasma conc against time (x) graph for the metabolism of drug showing first order kinetics

Answer 49

Reverse exponential

looks like reciprocal graph shape in +ve y and +ve x quadrant

Question 50

What does first order kinetics metabolism apply to?

Answer 50

Most drugs

Drug is readily metabolised in the liver

Question 51

Describe line seen on a plasma conc against time (x) graph for the metabolism of drug showing first order kinetics

Answer 51

Reverse exponential
(looks like reciprocal graph shape in +ve y and +ve x quadrant)
(draw pic)

Question 52

What does first order kinetics metabolism apply to?

Answer 52

Most drugs

Drug is readily metabolised in the liver

Question 53

Describe line seen on a plasma conc against time (x) graph for the metabolism of drug showing zero order kinetics

Answer 53

Straight line with constant negative gradient

Question 54

What does zero order kinetics metabolism apply to?

Answer 54

Where metabolism is saturable
e.g. alcohol
OR in drug excess e.g. aspirin and phenytoin

Question 55

Where can drugs e eliminated from the body?

Answer 55

Urine
Faeces
Bile
Lungs
Breast Milk

Question 56

Define pharmacodynamics

Answer 56

The branch of pharmacology concerned with the effects of drugs and the mechanism of their action

Question 57

Simply state the difference between pharmacokinetics and p.dynamics

Answer 57

PK - what the body does to the drug

PD - what the drug does to the body

Question 58

What are 2 aspects of pharmacodynamics?

Answer 58

Signal transduction - binding of drugs to receptors, which leads to there being an amplified down regulation of signals
Intrinsic effect - Agonist or Antagonist

Question 59

What are 2 agonist and 3 antagonist intrinsic effects?

Answer 59

Agonist:
Full (equivalent to endogenous agonist)
Partial

Antagonist:
Competitive (reversibly prevents endogenous agonist binding)
Irreversible (covalent bond)
Allosteric (binds to other site, irreversible)

Question 60

What factors affect a dose response graph?

Answer 60

Concentration
Receptor availability

Graph is measured response (y) against Dose (x) on log scale
(affect potency)
generally see sigmoid shape on this curve

Question 61

Describe differences between sympathetic and parasympathetic neurones
Sympathetic = S
Parasympathetic = PS

Answer 61

Both preganglionic neurones release Acetylcholine at end of neurone which acts on Nicotinic receptor on post ganglionic neurone.
Postganglionic neurone:
s - releases noradrenaline which acts on adrenergic receptors
ps - releases ACh which acts on muscarinic receptors

Question 62

Where do you find IgA antibodies and what are their function?

Answer 62

IgA is found in mucosal areas, such as the gut, respiratory tract and urogenital tract, and prevents colonization by pathogens, it is also found in saliva, tears, and breast milk.

Question 63

Where are IgD antibodies found?

Answer 63

IgD is found on B cells that have not been exposed to antigens.

Question 64

What is purpose of IgG?

Answer 64

IgG is the most abundant antibody and responsible for the secondary response.

Question 65

What is purpose of IgM?

Answer 65

IgM is the most primitive antibody and eliminates pathogens in the early stages of B cell-mediated (humoral) immunity (primary response) before there are sufficient IgG.

Question 66

What is purpose of IgE?

Answer 66

IgE is in response to parasites and is responsible for anaphylaxis.

Question 67

Give example of what can be given to reverse an opioid overdose

Answer 67

IV naloxone

Question 68

Give example of a drug with a wide and one with a narrow therapeutic index

Answer 68

Wide - Simvastatin

Narrow - Warfarin

Question 69

What is function of an Alpha 1 receptor?

Answer 69

Vasoconstriction
Increase blood pressure
Increases the closing of the bladder sphincter

Question 70

What are relevant conditions for Alpha 1 receptors and Alpha 2 receptors?

Answer 70

A1 - BPH (Benign prostatic hyperplasia), High Blood Pressure

A2 - Glaucoma

Question 71

What are relevant conditions for Beta 1 and Beta 2 receptors?

Answer 71

B1 or B2 - Asthma

Question 72

What is function of Alpha 2 receptors?

Answer 72

Inhibits adrenaline and Ach release.
Inhibits insulin release.
Causes Vasoconstriction

Question 73

What is function of Beta 1 receptors?

Answer 73

+ve chronotropic (increased HR)
+ve inotropic (increased heart contraction)
Promotes renin release

Question 74

Define chronotropic

Answer 74

regards Heart Rate

-ve chronotropic means reduction in HR

Question 75

Define inotropic

Answer 75

regards Heart Contraction

if something is inotropic or +ve inotropic, it increases heart contraction

Question 76

What is function of Beta 2 receptors?

Answer 76

Relaxes smooth muscle and causes bronchodilation. Promotes insulin release.

Question 77

Give example of a Beta 2 receptor drug agonist

Answer 77

SABA/LABA
Short or Long acting beta agonist

Promotes relaxation of smooth muscle, causes bronchodilation, promotes insulin release

Question 78

Give example of Alpha 1 antagonist

Answer 78

Tamsulosin

Alpha 1 receptor activation causes: Vascoconstriction, Increase blood pressure And increases the closing of the bladder sphincter

Therefore prevents vasoconstriction, decreases blood pressure and decreased closing of bladder spincter

Question 79

Give example of Beta antagonist

Answer 79

Beta Blockers e.g. Atenolol

Beta ANTAgonist causes:
Decrease HR and heart contraction and renin release (B1)
Prevents smooth muscle relaxation and bronchodilator and insulin release.

Question 80

What are 2 types of Cholinergic receptors?

Answer 80

Nicotinic (both para and sympathetic)

Muscarinic (parasympathetic)

Question 81

What are 3 types of muscarinic receptors and what do they do?

Answer 81

M1= 1 thing (gastric juices)
M2= 2 chambers (heart and decreases heart beat)
M3 = 3 things. Bronchoconstriction, constriction of pupils, increased salivation and sweating.

M1 (found in brain and gastric glands of the stomach). Increases the secretion of gastric juice.
M2 (found in the heart) causes a decreasing nature to the heart beat. Meaning if the heart is going too slow we would use an antagonist for the M2 receptor.
M3 (found in many locations). Basically fight or flight response leads to the constriction of the pupil and increased salivation, bronchoconstriction and sweating.

Question 82

What is general function of parasympathetic NS

Answer 82

Rest and digest. But also stimulates tears, saliva and constricts the bladder and bronchi.

Question 83

What is general function of sympathetic NS

Answer 83

Flight or fight. Leads to bronchodilation and increased heart rate.

Question 84

Where are Muscarinic 1 receptors found and what do they do?

Answer 84

Found in brain and gastric glands of the stomach. Increases the secretion of gastric juice.

1 thing (gastric juices)

Question 85

Where are Muscarinic 2 receptors found and what do they do?

Answer 85

Found in the heart.
Causes a decreasing nature to the heart beat. Meaning if the heart is going too slow we would use an antagonist for the M2 receptor.

2 chambers (heart and decreases heart beat)

Question 86

Where are Muscarinic 3 receptors found and what do they do?

Answer 86

Found in many locations.
Basically fight or flight response leads to the constriction of the pupil and increased salivation, bronchoconstriction and sweating.

3 things (bronchoconstriction, pupil constriction, increased salivation/sweating)

Question 87

Muscarinic receptors:

Drying secretions used palliatively. What receptor would you inhibit?

Answer 87

Anticholinergic

specifically M3

Question 88

Muscarinic receptors:

In a patient with bradycardia, how would you speed up their heart rate?

Answer 88

M2 inhibitor

Question 89

Muscarinic receptors:

Someone with asthma, what receptor would stimulate your drug to act on?

Answer 89

M3

i.e. LAMA ipratropium bromide

Question 90

Muscarinic receptors:

How would you dilate someone’s pupil for an eye exam?

Answer 90

M3 agonist

Question 91

Muscarinic receptors:

How would you treat an overactive bladder?

Answer 91

Any anti ACh as bladder stimulation is parasympathetic (S2-4)

Question 92

Name 3 possible side effects of an anticholinergic

Answer 92

Worse memory
Drying of mouth
Constipation