QLD CPG Review

Question 1

Symptoms of cardiac chest pain?

Answer 1

1. Retrosternal chest pain
2. Decribed as burning, pressure or tightness
3. Referred pain (eg. arms or jaw/teeth)
4. Dyspnoea
5. Diaphorisis
6. Nausea and vommiting
7. Feeling of impending doom.

Question 2

Treatment options for ACS?

Answer 2

After any IV medication = 100 ml flush.

Standard interventions:

• GTN: 400 mcg spray sublingual
• Oxygen
• Aspirin: 1 x 300 mg tablet orally

Pain Relief:

• Fentanyl: comes in 100 mcg in 2 ml. Mix with 8 ml of saline to get 10 ml dilution. Thus you will have 10 mcg
  of Fentanyl per 1 ml.

IV Dose: 25-50 mcg increments up to a max of 100 mcg.

In patients over 70, Fentanyl should be given in 25 mcg increments up to a max of 100 mcg.

Nausea:

• Comes in 4 mg in 2 ml. Dose is 4mg IV or IM.
• Paediatric dose in above 5 yrs old = 2 mg
• Paediatric dose above 3 years old 100 mcg per kilo . One possible dilution for this is take your 4 mg in 2ml. Draw up 1 ml and discard remainder. Add your 2mg in 1ml with 9 ml of saline. You now have 2000 mcg in 10 ml. Dividing 2000 by 10 you move decimal place one to the left….so 200 mcg per 1 ml.

Question 3

Symptoms of bradycardia?

Answer 3

• HR < 60 bpm
• Hypoxia is a common cause of bradycardia. Check effectiveness of breathing/auscultation
• Hypotension (< 90 mmHg systolic)
• Syncope
• Dysponea
• Diaphoresis
• Nausea

Question 4

Treatment for bradycardia?

Answer 4

Non-Cardiac bradycardia: Always focus on reversible causes.

Cardiac Bradycardia:

• Atropine: Comes in 1.2 mg / 1ml. dose for bradycardia is 600 mcg IV. Repeat after 2 minutes. Maximum total dose is 1.2 mg - Call for ICP support.
• Transcutaneous Pacing - Call for ICP support.
• Adrenaline - Call for ICP support.
• Isoprenaline - Call for ICP support. This drug is a synthetic amine similar to adrenaline. Except highly selective acting exclusively on B1 adrenergic receptors increasing chronotrope, inotrope and dromotrope (conduction speed).

Question 5

Explain Atropine?

Answer 5

Class: Anticholinergic

Molecular target: Muscarinic acetylcholine receptor

Type of interaction: Reversible, competitive antagonist

Atropine in a competitive antagonist of muscarinic Ach receptors and exerts an anti-cholinergic effect. The ideal dosing for atropine is unknown and thankfully, the risk of toxicity is extremely low. It is thought that delay in reaching therapeutic atropinisation has negative consequences for morbidity and thus aggressive dosing is recommended in organophosphate poisoning.

acetylcholine is regulated by acetylcholinesterase, which is responsible for breaking it down.

Question 6

What occurs in organophosphate poisoning?

Answer 6

acetylcholine (ACH) is regulated by acetylcholinesterase, which is responsible for breaking it down. Organosphosphates attach to acetylcholinesterase binding sites, preventing it from attaching to acetylcholine and downregulating hydrolysis. Thus ACH becomes excessive.

Two key types of ACH receptors exist, muscarinic and nicotinic. Nicontinic are fast acting, and exist throughout the body including at the neuromuscular junction. They are ion channels that bind with ACH, allow Na+ influx and thus depolarisation and muscle contraction.

With two much ACH, nicotinic receptors are overwhelmed and muscle twitching occurs in the patient.

Muscarinic receptors are also found within smooth muscle, the cardiac conduction system and exocrine glands. Muscarinic receptor type 2 (M2) is found extensively throughout the myocardial tissue, and binding of AcH to M2 receptors which are secondary activates a G-protein coupled response (secondary messenger response). This influences the SA node, decreasing its firing rate and slowing electrical conduction. This mechanism explains the bradycardia seen in these patients.

Question 7

ECH features of SVT? Caused by?

Answer 7

• 140-280 bpm and is regular in nature. It may cease spontaneously (and abruptly) or continue indefinitely until medical treatment is sought.
• QRS complexes usually narrow (< 120 ms)
• P waves are typically buried in the QRS complex

Re-entry mechanism triggered by:

• Increase in sympathetic activation
• Stimulants (drugs, coffee, alcohol, energy drinks)
• Electrolyte or acid base disorders
• Hyperventilation
• Stress (wolf-parkinson white syndrome)

Question 8

Symptoms of SVT?

Answer 8

• Well tolerated and rarely life threatening
• A narrow complex tachycardia RARELY requires cardio-version.
• AF patients with greater than 24 hour history, are at risk of thrombus. Therefore a delayed approach to cardioversion should be considered.
• Palpitations
• Chest pain or discomfort - burning, tightness, pressure
• Dysponea
• ALOC
• Haemodynamic instability

Question 9

Treatment for narrow complex tachycardia?

Answer 9

If there is haemodynamic compromise:

1. oxygen
2. Aspirin (If myocardial ischemia is suspected)
3. IV Fluids
4. Cardioversion required

No Haemodynamic compromise:

1. Oxygen
2. Aspirin (If myocardial ischemia is suspected)
3. Modified Valsalva manoevre:
   - Blow into a 10 ml syringe for 15 seconds whilst semi recumbent. Then place patient immediately supine with leg raise for 45 seconds.

Question 10

Cardiogenic Shock treatment?

Answer 10

• Oxygen
• CPAP
• Aspirin
• Adrenaline (ICP skill)
• IV fluid (titrate to physiological response to fluid, reassessing obs)

Question 11

What are symptoms for broad complex tachycardia?

Answer 11

• Defined as heart rate >100bpm and QRS >.12 seconds.
• The most important clinical feature in BCT is the haemodynamic status. Those with haemodynamic instability require immediate cardioversion. Delay may result in cardiac arrest.

Differentials may include:

• VT
• SVT with abberant conduction such as pre-existing BBB
• Pre-excitation (eg Wolff-Parkinson white syndrome)

Question 12

Treatment for broad complex tachy?

Answer 12

No pulse? - treat as per cardiac arrest

Haemodynamically compromised?
- Cardioversion ( call for ICP )

Not yet Haemodynamically compromised?
- Call ICP for amiodarone and magnesium sulfate

Question 13

What are the temperature ranges for heat exhaustion vs heat stroke?

Answer 13

Heat exhaustion ( 37 degrees - 40 degrees) Characterised by loss of fluid and electrolytes. Can progress rapidly to heat stroke left untreated.

Heat stroke ( > 40 degrees) A potentially life-threatening condition that leads to death/multi-organ failure

Question 14

What are non environmental causes of hyperthermia ?

Answer 14

It is called intrinsic hyperthermia

• Infection
• Seratonin Syndrome
• Status epilepticus
• CVA involving the hypothalamus
• Drug withdrawl

Question 15

What are key considerations in hyperthermia?

Answer 15

• Patients can become hypothermic when cooled too rapidly. If the patient shivers, is cool to the touch or peripherally shut down then discontinue cooling.
• The degree and duration of hyperthermia is a key predictor of outcome.

Question 16

Symptoms of hyperthermia in heat exhaustion and heat stroke?

Answer 16

Heat exhaustion:

• Severe headache/dizziness
• Diaphorisis (sweaty), neusea and vomiting
• Tachyponea, tachycardia, hypotension
• Muscle pain/cramps

Heat stroke:

• Dry skin and hot (no sweat)
• CNS dysfunction such as siezures, ALOC and extreme fatigue)
• Dysrythmias
• Hypotension
• Hypoglycemia and hyperkalaemia

Question 17

Treatment for hyperthermia (both types almost the same)

Answer 17

Unconcious Yes?

1. Remove patient from heat source
2. Exposure
3. Prioritise breathing via:
   Oxygen
   IPPV
   LMA

Then progress to regular conscious treatment protocol

1. Remove patient from heat source
2. Exposure
3. Strip - Spray - Fan - Ice (ultimate technique). Ice in maxilla, groin, neck. ICE is ONLY in heat stroke (>40 degrees). Otherwise ‘gentle’ cooling is used.
4. Cooled IV fluid - titrate to patient response/BP
5. Ondansatron. Come in: 4 mg in 2 ml Dose: 4mg IM
6. Analgesia
7. Paracetamol if infectious cause suspected.

Question 18

What are the temperature ranges for hypothermia

Also list symptoms for each

Answer 18

Mild (35 - 32 Degrees)

• Vasoconstriction
• lethargy
• Ataxia (poor movement coordination)
• Tachycardia
• Normotensive

Moderate (32 - 28 degrees)

• Confusion / Delerium
• ALOC
• Hypotension
• BRADYCARDIA
• Muscle regidity

Severe (<28 degrees)

• Coma
• DILATED PUPILS
• Dysrythmias
• Slow AF
• VF

Question 19

Are Sats accurate in hypothermia?

Answer 19

Not entirely, as there is a shift left in the oxygen/haemoglobin dissassociation curve. Thus oxygen is bound tight the Haemoglobin…and sats read high. Despite this, the delivery of oxygen to tissue is reduced and tissue may be in fact hypoxic despite good sats.

Question 20

What is the treatment for hypothermia in patients with no signs of life?

Answer 20

Resuscitation but with some special considerations:

• They arent dead until they are WARM and dead. Signs of life are unreliable whilst the patient is hypothermic.
• WITHOLD adrenaline and all other resus drugs such as amiodarone until the patient temp is higher than 30 degrees.
• Once above 30 degrees the standard drug interval should be doubled. So adrenaline after every round (2 minutes) instead of 4.
• As body temperature DECREASES, Bradycardia leads into AF….then into VF…then aystole.

Question 21

What is the treatment for patients with hypothermia who HAVE signs of life?

Answer 21

1. Minimise patient movement - Cardiac irritability is enhanced, as is the potential for clotting.
2. Prevent further heat loss. Remove wet clothing. Blanket -> space blanket -> blanket.
3. Minimal IV Fluid - Permissive hypotension only.
   - Oxygen: ensure adequate
   - 12 lead ECG: As body temperature DECREASES, Bradycardia leads into AF….then into VF…then aystole.
   - Serial temperature monitoring
   - BGL - how long have the been there?

Question 22

How should you define an anaphylactic reaction in the field?

Answer 22

Any acute onset of illness with typical skin features such as uticarial rash, erythema/flushing and/or angiooedema.

PLUS

Involvement and/or cardiovascular and/or severe gastro symptoms

OR Any acute onsent of hypotension OR bronchospasm where anaphylaxis is considered possible EVEN IF skin features are not present.

Question 23

Signs and symptoms of moderate reaction vs anaphylaxis?

Answer 23

Moderate:

• lip swelling, face, eyes
• Hives
• Tingling mouth
• Abdo pain

Anaphylaxis:

• Stridor, noisy breathing
• Tongue swelling
• Throat tightness or difficulty swallowing
• Wheeze or cough
• Dizziness or collapse
• Pale and floppy (Young children)

Question 24

Key risk assessment items for anaphylaxis?

Answer 24

• very reaction is different. Some only react with hypotension and dizziness.
• Uticaria and angiooedema may be transient or overlooked. 1 in 6 anaphylactic deaths occurs without skin reaction - whilst cardio or respiratory symptoms occured.
• If uncertain if asthma…treat with adrenaline first, prior to salbutamol.

Question 25

Treatment protocol for anaphylaxis?

Answer 25

1. Remove allergen…look for bee sting, remove from environment if a trigger exists such as a plant/food ect.
2. If moderate…provide an antihistamine. If Severe provide ADRENALINE at 300 mcg for an adult.
3. Position supine to reduce hypotension UNLESS it is causing breathing difficulties.
4. Consider oxygen.
5. IV fluid. 10-20 ml per kilo.
6. Salbutamol for bronchospasm
7. Ipatropium for bronchospasm.

Question 26

What is the treatment for hypoglycemia?

Answer 26

1. Can patient handle ORAL glucose - Provide to patient and check BGL to get above 4 mmol/L
2. If unable to have oral. provide IV glucose 10%. 100 ml saline flush + 100 ml bolus + 100 ml saline flush. repeat 5 minutes until BGL > 4.0 mmol/L
3. If no IV access. Provide glucagon IM. Comes in 1 mg powder. Add water and provide 1 mg dose IM.

Question 27

What is the treatment for neausea and vomiting?

Answer 27

1. Analgesia
2. Antiemetic - Ondansatron 4mg IM.
3. IV fluid if required. 10 - 20 ml per kilo as per dehydration recommendations.

Question 28

What are two key foundations of treatment for sepsis in prehospital?

Answer 28

1. It is critical to prevent organ hypoxia in sepsis. For respiratory distress consider high flow oxygen and advanced airway where required.
2. Fluid resuscitation bolus of sodium chloride should be considered at 250 - 500 ml (10-20 ml per kilo). ADDITIONAL fluid bolus is requires if there is no improvement in vital signs AND no signs of PULMONARY OEDEMA.

Question 29

Signs and symptoms of Sepesis?

Answer 29

Key = HAT - > Hypotension, altered conciousness, tachycardia.

Key = Source of infection

SIRS is characterised by:

• Tachyponea (most common)
• Wheeze, cough, crackles or any respiratory sign of infection after auscultation.
• Temp > 38.2 or < 36 (cold sepsis)
• HR > 90 BPM
• BGL > 6.6 (unless diabetic)
• Altered mental status

Severe Sepsis is characterised by:

• Systolic < 90 mmHg
• 02 Sats < 90%
• No urine passed for > 8 hours

Question 30

Treatment protocol for Sepsis?

Answer 30

1. Oxygenation - early and monitor airway
2. Fluid resuscitation - 250-500 ml. (10-20 ml per kilo). ADDITIONAL fluid bolus is requires if there is no improvement in vital signs AND no signs of PULMONARY OEDEMA.
3. Adrenaline infusion - call for ICP backup.
4. If no signs of septic shock - Pandadol/antipyretic

Question 31

Explain all four levels of burn and their appearance

Answer 31

1. Superficial - Ertheyma, brisk cap refill
2. Superficial dermal - Moist, erythema with blisters, brisk cap refill
3. Deep dermal - White slough, reddened and mottled, sluggish or absent cap refill. PAINFUL.
4. Dry, charred, whitish, absent cap refill. PAINLESS.

Question 32

Should you be concerned about hypovoleamia in a burn patient?

What should you seriously consider before providing IV fluids?

Answer 32

• hypovolemia manifests mostly in the later stages, shouldn’t occur too much in pre-hospital unless secondary to trauma such as a blast injury.
• IV fluids should not be administered to patients with significant neck, facial or upper chest burns with high capacity for airway compromise. This is because large amounts of fluid increase the risk of interstitial oedema and may cause swelling causing difficulty with airway adjuncts.

Question 33

What is a key temperature concern in burns?

Answer 33

Avoid hypothermia…impaired thermoregulation makes this a real risk.

Question 34

What is the management protocol for burns?

Answer 34

1. Assess for airway burn. If so call for ICP support for advanced airway
2. Consider oxygen and IPPV if airway burn suspected and waiting for backup.
3. If hypotensive - provide IV fluid PRN titrated to effect.
4. Irragate for 20 minutes - Active cooling
5. Cling wrap hanging off limb/burn..
6. Analgesia - Fentanyl 50 mcg doses.
7. Can use burnaid dressing is less than 20% BSA in an adult or less than 10% BSA in a paediatric.

Question 35

Explain the rule of 9’s for calculating BSA?

Answer 35

Front leg worth 9% and back worth 9%. Two legs so 18% for each side as a couple.

Chest and torso is worth 18%. back and lower back 18%

Front arm worth 4.5 and back arm worth 4.5. Two arms so 9% each side as a couple.

head worth 4.5 front and 4.5 back

genitals worth 1%