F1 knowledge test Flashcards
Head injury: indication for CT head
- On AC?
- GCS < 13
- Mechanism - eg. RTC
AKI
-
ACS.
a) Immediate management of all suspected ACS
b) STEMI* management (reperfusion therapy)
c) Further management to reduce myocardial oxygen demand
*Includes new LBBB and posterior STEMI (ST depression in V1-V3)
a) - A-E assessment
- MONA: Morphine IV (+ metoclopramide), Oxygen if SpO2 <94%, Nitrates (unless hypotensive) and Aspirin 300 mg oral
- 12 lead ECG
- IV access and bloods (FBC, U+E, clotting, troponins, glucose, lipids)
b) Within 12 hours of onset of chest pain:
- Primary PCI (if can be performed within 2 hours of call)
- Give loading dose of a platelet ADP receptor blocker (clopidogrel/ticagrelor) beforehand
- note: heparin given in the cath lab
After 12 hours of onset of chest pain:
- Thrombolysis
- Give loading dose of aspirin (300 mg), clopidogrel (300 mg) and LMWH/UFH/fondaparinux
- If this fails (ECG 60-90 mins post-thrombolysis shows <50% improvement) then transfer for ‘rescue’PCI’
c) - Beta-blockade (or diltiazem)
- IV nitrate infusion if angina persists despite GTN
- Early ACEI if there is LV systolic dysfunction/ CCF
- Diuretics may also be needed in heart failure causing pulmonary oedema
Causes of a raised…
a) D-dimer
b) Lactate
c) Troponin
d) CRP
a) - VTE
- DIC
- Recent surgery
- Trauma
- Infection
- Liver or kidney disease
- Cancer
- Normal pregnancy, or eclampsia
b)
c)
d) - Infection
- Surgery
-
e)
4 Hs and 4 Ts
- Hypoxia
- Hypovolaemia
- Hypothermia
- Hypo/hyper… kalaemia/glycaemia, etc*
- Thromboembolism
- Tamponade
- Tension pneumothorax
- Toxins
- Think of these when taking bloods off:
- FBC
- U+E
- Glucose
- VBG
Falls in geriatric patients
a) Categorising causes
b) Drugs that increase risk of falls
a) Syncopal
- Hypovolaemic/hypotensive (postural, vasovagal, dehydration, hypoadrenalism, etc.)
- Arrhythmias - tachy and brady-arrhythmias
- Structural - AS, other LVOT obstruction, MI
Non-syncopal
- Environmental - shoes, rugs, etc.
- Sensory - peripheral neuropathy (diabetes, alcohol), poor vision
- Poor mobility, weakness, myopathy
b) Sedatives
- TCAs (especially as anticholinergic effects)
- Morphine (use oxycodone instead)
- Benzos
- Z-drugs
- Pregabalin/gabapentin
Antihypertensives
Diuretics
Hyperlactataemia.
a) Physiological causes - type A and type B
b) What threshold generally indicates poor prognosis in sepsis?
c) Does it result in high or normal anion gap?
a) Lactate produced from pyruvate in anaerobic states. The usual ratio of lactate to pyruvate (L/P ratio) = 10:1
Type A (tissue hypoxia)
- Hypoperfusion - any cause of shock (e.g. sepsis), intestinal ischaemia
- Impaired oxygen delivery - anaemia, CO poisoning
- Anaerobic activity (e.g. seizures, intense exercise)
- Causes elevation of L/P ratio >10
Type B (no evidence of hypoxia)
- Normal L/P ratio
- ‘Failure’ states - liver or renal faiure
- DKA
- Thiamine deficiency
- Drugs
- Leukaemia
b) >4
c) High anion gap
Anion gap.
a) Equation
b) Normal value
c) Why is there a gap in cation/anion?
d) Causes of high anion gap*
e) Causes of normal anion gap (ABCD)
a) {Na (+ K)} - {Cl + HCO3]
b) 8 - 16
c) Unmeasured anions:
- Albumin, phosphate, etc.
d) Production of organic acids:
- Lactate - type A (tissue hypoxia), type B (altered metabolism)
- Ketones - DKA, starvation, alcoholic
- Uraemia (renal failure)
- Ingestion - methanol, paracetamol, ethylene glycol
Note - the production of these acids leads to consumption of bicarbonate, hence lowering the anion gap
e) Hyperchloraemic acidosis (usually related to bicarb loss and resultant Cl reabsorption - hence normal AG)
A - Addisons
B - Bicarbonate loss in 90% of cases (GI loss - diarrhoea; renal loss - RTA)
C - chloride (excessive NaCl)
D - diarrhoea, diuretics
