Gen - OSCE Facts / Questions

Question 1

Causes of hyperthermia

Answer 1

Infections - Sepsis, CNS infection, endocarditis, tropical disease

Environment - heat stroke

Endocrine - Thyroid/Phaeo

CNS - Hypothalamic stroke

Drugs - Serotonin, NMS, e, cocaine, Salicylate, benzo withdrawal

Question 2

Hyperthermia effects on the CVS

Answer 2

Tachy and increased SV, along with vasodilation

Decreases MAP

Fluid compartment shift - dehydration, situation worsens, CVP falls

Worsening tachy, met acidosis —> reduced contractility, SV and MAP

Hypotension and infarct

Question 3

Features of Serotonin syndrome

Answer 3

triad of:

Neuromuscular excitability - clonus, hyper reflex is, rigid

Autonomic dysfunction - hyperthermia, tachy, sweat, flushing

CNS dysfunction - anxiety agitation, confusion coma

Question 4

Diagnosis of Serotonin syndrome

Answer 4

Clinical - features emerge when starting or raising the dose of a serotonergic drug, or second drug added

Also - Hunter criteria

Question 5

Drugs (and catergories) causing Serotonin syndrome

Answer 5

Prevent Re-Uptake - SSRI, SNRIs, MAOI, TCA, tramadol/pet hiding

Stimulate release - Tramadol, MDMA, amphetamine

Other - Lithium, Tryptothan

Question 6

Treatment of Serotonin Syndrome

Answer 6

Stop the drug

Sedation/control agitation

Active Cooling

Control HR/BP

Monitor coag/renal

Antedotes: Cyproheptadine (oral 5HT2a)
Chlorpromazine

Question 7

cooling methods

Answer 7

Passive - Cool the room, take clothes off

Active external - wet towels, ice pack, fan, pads

Active interval - Cool if fluids, Cavity lovage, RRT, CPB, ECMO

Question 8

Fever, hyperthermia and hyper pyrexia

Answer 8

Fever - hypothalamic upreguation of set point - cytokine mediated, responds to NSAIDS

Hyperthermia - failure of temperature regulation, does not respond

Hyperpyrex - >41C

Question 9

Types of Lactic Acidosis

Answer 9

Type A - hypoperfusional

B - normal perfusion

B1 - underlying disease (ketoacidosis, leukaemia, lymphoma)
B2 - Drugs (cyanide, beta-agonists, methanol, ethanol, methanol)
B3 - Inborn errors of metabolism

Question 10

Causes of a raised CK

Answer 10

Muscular dystrophies
Myosotis, Polymyositis,
MH
Acute MI
Cerebrovascular disease
Neurosurgery

Rhabodomyolysis, hypothyroidism (muscle loss)

Question 11

Metabolic features of PRIS

Answer 11

Bradycardia
RBBB

Met acidosis
Raised lactate
Hepatic and renal failure

Question 12

Definition of PRIS

Answer 12

Acute refractory bradycardia

Plus

Met acidosis (BE >10)
Rhabdo
Hyperlipidaemia
Fatty liver

Question 13

Mechanism of PRIS

Answer 13

Direct mitochondrial resp chain inhibition

Impaired fatty acid metabolism at mitochondria

Question 14

Risks of PRIS

Answer 14

Young (paeds)

Severe critical illness (CNS or Resp origin)

TBI

Excess catecholamines

Excess glucocorticoids

Poor carbohydrate intake

Subliminal mitochondrial disease

Question 15

Tests for PRIS

Answer 15

Consider a serum triglyceride level

Question 16

Dose range of PRIS

Answer 16

4mg/kg/hour

Question 17

Treat PRIS

Answer 17

Stop propofol
Switch to alternative sedation agent

HD/HF with CVS support

Early awareness, monitoring

Question 18

CSF finding of GBS

Answer 18

Raised protein

Question 19

Differential of weakness

Answer 19

Brain stem lesions - Acute disseminated encephalomyelitis

Spinal Cord - transverse myelitis

Polyneuropathy - Infectious - Polio Diptheria, Lyme
Polyneuropathy - Non infection - porphyria

NMJ - Myasthenia, botulism
Muscle - rhabdo, myosotis

Electrolytes - low K, PO3

Question 20

Ix of GBS

Answer 20

CSF - protein
NCS - demyelination from atonal types

MRI brain and spine - cord compression, stem lesions

Anti ganglioside antibodies

Infection - campylobacter, mycoplasma, HIV

Question 21

When to tube GBS

Answer 21

Vital capacity <15ml/Kg

Bulbar weakness, can’t protect airway

Autonomic instability - haemodynamic and cardiac arrhythmia

Question 22

Drugs to tube GBS

Answer 22

Carefully titration induction agent

Vasopressin and atropine (Brady/autonomic

AVOID SUX - hyperkalaemia

Question 23

Treatment of GBS

Answer 23

IvIG
PLex

Equally effective, ivig more expensive but easier

NO ROLE FOR STEROIDS

Question 24

Other issues for GBS management

Answer 24

Tracheostomy
DVT
Pressure sores
Physio
Pain particularly neuropathic
Psych
VAP bundles

Question 25

Mortality of GBS

Answer 25

5%

Question 26

Features of poor outcome in GBS

Answer 26

Elderly
MV
Poor neurology at start and persisting
Prolonged MV

Question 27

SCoring system for CAP

Answer 27

CURB 65

Confusion (new)
Urea > 7
RR >30
BP <90 sys
Age over 65

Question 28

CURB score mortality

Answer 28

0 0.7%
1 3.2%
2 13%
3 17%
4 41.5%
5 57%

Question 29

First line ABx for CAP

Answer 29

Penicillin plus macrolide

Ben pen/clindamcin

Question 30

Ix for CAP in immunocomp

Answer 30

Try and get BAL

MC&S
Acid Fast Bacilli (TB)
PCP
Aspergillosis

Galactomannan, beta D glucan (blood), IgG/E assessment

Question 31

Causes of cavitatinig lung lesions

Answer 31

Bacterial pneumonia - Klebsiella and S.aureus
(PVL producing strains of aureus)

TB

Aspiration

Immunodeficiency - HIV - infective: TB, atypical, mycobacterium, aspergillosis
Non infective: NHL, Kaposi’

Non infective - vasculitis, sarcoidosis, rheumatoid, malig, pulmonary infarct

Question 32

What is PVL

Answer 32

Extra cellular cytotoxic made by S.aureus

Leuocidal - lytic pores in the cell membrane

Associated with skin/soft tissue infections but can be pneumonia

Question 33

Treatment of PVL

Answer 33

DoH guidance

Linezolid 600mg 12 hourly
Clindamicin 1.2-1.8g 6 hourly

Consider addition of rifampicin

Consider MRSA cover

Micro involvement

IvIG - toxin continues after bacteria killed

Question 34

Components of q-sofa score

Answer 34

RR > 22
Altered mental state
BP sys < 100

Helps

Question 35

Define sepsis

Answer 35

A life threatening organ dysfunction caused by a dysregulated host response to infection

Question 36

In the sepsis definitions, how is “organ dysfunction” defined

Answer 36

Acute change in total SOFA > 2 points

Question 37

Define sepsis shock

Answer 37

Subset of sepsis

Underlying circulatory, and cellular/metabolic abnormalities are profound enough to cause mortality

Clinically:
Hypotension requiring vasopressors to maintain MAP >65

AND

Lactate > 2mmol/L

DESPITE volume resus

Question 38

Variables of the SOFA score

Answer 38

Resp : PF ratio
Neuro: GCS
GI: bilirubin
Renal: Creatinine/Urine
Haem: Plts
CVS: MAP or vasopressor use

Question 39

Definition of VAP

Answer 39

Pneumonia occur in patients ventilated for 48 hours / within 48 hours of onset of infection

Question 40

Diagnosis of VAP

Answer 40

Vented 48 hours

Clinical signs, changes in lab tests, CXR

CPIS scoring or HELICS

Question 41

CPIS elements

Answer 41

Temperature
WCC
CXR changes
PF ratio
Type of secretions

Question 42

What is a ventilator associated event?

Answer 42

Significant event that can be infective or not, leading to a deterioration in oxygenation

20% increase in daily lowest FiO2
Increase in PEEP of at least 3 cm from stable baseline

Question 43

Organisms for a VAP

Answer 43

Less than 48 hours in hospital - similar to CAP
More than 5 days - hospital multi-resistant:
Pseudomonas,
Klebsiella
Enterobacter
Acinetobacter
Haemophilia

Gram positives. - s. aureus, streptococcus

Fungi - rare

Question 44

Preventative measures of VAP

Answer 44

Bundles:

Daily sedation hold
30 degree nursing
Chloe hex mouth care
Suction (sub glottis)
Humidification
Maintain cuff pressure 20-30cmH20

?SSD
Stress ulcer prophylaxis
Silver ETT

Question 45

Treatment of VAP with MRSA in sputum

Answer 45

Glycopeptides - vancomycin

Oxazolidinone - Linezolid

Linez - better lung penetrence but not convincing evidence of superiority

Vanc - renal monitor

Question 46

Treatment of VAP

Answer 46

Tazocin
Gentamicin for MDR
Vanc if MRSA
Teic if VRE colonised

Question 47

Factors for consideration for VAP

Answer 47

Local policy
Local pathogens
Prevalence of MDR, ESBL, MRSA

Prior therapies, allergy status
Duration of ventilation

Micro results and BALs

Question 48

Methods of working out daily energy requirements

Answer 48

Weight based - 25-30kcal/kg/day (IBW)
20-25 in acute illness

Protein - 1.2-1.5G/kg/day

Indirect calorimetry

Eqns - Schofield, Benedict Harris equation based on age, sex, height, weight

Question 49

Energy from protein, carbs and fat

Answer 49

Protein 4kcal/g
Carb 4kcal/g
Fat 9 kcal/g

Question 50

What is the RQ, and what is it for carbs, fat and protein

Answer 50

Ratio of CO2 produced to Oxygen consumed

Carbs 1
Fat 0.7
Protein 0.8

Question 51

What is refeeding syndrome

Answer 51

A collection of features that describe the rapid re-institution of feed in patients who have been starved.

Starvation - carbs metabolism switches to fat and protein breakdown.
Start feed. Insulin surge.

Shift of electrolytes - K, PO3, Mg intra cellular

Also altered sugar homeostasis, thiamine deficiency and salt/water retention

Question 52

Life threatening features of refeeding

Answer 52

muscle weakness
resp failure
Cardiac dysrhythmias
Hypotension
Heart failure
Coma
Death

Question 53

Prevent refeeding

Answer 53

Establish who is at risk (NICE guidelines)

Careful re-establish feed at 10kcal/kg/day
Gradually increase

Monitor electrolytes and replace

Multivit replacement, thiamine

Dietician input

Question 54

Risk for refeeding

Answer 54

1 of: 2 of:
BMI<16. BMI <18.5
Weight loss >15% in 3-6/12. 10% weight loss
Little/no intake for 10 days. 5 days
Low K/PO3/Mg prior to feed. Hx of alcohol, drugs (insulin, chemo)

Question 55

Differential for low platelets and renal failure +/- neurological changes

Answer 55

MAHA - TTP/ HUS
Pre-eclampsia
HELLP
DIC

Autoimmune disease
Vasculitis
Infection - CMV, HSV, HIV, Hep B, sepsis

Question 56

Evidence of haemoloysis

Answer 56

Low Hb

Film - schistocyes (fragments)
Spherocytes (rounder smaller)

Reticulocyte count
LDH high
Low Haptoglobins
Raised bilirubin and urobilinogen

Question 57

Test for TTP

Answer 57

ADAMTS 13 reduced

Coombs test - negative

Question 58

How does TTP differe from HUS

Answer 58

TTP less likely to have renal failure

But more likely to have Neuro abnormalities

Question 59

Pathophys of TTP

Answer 59

ADAMTS 13 cleaves vWF

Reduction in ADAMTS means less cleavage

Large vWF factor - platelets aggregation and shearing, haemolysis

Triggers - congenital OR, acquired e.g. haemorrhagic colitis - e.coli, shigella

Question 60

Treatment of TTP in pregnancy

Answer 60

Involve haem and obs

Early delivery of foetus (+/- steroids for lung maturation)

FFP infusions as a temporary measure

DO NOT GIVE PLATELETS

Plasma exchange (removes auto-antibodies and replenish enzymes)

IV methyl-pred.

Question 61

Name some indications for plasma exchange

Answer 61

GBS
MG
Chronic inflammatory deyelinating poly

Renal: Goodpastures, ANCA vasculitis

Question 62

Process of plasma exchange

Answer 62

Blood drawn
Cellular components separated from plasma

Done by centrifuge or filter

Substitute patients plasma with done FFP, or HAS

Question 63

Complications of PLEX

Answer 63

Bleeding
Infection
Allergic reaction
Fluid overload
Hypocalcaemia (infused citrate)

Question 64

Causes of SAH

Answer 64

85% aneurysm
10% non-aneurysmal
5% trauma, AV malformation

Question 65

Grading severity of SAH

Answer 65

WFNS Score - based on GCS and deficit

Fisher - 4 point radiological scale

Hunt and Hess - 5 point clinical scale

Question 66

WFNS class for SAH

Answer 66

1 - GCS 15, no def
2 - 13-14, no def
3  13-14, def
4- 12-7 +/- def
5 3-6 +/- def

Question 67

Neurological complications of SAH

Answer 67

Rebleed - 24 hours - Coil or clip
Risk of intra cerebral haematoma
Hydrocephalus - EVD

DCI due to vasospasm - 5 to 10 days

Question 68

Diagnosis of vasospasm

Answer 68

Clinical - Neuro - reduced GCS +/- focal neurology
CVS - Hypertension, brady, arrhythmia

Cerebral angiography - gold standard

CT/MR angio
TCD - Lundegaard Ratio

Question 69

Treatment of vasospasm

Answer 69

Nimodipine, both prophylactic and tx
Mg - little evidence

IR - Balloon angio/intra arterial injections

HHH - (though not hypervol) drive the MAP, and haemodilute

Question 70

BP target in initial SAH tx

Answer 70

Aim of <180 until coiled/clipped

Question 71

Secondary measures in SAH

Answer 71

Ventilate to normocapnoea
PaO2>10
Normal BM
Treat seizures
Get to Neuro centre
Sit up, loose ties etc

Question 72

Causes of thrombocytopenia

Answer 72

Reduced prodcuction
Increased destruction
Increased sequestration

Reduced: 
Bone marrow hypoplasia
Alcoholism
B12 loss
Methotrexate/valproate

Destructions
Immune - ITP/SLE/penicillin
Non - TTP/HUS/DIC
Sepsis/CVVH

Sequestration
Hypersplenism

Question 73

What is heparin

Where is it made

What does it do

Answer 73

Naturally occurring glycosaminoglycan

Made by mast cells and basophils from tissues rich in mast cells

Increases antithrobmin 3, in turn inhibit thrombin and Xa

Question 74

Pathophysiology of HIT

Answer 74

Type 1 and 2
1 - non immune, 2 immune
1 - more common
1 - 3 days, 2 5-10 days

IgG antibodies form to the heparin/platelet factor 4 complex
Causes platelets activation and thrombosis, subsequent depletion

Question 75

Diagnose HIT

Answer 75

4 T’s score (Thrombocytopenia, timing, thrombosis, oTher)

Specific ELISA testing for antibodies

Question 76

Management of HIT

Answer 76

STOP HEPARIN
Change to something else - argatroban
Or fondaparinux/danaparoid

Avoid warfarin until platelets recover
DO NOT GIVE PLATELETS
Avoid hep for 100 days

Question 77

4 T’s score

Answer 77

0-3 low prob
4-5 intermediate
6-8 high risk

Question 78

Criterial for brain stem death - pre-conditions

Answer 78

Cause of coma known (CT)
Irreversible
Deeply unconscious needing mechanical vent
Cardiovascularly stable

Question 79

BSD criteria - exclusions

Answer 79

No muscle relaxants or sedatives (may need to do benzo/thio levels)

Normal temp (34C)

Na 115-160
K>2
Mg/PO3>0.5

BM 3-20

Question 80

What should you do if there is benzos/thio on board

Answer 80

Observe for 2-3x the half like of the drug
Give antagonists
Plasma analysis (>10ug/L midaz, >5mg/L thio)

Question 81

Who does BSD

Answer 81

2 doctors
1 more than 5 years GMC registered
1 consultant

Question 82

Time of death in BSD

Answer 82

Completion of first set of test

Question 83

When might you not be able to do tests

Answer 83

High cervical cord injury - affects apnoea test

Facial trauma - can’t examine cranial nerves

Question 84

If you can’t do BSD, what other tests are there

Answer 84

Consider ancillary tests

Two types - electrical and flow

Electrical - EEG and SSEP

Flow - Cerebral angio (four vessel test)
TCD

PET scan??

Question 85

Describe the apnoea test

Answer 85

Increase FiO2 to 1.0

ABG - check PaCO2 and SaO2 similar to monitored value

Change ventilation to get an etCO2> 6.0 and pH < 7.4

Place suction catheter at 5l/m O2 into tube or CPAP

Leave for 5 minutes

Observe

Do another gas

CO2 rise by 0.5

Question 86

ECG features of a TCA overdose

Answer 86

Prolonged QTc
Wide QRS
Arrhythmia
R/S ratio > 0.7 in aVR
Terminal R wave > 3mm in aVR
Right axis deviation
Sinus tachy

Question 87

Why do ECG changes happen in TCA overdose

Answer 87

Blocks fast Na channels —> wide QRS

Blocking of K —> long QTc interval

Question 88

Biochemical features of TCA od

Answer 88

Metabolic acidosis

Question 89

Features of TCA overdose

Answer 89

Neuro and Cardiac

Neuro - Reduced GCS, seizures, coma
CVS - sinus tachy, hypotension, prolonged QRS

Sympathetic - pupillary dilation, dry mouth and skin, retention and agitation

Question 90

Tx of TCA od

Answer 90

ABC
Tube if low GCS
Activated charcoal in 1 hour - needs an airway

Sodium bicarbonate

Seizures - benzo’s AVOID Phenytoin

Lipid emulsion

Treat hypotension - fluid/vasopressors (adrenaline over norad)

Question 91

Why does bicarb work on TCA overdose

Answer 91

Aim pH 7.5

Alkalinization reduces the affinity for the drug to the sodium channel

Question 92

Drugs to avoid in TCA

Answer 92

Anything potentiating a Na block

Phenytoin/flecanide, disopyramide

Question 93

Classify aortic dissections

Answer 93

Stanford
A - Ascending aorta +/- arch
B - Descending aorta distal to left subclavian

DeBakey
1 - Starts in ascending and propogates into arch
2 - ascending only
3 - descending only

IIIA - above diaphragm
IIIB - extends below

ESC groupings

Question 94

Why do type A need repairing

Answer 94

Typically involve it aortic valve - incompetent
Valve needs repair/reseat
Thoracic aorta is grafted

Question 95

Management features of type B dissections

Answer 95

Uncomplicated - BP reduction
Complicated - left thoracotomy
Complex endovascular procedures

Question 96

Convservative tx of a dissection

Answer 96

BP control - beta-block (verapamil if CI)
GTN/SNP (reduce BP but reflex tachy alone)

Aim MAP 60-65 (or lowest MAP to maintain perfusion)

If no joy:

Treat pain and anxiety
Consider clonidine
Consider dissection to renal vessels

Question 97

Goal of SSD

Answer 97

Prevent or eradicate oro-pharyngeal/gastric carriage of Potentially Pathogenic Microorganisms.

Thought to preserve non-pathological flora, which protect against overgrowth

Question 98

Four components of SSD

Answer 98

1 - selective eradication of PPM, use of orobase and NG ABx

2 - Systemic prophylaxis - cefotaxime - prevent resp infections from commensuals

3 - Hygiene and cross-contamination

4 - Regular throat swabs and faeces cultures

Question 99

Benefits of SDD

Answer 99

Reduce risk of nocosomial infection

Most ICU infections are opportunistic, aerobic, gram neg, bacilli.

Klebsiella, proteus, pseudomonas, these are present already and proceeded by colonisation

Question 100

Problems with SDD

Answer 100

Resistance

Diarrhoea

Question 101

Examples of nocosomial infections

Answer 101

UTI
HAP
Line infections/bloodstream
SSI

MRSA/VRE/C.diff

Question 102

What is C.diff

Answer 102

Gram pos
Spore forming
Bacteria

Causes illness when competitions bacteria wiped out by Abx
Normal component of gut flora

Causes pseudomembranous colitis —> toxic mega

Question 103

Risk factors for c.diff

Answer 103

Use of broad spec ABx
Increasing length of stay in hospital
Use of PPIs
Poor infection control processes

Question 104

Severity of c diff

Answer 104

Mild - normal WCC, 3 stools of type 5-7/day

Mod - WCC raised, 3-5 stools/day

Severe - WCC > 15, Temperature 38, Creatinine 50% rise, abdominal/radiology

Life threatening - Hypotension, ileus, megacolon, CT evidence

Question 105

Tx of C diff

Answer 105

Mild/mod - 14 days oral metronidazole

Severe - vancomycin oral. Refractory - oral plus iv metronidazole.
Conisder IvIG or rifampicin

Surgical input, bloo lactate, colectomy

Question 106

When to do a colectomy in c diff

Answer 106

Caecal dilation 10cm

Question 107

Causes of alveolar infiltration/ground glass

Answer 107

Infective - pneumonia, bacterial/viral/fungal

Non-infective 
  Cardiac - pulmonary oedema
   Idiopathic pneumonia syndrome
   Diffuse alveolar haemorrhage
   Bronciolitis obliterans (pulm complication of graft vs host)

Question 108

Investigate patient with alveolar ground glass from stem cell transplant

Answer 108

Culture/infection:
   Blood, sputum, urine, BAL - MC&S
   Throat swabs, viral screen (adeno/rhino, EBV, influenza, RSV, HSV, CMV)
   Atypical
   Aspergillosis: galactomannan/ PCR
   PCP from sputum

Cardiac causes:
12 lead ECG
TTE

HRCT thorax

Question 109

Causes of deranged LFTs in stem cell transplant

Answer 109

Sepsis
Drugs - anti virals/anti fungal/abx

Viral - EBV
Fungal

GvHD (hepatitis, dermatitis, enteritis)

Veno-occlusive disease (thrombosis after chemo)

CCF - hepatic engorgement

Question 110

Cause of low platelets in stem cell transplant

Answer 110

Reduced survival:
Sepsis
GvHD
Veno-occlusive
HIT
TTP

Decreased production:
Insufficient transplant
Poor marrow, made worse by drugs
Marrow fibrosis
Persistent/recurrent malignancy

Question 111

Classify haemopoetic stem cell transplants

Answer 111

Source of donor - autologous (own), allogenic

Matched or unmatched to HLA (human leukocyte antigens)

Source of cells (peripheral, bone marrow or cord blood)

Intensive of pre-transplant chemo regime:
Myeloblative (total destruction of patients marrow)
Reduced intensity conditioning

Question 112

Poor prognostic features in critical illness of HSCT

Answer 112

MOF
MV
RRT
GvHD
Relapse of malignancy