CDL2 Flashcards

Question 1

Q

What causes vessel dilation/constriction? Effect?

Answer

A

Vasoconstriction: narrowing lumen by contracting the smooth muscle- reducing blood supply and increasing BP.
Vasodilation: widening lumen by relaxation of smooth muscle cells- increase blood supply to tissue, increase O2 to.

Question 2

Q

use of Vasoconstriction/dilation?

Answer

A

to target blood to certain places depending on physiology.

e. g. Exercise/fright- periphery skin vasoconstriction so blood gets to heart and lungs and skeletal muscle, but less to GI tract.
e. g. digestion- more to GI tract
e. g. Thermoregulation- dilate in skin if want to lose heat

Question 3

Q

which blood vessels regulate blood pressure?

Answer

A

Smaller muscular Arteries and arterioles

Question 4

Q

What are arterioles/venules?

Answer

A

Smaller blood vessels that regulate the blood supply to capillaries. Capillaries cqan vastly increase the surface area of blood vessels.

Question 5

Q

Structure of lumen of arteries?

Answer

A

Out in
‘Adventitia’ collagen,, elastin matrix that gives strength and structure.
External elastic layer
‘Tunica media’
Smooth muscle- determines lumen diameter contraction/relaxation
Internal elastin layer- recoil- pulsatile flow
Intima:
Enodthelial layer- cells that contact the blood.

Question 6

Q

Smooth muscle contraction is controlled by? (vague)

Answer

A

(controlled by circulating hormones, Sympathetic nerves or local mediators from endothelium)

Question 7

Q

How do veins structure vary internally?

Answer

A

The big ones have valves

Question 8

Q

Relationship between the endothelial cells and smooth muscle cells?

Answer

A

Close proximity. Endothelial cells are in contact with the blood and circulating cells and hormones. This can be converted into chemicals that the SMC’s can respond to (e.g. NO). Also they have gap junctions between them so Ca can release syncronisedly through the SMCs. Coordinated.

Question 9

Q

Healthy endothelial cells secrete..

Answer

A

Glycocaylx- carbohydrate. Stops circulating blood cells interacting with endothelial cells via adhesion molecules e.g. WBCs and platelets (anticoagulant)

Question 10

Q

When endothelial cells are activated they shed/ damaged..?

Answer

A

Glycocaylx so adhesion molecules (ICAM1, VCAM1) can bind to glycans on leukocytes, monocytes can roll and interact and infiltrate into the blood vessel.
ATHEROSCLEROSIS

Question 11

Q

What can cause activation of endothelial cells?

Answer

A

disturbed blood flow (turbulant)
Injury, infection, inflammation,
Ox-LDL in blood

Question 12

Q

Molecules in blood for in healthy endothelial cells?

Answer

A

High linear blood flow- Increase Ca
ACh, histamine, seratonin, bradykinins to IP3 receptors (vasodilators)- increase Ca
Increase Ca activates eNOS (endothelial nitric oxide synthase).
eNOS converts arginine to Nitric Oxide, which is gas membrane permeable so can act on SMC’s

Question 13

Q

Healthy endothelial cells impact on SMCs?

Answer

A

NO (from endothelial) acts on Guanylyl cyclase to increase cGMP levels. This reduces Ca levels, but also activates PKG which activates myosin phosphatase to inactive myosin =RELAXATION.
Also Gs coupled: b-agonists, Adenosine, Prostaglandins to Gs coupled receptors- Increase CAMP- decrease in Ca levels.

3. K+ channels:
BK channels (large conductance),SK channels (small conductance) b-agonists (via bg G-protein) increase K efflux- hyperpolarisation- decrease in Ca levels.

DECREASE CA no contraction- dilated lumen

Question 14

Q

molecules in the blood that cause activated endothelial cell etc? What produced in the EC?

Answer

A

circulating Il-1, thrombin, endotoxin to receptors increase ET-1 (endothelin-1).
Above and disturbed blood flow also increases ROS, I/VCAM1 (adhesion molecules),IL-18, COX2.

Question 15

Q

Activated endothelial cells impact on SMCs?

Answer

A

ET-1 acts upon ETA/B or Tp, NorA, Histamine act to GPCRs coupled to Gq. PLC- IP3- Ca out of SR.
TRP store operated Ca channels or votlage sensitive- Ca in.

Ca binds to Calmodulin- activates MLCK which phosphorylates inactive myosin into active
CONTRACTION.

Question 16

Q

Active vs inactive myosin?

Answer

A

Smooth muscle cells need to be phosphorylated to activate (unlike skeletal) by MLCK (myosin light chain kinase) and inactivated by Myosin phosphatase

Question 17

Q

How is Ca normally kept low in smooth muscle cells?

Answer

A

Normally in nm concentrations- calcium is pumped out through Ca ATPases and sequestered in the SER/ER.

Question 18

Q

What enzymes hydrolyse CAMP and cGMP?

Answer

A

Phosphodiesterases hydrolyse cGMP or CAMP to breakdown

Question 19

Q

Nitric oxide is..

Answer

A

An endothelial derived relaxing factor.

Question 20

Q

Where is eNOS located?

Answer

A

in caveola where acetylations anchor it to the PM so NO production is near to VSMC’s.

Question 21

Q

eNOS imparied by?

Answer

A

smoking reduces NO bioavailability by interferring with eNOS acetylation.
High sugar diet- hyperglycaemia- reduction in eNOS phosphorylation
HIgh LDL- oxLDL can displace eNOS in calveolar- hypertension

Question 22

Q

Prostanoids are produced how?

Answer

A

in endothelium after Ca or ROS increase.

Ca and ROS activates COX 1/2, which converts arachidonic acid to prostaglandin H2 (or others depending on enzyme)

Question 23

Q

In smooth muscle cells which prostanoids do what?

Answer

A

Prostanoids produced in EC to act on SMCs. PG H2 made then depending on enzymes different from.

PGI2 to IP- Gs-AC-CAMP- RELAX

Thromboxane A2-Thromboxane (TP) R- PLC, IP3-Ca CONTRACTION

PGE2 to EP.R(1-4) depends on cellular levels of Gs or Gi as Gi inhibits AC so inhibits CAMP so causes CONTRACTION, whereas Gs activates AC, increasing CAMP so RELAX.

Question 24

Q

Endothelin precursor?

Answer

A

ET-1 precursor is big endothelin (upregulated by pathogenic/ inflammatory signals)

ECE/Endothelin converting enzyme cleaves big endothelin to endothelin (ET-1)

Question 25

Q

Big endothelin upregulated production by what factors?

Answer

A

IL-1, Thrombin, Glucose, OxLDL, Insulin, Angiotensin II, Cortisol, Adrenaline, Hypoxia

Question 26

Q

Endothelin feedback loop?

Answer

A

Negative feedback mechanism: ET-1 acts back on EC via ETB receptors to block ECE activity, and to increase NO as shown, to oppose contraction of VSCMs. Endothelium only expresses ETB receptors (not A). This is of interest therapeutically as we may wish to specifically block ETA receptors and not ETB receptors to preferentially downregulate production of ET-1 and block / oppose its effects by maintaining the ETB negative feedback loop.

Question 27

Q

Angiotensin II on EC/SMCs?

Answer

A

ACE in pulmonary and renal endo converts I to II- which acts on AT-1 receptors on SMCs- IP3 increase Ca- CONTRACT.
MAPK activation- long term increase in contractility

Question 28

Q

4 main factors that impact contraction/relaxation of SMCs?

Answer

A

Angiotensin II- CONTRACTS
Prostanoids: PGI2-RELAX, TXA2- CONTRACT, PGE2 either.
Endothelins- CONTRACTS (but neg feedback to relax)7
NO- activated GC- RELAXATION

Question 29

Q

How does ageing and disease cause hypertension?

Answer

A

Atherosclerosis
Damage to glycocalyx
Calcification
Loss of elastin
↓ NO (diet, smoking, hypoxia)
INCREASE BP

Question 30

Q

Atherosclerosis impact on SM/ECs?

Answer

A

Loss of coupling between ECs and SMCs.

Activates ECs further- constrcition- narrow- hypertension.

Question 31

Q

Pneumonia risk of HA?

Answer

A

Recruits more WBC’s to endothelial walls- increase rupture chance- Thrombus- MI risk

Question 32

Q

Ageing impact on vessels contraction etc?

Answer

A

Loss of elastin stretch/ compliance of vessels.

Question 33

Q

Infection impact on VSMC contraction?

Answer

A

Pathogens and inflammatory / immune response, activates endothelium, recruiting leukocytes to artery wall, weakens atherosclerotic plaque (↑ vulnerable to rupture).
These stimuli generally activate pathways → VSCM contraction

Question 34

Q

Raynauds syndrome is? treatment?

Answer

A

Inappropriate vasoconstriction of smaller arteries/arterioles, over activation of sympathetic NS
White then blue then fingers when get cold and v red when warm again.
Gangrene/ ulceration risk
VASODILATION DRUGS

Question 35

Q

Hypertension epidemiology?

Answer

A

High BP. 30% of people have got, and these have increased risk of HA or stroke.

Question 36

Q

Symptoms of hypertension?

Answer

A

breathlessness, fatigue, fluid retention oedema. O2 not sufficient to meet metabolic demands

Question 37

Q

Hypertension can be secondary to?

Answer

A

athersclerosis. Lose ability for EC to communicate with SMCs so NO not relaxing SMCs. And glycocaylx broken down, age loss of elasticity, loss of vasodilation

Question 38

Q

Diseases that the vasculature is targetted as treatment? (4)

Answer

A

Heart failure- not enough CO to meet demands (seocndary to Atherosclerosis or HA)- VASODILATE.
Angina- o2 to heart insufficent with exercise, chest pain. Coronary artery disease
Pulmonary hypertension- poor gaseous exchange due to narrowing of pulmonary arteries.
Raynauds syndrome

Question 39

Q

Pulomary hypertension epidemiology?

Answer

A

1-3 years life without treatment, 5-6 with treatment. increased pressure on R side of heart (increased afterload) , R heart failure.

Question 40

Q

Summary of healthy vs activated endothelium factors acting on SMCs

Answer

A

Healthy: NO- relaxation (decrease in Ca and K channels)
Activated: ET-1- constriction (Increase in Ca via secondary messangers and calcium channels)

Question 41

Q

6 categories of therapies for vasodilation?

Answer

A

Nitric oxide donors
Prostanoids
Endothelin inhibitors
Angiotensin II and ACE
PDE inhibitors
Others

Question 42

Q

Nitric oxide donors use? action?

Answer

A

Nitroglycerine- for angina, increase blood flow to ischaemic heart (converted to NO)

Sodium nitroprusside- IV at A&E for emergency hypertension- breaks down to NO by binding to oxyhaemoglobin.

Inhaled NO for severe pulmonary hypertension

Question 43

Q

Prostanoid manipulation as therapy? use? action?

Answer

A

Corticosteroids- supress prostanoids production- prevent shock Hypotension.

illoprost- PGI2 stable analogue mimics, relaxation for Reynauds and pulmonary hypertension (and general)

Epoprostenol- IP R agonist (same above)

Question 44

Q

Endothelin inhibitors as therapy? use? action?

Answer

A

ETA/B inhibition with Bosenton for pulmonary hypertension, phase 3 trials for ischaemic optic neuropathy from glaucoma.

ECE inhibitor-as experimental tool (Phosphoramidon)

REDUCE CONTRACTION

Question 45

Q

Angiotensin II and ACE for hypertension therapy?

Answer

A

ACE inhibitors

captopril- blocks active site (side effects; hypotension, cough, proteinuria, change in taste)
Enalapril-longer lasting as reviews convertion into the active form.

AT1 antagonists (reduce IP3 therefore contraction)- sartans inhibit production of Angiotensins as well.

Question 46

Q

Phosphodiesterase inhibitors use?

Answer

A

Sildenafil (viagra), stop breakdown of CAMP and CGMP (which cause relaxation)
Dont use with NO donor- hypotension.

Question 47

Q

number 6- other therapies for hypertension?

Answer

A

NorA- many sympathetic NS activators- many side effects rarely used
Ca channel blockers- Verapamil etc
K channel activators- Nicorandil (also NO donor)

Question 48

Q

WHy treat asymptomatic hypertension?

Answer

A

Preventaable cause of premature death- but if drugs give side effects less compliance of patients, hence why important too match drugs with the patient depending on if elderly etc or young and active.

Question 49

Q

hypertension is a risk factor for which diseases?

Answer

A

Stroke- ischaemic, haemorrhogic (bleed in brain due to microaneurism.
MI
HF (Increases afterload) CO down- L Ventricle HF
Chronic renal disease (also causes secondary hypertension- Renin from JGA)
Cognitive decline- small vessel bursting gives ischaemia
Premature death
Atrial fibrillation(stoke risk itself also)

Question 50

Q

Each ….mmHg rise in …… BP is assoicated with … increase in mortality from …. and … increase of …

Answer

A

Each 2mmHg rise in systolic BP increases mortality from ischaemic HD by 7% and 10% increase in stroke

Question 51

Q

Why is it hard to test if a patient is hypertensive?

Answer

A

White coat hypertension- patients anxiety rises BP, so can offer ambulatory BP monitoring over longer period of time when at home etc inflating every 30mins.

Question 52

Q

Clinical thresholds for hypertension?

Answer

A

Stage 1 (Mild)- 140/90 in clinic (135/85 ambulatory) (150/90 if over 80yrs)
Stage 2- 160/100 (150/95)
Stage 3(severe)- systolic above 180 or diastolic above 110mmHg

Question 53

Q

Two types of hypertension? Treatments differ? (not pulmonry)

Answer

A

Primary (essential) hypertension: no obvious cause- treatment 1. lifestyle modification if mild, 2. Anti-hypersive drug therapy.

Secondary hypertension: Due to another disease e.g. adrenaline secreting/steroid tumor, overactive thyroid, renal artery stenosis- treat this.

Question 54

Q

What makes the doctor more likely to think the hypertension is secondary?

Answer

A

If the patient is younger- 40x more likely an underlying cause.

Question 55

Q

Why could renal artery stenosis cause hypertension?

Answer

A

(stenosis= narrowing)
If kidney belives poor perfusion to it, it will secrete renin (Increase EXV and BP increase). For this ACE inhibitors stop hypertension.

Question 56

Q

If under 80 and only stage 1 hypertension also need one of what, to recieve antihypertensive drugs?

Answer

A

Target organ damage- LV hypertrophy (pump harder against increased afterload), burst capillaries in eye, proteuria.
Establushed cardiovascular disease e.g. past stroke.
Renal disease
Diabetes- substatial increase risk of stroke HD etc
A 10yr cardicascular risk of above 20% due to other factors.

Stage 2 immediate treatment.

Question 57

Q

WHy is the BP threshold higher for above 80years for hypertension?

Answer

A

Because as age vessels get less compliant and stiffer so naturally higher

Question 58

Q

Two other types of hypertension? (not primary and secondary)

Answer

A

Systemic and Pulmonary, depending on which arteries the narrowing is in

Question 59

Q

3 targets for pharmacology for systemic hypertension?

Answer

A

Cardiac output (rarely) and peripheral resistance (dilation)
Balance between Renin Angiotensin II, Aldosterone system and sympathetic NS (norA)
Local vascular vasoconstrictive/dilation mediators

Question 60

Q

hypertension afro-carribbean patients personalisation?

Answer

A

Often have low renin levels so renin inhibitor of little use.

Question 61

Q

Drug options for systemic hypertension? (8)

Answer

A

ACE inhibitors (decrease EXCVol- BP down)
ARB/Sartans (Angiotenin II receptor antagonists)
Ca channel blocker (reduce constriction)
Beta blockers- phased out- block b adrenergic R (adrenaline to sympathetic) Brings HR down
Aldosterone antagonists. (salt retention EXCV up)
Alpha blocker- causes vasoconstriction
Renin inhibitors
NorA recetor blockers

Question 62

Q

ACE inhibitors examples and side effects?

Answer

A

Ramipril, enalapril etc,

side effects: diabetic nephropathy, hypotension, HF

Question 63

Q

What are sartans? Use? Examples?

Answer

A

ARBs (Angiotenin II receptor blockers) hypertension

Condesartan, Valsartan, losartan

Question 64

Q

Sartans side effects?

Answer

A

Risk:
Hypotension, especially in vol depleted patients e.g. HF if on diuretics already
Hyperkalaemia
Potential for renal dysfunction
Rash
Contraindicated in pregnancy (false indication)
but generally well tolerated.

Answer 65

A

Angiotensin I accumulates as not converted to II. This starts to compete with the sartan (Angiotensin receptor), so not combined, but Sartans can be used with Ca blockers.

Answer 66

A

arrhythmias, angina and hypertension.
Hypertension E.g. amlodipine, nifedipine, felodipine etc di-hypropyradine group of drugs.

Angina and anti-arrhythmia e.g. Verapamil, diltiazem.

Answer 67

A

Dihydropyridines: nifedipine- 3 tablets a day (others only 1) peripheral arterioal vasodilators.
Phenylalkylamines- e.g. verapamil
Major impacts on heart so useful for angina and ischaemic heart disease. negative chronoropic and inotropic.
Benzothiazepines e.g. diltiazem, effects- half way between impacts on vessels and heart.

Answer 68

A

Due to peripheral vasodilatation (mainly dihydropyridines)
Flushing
Headache
Oedema
Palpitations (reflex sinus tachycardia heart tries to maintain BP)

Due to negatively chronotropic effects (mainly verapamil/diltiazem)
Bradycardia- if too slow faint.
Atrioventricular block

Due to negatively inotropic effects (mainly verapamil)
Worsening of cardiac failure
Verapamil causes constipation

Answer 69

A

alpha- constriction-sympathetic tone on peripheral vessels.
B2-inotropic dilators (bronchioles and arteries of skeletal muscle)
B1 inotropic both (heart)- NorA, adrenaline constrict but others may dilate

Answer 70

A

Hypertension.
e.g Doxazosin, indoramin Prazosin (short acting) etc
Noradrenaline in sympathetic NS to alpha receptors which cause vasoconstriction of peripheral vessels under sympathetic tone.

Answer 71

A

Postural hypotension- stand up suddenly feel dizzy, natural BP decreases if sitting but normally increased when stand up as HR speeds up and peripheral vessels constrict to maintain BP but this cannot happen if cannot constrict perphery vessels.

Answer 72

A

Prostate disease- hypertrophy. with Alfuzosin and Tamsulosin.
There are alpha receptors here and these drugs relax prostate smooth muscle and help stop postanism (the pushing against bladder neck obstructing the outlet).

Answer 73

A

Block sympathetic drive out from the brainstem to the periphery.

Answer 74

A

Moxonidine
- Imidazoline type 1 receptor agonist (natriuretic effect, vasodilation)
Methyldopa- activates presynaptic alpha 2 receptors to decrease NorAdrenaline release (sympathetic) can be used with pregnant (also decreases dopamine)
Clonidine- Alpha 2 receptor agonist to reduce norAdrenaline release.

Answer 75

A

Natriuresis (water follows so reduces EXCV therefore BP-)

Answer 76

A

For example: Aliskiren,

Hyperkalaemia
Dizziness
Arthralgia- joint pain
Diarrhoea
Caution with other RAAS inhibitors
Concomitant use not recommended

Answer 77

A

Under 55:

ACE inhibitor (or Angiotensin II blocker if not tolerated not together)
Dual therapy ACE/ARB +CCB
- Thiazide-like diuretic
Resistant hypertension

(but personalisation depending on heart rate (beta blockers if high) etc

Answer 78

A

Or Afrocaribbean

Calcium channel blocker e.g. Amlodipine
Dual therapy ACE/ARB +CCB
- Thiazide-like diuretic
Resistant hypertension

Answer 79

A

Atherosclerosis blocks the coronary artery lumen, restricting Blood flow to tissues (here heart)
Oxygen demand of the myocardium exceeds supply (Ischaemia)This often presents in patients as chest pain.
Chest pain can be due to angina or myocardial infarction (heart attack).
Ischaemia can cause HF due to tissue death.

Answer 80

A

Disease of coronary arteries kills more people worldwide than any other disease

Answer 81

A

Leading cause of death in the world,

Decreasing due to decrease in smoking. (deaths halved in last 10 years)

Answer 82

A

Non-modifiable: Age, male, family history of before 65.

Modifiable:Diabetes, high cholesterol, smoking, diet, obesity, kidney disease

Answer 83

A

Stable angina isnot to do with acute coronary syndrome ie in high stress situations appears, not ischamia which is unstable angina (Pre MI)

Answer 84

A

Non-ST elevation myocardial infarction (NSTMI) caused by a severly narrowed arterywhereas ST elevation MI happens after a complete block of a coronary artery ie when a plaque ruptures and thrombus blocks.

Answer 85

A

Can be normal if dont have ischaemia currently, or not had an MI before.

Answer 86

A

One where the plaque does not contact the blood in the artery. e.g. there is a fibrous cap between stabilising the plaque, narrowing the artery but not risking thrombus formation and MI yet.

Answer 87

A

Umbrella term for the risks that patients with IHD face.
These are unstable angina, NSTEMI and STEMI.
The syndrome only presents when the plaque ruptures.

Answer 88

A

rare in under 35s -0.6%.

NSTEMI ncreasing, 75% of ACS are NSTEMI or unstable angina, whereas STEMI only 5 in 1000 people a year in Uk

Answer 89

A

Unstable is when get pain at rest (non predictable, whereas stable is only upon exercise when the hearts O2 demand increases.

Answer 90

A

Heavy or central crushing pain in chest upon exertion and relief with rest. But as it progresses, less and less exercise is needed for the agina pain (1-4).

Answer 91

A

Reduce the cardiac work.
e.g. Nitrates (vasodilation) Ca anatgonists etc. Treat underlying condition (statin) and drugs to prevent MI e.g. anti platelet drug aspirin.

Answer 92

A

Prevent MI= DAPT (dual anti-platelet therapy- aspirin + another)
Nitrates

Answer 93

A

Detection of troponin in blood 12h after MI. Troponins are cardiac muscle specific and are needed to diagnose an MI – they indicate myocyte death.
ECG- NSTEMI or STEMI not normal.

Angina has neither of these, unless got angina at that specific time may have ECG changes.

Answer 94

A

Broad aims of treatments are:
Reopen blocked arteries (Cardiologist)
Reduce the coagulability of blood
Control risk factors
Reduce myocardial oxygen demand

Answer 95

A

Non surgical PCI (percutaneous coronary intervention: Catheter into the heart vessels to dilate them from within. A drug coated metal stent is inserted (e.g. drugs that inhibit cell proliferation taxol or rapamycin). Balloon inflated inside the stent to open it up and then balloon removed. Nitrates added to increase flow.

STEMI door to balloon in 2hours to prevent heart failure.

Answer 96

A

Thrombosis- 1% so need to reduce blood coagubility.
E.g. Aspirin+ for 1 year+ (DAPT dual anti platelet therapy- aspirin + another drug).
or
Anticlotting e.g. PLAVIX (clopidogrel) or ticagrelor.

But excess bleeding now risk, but Pleiotropic postive effects.

Answer 97

A

“To keep the coronary plaques as stable as possible to avoid an acute clot blockage (occlusion) which can be partial or full”

+ REDUCE PAIN

Answer 98

A

reduce symptoms (ie pain) 
or improve prognosis (long term outcomes ie death)

Answer 99

A

Symptomatics – reduce strain on the heart and increase vasodilation of arteries and veins

Nitrates e.g. nitroglycerin (short acting) and isosorbide mononitrate (long acting) Vasodilation 
Aspirin and antiplatelet drugs 
Ca channel blockers e.g. amlodipine
K channel activators  e.g. Nicorandil 
Analgesia e.g. morphine

Answer 100

A

Prognostics – alleviate future negative outcomes

Aspirin, Statins/PCSK9 inhibitors, beta blockers or an ACE inhibitor. Anti-inflammation approaches are being developed.

Answer 101

A

NItrates- Nitroglycerin (GTN) as a short acting spray given sublingually ( effective in 1-2mins fro 30mins)

Answer 102

A

Primary mechanism to relax smooth muscle (all) and also veins. Main effect is on the larger muscular arteries – coronary vasodilation, increases coronary flow.

Secondary effects: reduces cardiac work(by reducing afterload), redirection of flow towards ischaemic areas of heart muscle through collateral vessels, improves coronary artery spasm.

Mechanism of action: GTN/nitroglycerin metabolism releases NO (nitric oxide), a free radical gas
NO activates soluble guanylyl cyclase and increases cGMP which activates protein Kinase G leading to relaxation effects in smooth muscle.

Answer 103

A

Brunton- saw that blood loss relieved angina- BV down, BP down, so more can divert to the heart.

Answer 104

A

Adverse effects – possible hypotension so administer sitting down. Headaches
Tolerance can occur, possibly because of depletion of –SH groups and is more common with longer acting agents.

Answer 105

A

nitroglycerin is inactivated by hepatic metabolism and only lasts 30minutes.

Isosorbide Mononitrate (longer acting) –can be orally administered 2x day with a nitrate free period at night to avoid tolerance

Answer 106

A

Nitrates don’t help mortality but these disrupt Ca movement through heart tissue, non selectively blocking SM contraction (L type Ca channels)
e.g. Verapamil- phenylalkamines (more active in heart), dihydropyradines (more efficient in smooth muscle in vessels) etc

Answer 107

A

Few: flushing, headache (vaodilation in head), half life varies and personalised dose.

Answer 108

A

NSAID. Acetylsalicyclic acid
It irreversibly acetylates COX-1 in platelets, inactivating the enzyme until new platelets are made.
COX-1 converts arachadonic to thromboxane A2 (which causes platelet aggregation)

Answer 109

A

Treat pain, inflammation or fever. But also decreases risk of HA by anti-platelets. Given immediately on presentation of heart symptoms e.g. angina IHD.

Answer 110

A

Irreversibly acetylates COX-1 so lasts as long as platelets regenerate, which is 10 days. New platelets are made from the bone marrow. PLatelets have no nucleus so cannot synthesise more COX-1

Answer 111

A

GI bleeding and ulcers. Interaction with warfarin very serious so it increases warfarin comcentration and has separate effects on platelets as well.
deafness/tinnitus (with larger doses/overdoses)
Risk of self poisoning
Resistance to aspirin is known but there are no genetic tests available.

Answer 112

A

Taken orally, weak acid so protonated (proton transferred to) in the stomach, then able to cross ilium to be absorbed.
Esterases in the liver (75%) and plasma hydrolyse aspririn to salicylate.

Answer 113

A

Stop clotting if bleed, say if going into surgery anti-dotes can be given to reverse the drugs.
e.g. Protamine sulphate for heparin. Binds to heparin

Answer 114

A

Anticoagulant, activate anti-thrombin IIa which inactivates thrombin and factor Xa.
Prevents formation of a stable clot.

Heparins are glycosaminoglycans found in mast and basophils preventing thrombus formational naturally.

Answer 115

A

Morphine: Blocks Mu opiod receptors used in ACS. receptors (Gi/G0 coupled to ion channels) in the brain as a partial agonist

Answer 116

A

Side effects: respiratory depression, nausea and vomiting (40%)- affects the postrema in the medulla.

reduced tone and motility in the gut, histamine release, tolerance
anti-emetic (anti-vomiting drug)e.g. metclopramide IV

Answer 117

A

DAPT - aspirin plus clopidogrel or ticagrelor
Heparin (usually)
Analgesics
Secondary prevention : statin, ACE inhibitor or beta blocker
Once stabilised, then elective (planned) PCI e.g. stent

Answer 118

A

Antiplatelet and anti-thrombotic therapy (DAPT - aspirin plus clopidogrel or ticagrelor)
Heparin (usually)
Possibly an additional platelet inhibitor if ECG changes are rapidly changing
Analgesics
PCI within 72 hours to determine lesion severity and suitability for stenting or bypass surgery.

Answer 119

A

Primary PCI first at a local heart attack centre
If the above centre is too far then a clot buster drug is used intravenously.
Antiplatelet medications – aspirin and ticagrelor for example
Lifelong medications after STEMI are: aspirin 75mg/day, antiplatelet agent for 1 year, statins, ACE inhibitors and beta blockers to aid myocardial recovery.

Answer 120

A

4.4%, compared to 30%.

Answer 121

A

Platelet based or physiology based, maybe inflammation in the future
- use a bedside device at the time of PCI after STEMI to measure individual platelet reactivity and assigned the anti-platelet medication on the basis of this.

Individualised maps of a patient’s coronary arteries help decide which of the lesions within an artery needs attention. Can put stents in on computer to estimate effect.
-CANTOS study 2017- which has proved that inhibition of inflammation prevents repeat heart attacks and reduces all cause mortality.

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CDL2 Flashcards

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