Pharmacology

Question 1

4 sites of drug metabolism

Answer 1

Lungs
Liver
Kidneys
Cells

Question 2

4 sites of drug excretion

Answer 2

Kidneys
Lungs
Bowels
Skin

Question 3

Contraindications for Succinylcholine

Answer 3

• Hyperkalemia
• Rhabdomyolysis (burns/crush > 72hrs) due to up regulation of ACh receptors
• History of malignant hyperthermia
• Neuromuscular disease (safe in mysthenia gravis)
• Spinal cord injury
• Stroke, over 72 hours old
• Unable to BVM
• Pseudoactylcholinestrase deficiency

Question 4

Succinylcholine administration cautions

Answer 4

• Can affect muscarinic receptors in myocardium and cause bradycardia (or the hyperkalemia can).
• Can increase ICP so avoid in TBI/CVA patients.
• Masseter spasm (*rarely associated with malignant hyperthermia)
• Will temporarily increase serum potassium levels by 0.5-1.0 mmol.

Question 5

Rocuronium administration cautions

Answer 5

• Difficult BVM

- Anaphylaxis (can occur hours after administration)

Question 6

MOI of most Pressors/Inotropes

Answer 6

• Modifies intracellular cyclic adenosine monophosphate (cAMP) levels
• Increases release of Ca++ from sarcoplasmic reticulum
• Increases sensitivity of troponin to Ca++

Question 7

Effects of pH on SNS receptors

Answer 7

Mutates alpha and beta receptor sites and inhibits their binding with catecholamines. This often occurs with pH < 7.12. Consider NaHCO3 if vasopressors are ineffective.

Question 8

Succinylcholine induction dose:

Answer 8

1. 5mg/kg (actual body weight)

* Larger doses can potentially spill over and cause muscarinic activation –> bradycardia

Question 9

Rocuronium induction dose:

Answer 9

0.6 to 1.2mg/kg (ideal body weight)

Question 10

Rocuronium pharmacokinetics

Answer 10

Onset: 60-90 seconds
Duration: 30-45 minutes

Question 11

Succinylcholine pharmacokinetics

Answer 11

Onset: <60 seconds (look for fasiculations)
Duration: 4-10 minutes

Question 12

Ketamine doses

Answer 12

Induction: 0.5-4mg/kg
Maintenance: 0.5-4mg/kg/hr
IVP: 0.01 to 0.03mg/kg or just 5-20mg

*Going over won’t ‘dissociate’ the patient deeper, it will just prolong the effect of dissociation. It may, however, cause respiratory arrest!

Question 13

Ketamine pharmacodynamics

Answer 13

• Antagonizes NMDA receptors and reduces catecholamine reuptake.
• Interrupts pathways between limbic system (emotions/memories) and the cortex (higher functions, wakefulness, perception) causing dissociation.
• Increases HR, BP and cardiac output.
• Can cause bronchodilation.
• Is associated with significant oropharyngeal secretions (can be dried with 0.2mg atropine).

Question 14

Propofol doses

Answer 14

Induction: 2 to 4mg/kg (Will cause hypotension!!)
Maintenance: 5-100mcg/kg/min
IVP: 10-30mg

Propofol infusion syndrome can occur at doses of 80mcg/kg/min over 24 hours. Severe, refractory bradycardia leading to asystole. Crank up the milliamps and pace!

Question 15

Propofol pharmacodynamics

Answer 15

• Works on GABA and NMDA receptors and modulates hypothalamic sleep pathways. Also, upregulates Mu receptors to make opioids more responsive.
• Amnesic, anxiolytic, anti-convulsant, anti-emetic, bronchodilatory effects, and muscle relaxing effects. No analgesia!
• Will sequester itself into adipose tissue to delay clearance. Elimination is not affected by renal/liver dysfunction.

Question 16

Fentanyl doses

Answer 16

Induction: 50-100mcg (less for patients > 65)
Maintenance: 1-3mcg/kg/hr (50-200mcg/hr)
IVP: 20-50mcg

*Large doses of opioids for induction can cause “frozen chest wall.” The only treatment is paralytics or naloxone.

Question 17

Ketamine pharmacokinetics

Answer 17

Onset: 1 minute
Duration: 15-20 minutes

Question 18

Fentanyl pharmacokinetics

Answer 18

Onset: Immediate
Duration: 30-60 minutes

Question 19

Is midazolam safe for pregnant patients?

Answer 19

No. All benzodiazepines are recognized as class D. Evidence shows strong risk to the fetus.

Choose another agent to treat eclampsia (MgSO4, phenytoin etc.)

Question 20

Midazolam pharmacokinetics

Answer 20

Onset: 2-5 minutes
Duration: <2 hours

*Benzodiazepines can alter higher cognitive function in older adults for up to 6 months after administration!

Question 21

Midazolam doses

Answer 21

Induction: 5-10mg
Maintenance: 5-10mg/hr

• Cut in half for anybody >65.
• Will have significant duration for anybody with renal/hepatic dysfunction since both drug and metabolite are active!

Question 22

Low dose epinephrine receptor activation

Answer 22

Alpha: +
Beta 1: +++
Beta 2: ++
*Increases CO, decreases SVR

Question 23

High dose epinephrine receptor activation

Answer 23

Alpha 1: +++
Beta 1: +++
Beta 2: +
Increases CO and increases SVR

Question 24

Low dose (1-2mcg/kg) dopamine receptor activation

Answer 24

Alpha: -
Beta 1: +
Beta 2: -
Dopaminergic: ++ (causes selective vasodilation of renal, coronary, mesenteric and cerebral vessels)

Question 25

Medium dose (5-10mcg/kg) dopamine receptor activation

Answer 25

Alpha: +
Beta 1: ++
Beta 2: -
Dopaminergic: ++

Question 26

High dose (10-20mcg/kg) dopamine receptor activation

Answer 26

Alpha 1: ++
Beta 1: ++
Beta 2: -
Dopaminergic: ++
*Be wary of dysrhythmias!

Question 27

Dobutamine receptor activation

Answer 27

Alpha 1: -
Beta 1: +++
Beta 2: ++
Dopaminergic: -
*lower doses cause more inotropy while higher doses cause more vasodilation!

Question 28

Vasopressin properties

Answer 28

• Works like anti-diuretic hormone (ADH) and exclusively works on V1 receptors.
• Increases water reabsorption in the kidney’s collecting ducts. Pulls more water than sodium so can cause relative hyponatremia. This is good for diabetes insipidus but bad for cerebral edema.
• Causes vasoconstriction, particularly in the splanchnic vessels so can be useful for esophageal varices.
• Unlike levophed, will constrict efferent renal arterioles, thus increasing glomerular flow.
• Considered second line agent for sepsis refractory to levophed or anaphylaxis refractory to sepsis
• Dose: 0.01 to 0.04 units/min. Doses higher than 0.03u/min are associated with mesenteric and coronary ischemia and increased pulmonary artery pressures.
• Particulalry useful in septic shock since there is possible reduced endogenous ADH in this shock state.

Question 29

Levophed receptor activation

Answer 29

Alpha 1: +++
Beta 1: ++
Beta 2: -

Question 30

Phenylephrine receptor activation

Answer 30

Alpha 1: +++
Beta 1: -
Beta 2: -

Question 31

Milrinone properties

Answer 31

• Phosphodietrase-3 inhibitor
• Increases intracellular Ca++ levels
• Causes inotropy and vasodilation similar to dobutamine, but fewer dysrhythmias
• Consider as a secondary agent for refractory cardiogenic shock, or if cardiogenic patient is tachycardic or arrhythmogenic.
• Dose: 0.125 to 0.1mcg/kg/min

Question 32

Dobutamine preparation

Answer 32

Dose: 2.5 -20mcg/kg/min
Prep: 250mg in 250mL

Question 33

Levophed preparation

Answer 33

Dose: 1-20mcg/min
Regular strength prep: 4.0mg in 250mL (16mcg/mL)
Quad strength prep: 16.0mg in 250mL (64mcg/mL)

Question 34

Phenylephrine preparation

Answer 34

Draw up 1mL (10mg) from vial and dilute in 100mL of N/S, making concentration of 100mcg/mL.
Dose: 50-100mcg IVP

*Consider reflexive bradycardia when correcting acute hypotension.

Question 35

Fentanyl infusion preparation

Answer 35

Prep: 500mcg in 250mL of N/S

or 500mcg in 50mL of N/S

Question 36

Ketamine infusion preparation

Answer 36

Prep: 500mg in 500mL of N/S
Dose: 0.5-4mg/kg/hr

Question 37

Midazolam infusion preparation

Answer 37

Prep: 50mg in 50mL or 250mg in 250mL

Question 38

Morphine infusion preparation

Answer 38

Prep: 50mg in 50mL of N/S

Question 39

Three fundamental concepts of vasopressor and inotrope use

Answer 39

1. One drug, many receptors
2. Dose-response curve. A drug’s receptor affinity will change depending on dose.
3. Direct vs reflex action. A drug’s direct action may be cancelled out due to reflexive physiology.

Question 40

What is tachyphlaxis?

Answer 40

Responsiveness to a drug decreases after continuous or repeat doses.

Question 41

How do you run vasopressin into a patient using a flight pump?

Answer 41

Dose: 0.01 - 0.04 units/min.

Med Calc off, standard infusion only.

10 units in 100mL of N/S = 0.01 units/mL. It’s run in in mL/hr so you have to multiply by 60, therefore, your infusion rate for 0.01 units/min is 0.6mL/hr. If you want 0.04units/min, run it at 2.4mL/hr

Question 42

Composition of 0.9% Normal Saline

Answer 42

Sodium 154mEq/l
Chloride 154mEq/l

pH 5.5
*Chloride is a potent renal vasoconstricter and too much NaCl can worsen kidney outcomes/ICU length of stays.

Question 43

Composition of Lactated Ringers

Answer 43

Sodium 130 mEq/l
Chloride 109 mEq/l
Potassium 4 mEq/l
Calcium 3 mEq/l
Lactate 28 mEq/l

pH 6.5

Question 44

Composition of Plasmalyte

Answer 44

Sodium 140 mEq/l
Chloride 98 mEq/l
Potassium 5 mEq/l
Magnesium 3 mEq/l
Gluconate 23mEq/l

pH 7.4

Question 45

Pros and Cons of Fentanyl

Answer 45

P: Immediate onset, less hypotension, metabolizes hepatically, no N/V.

C: Lipophillic and accumulates in adipose, chest wall stiffness can occur in high doses.

Question 46

Pros and cons of morphine sulfate.

Answer 46

P: Non-CYP metabolized so fewer drug-drug interactions, longer acting.

C: Accumulates with hepatic/renal dysfunction and prolong effects, histamine release and vagally mediated venodilation, hypotension and bradycardia can be significant. N/V.

Question 47

Pros and cons of propofol:

Answer 47

P: Anti-convulsant, anti-emetic, reduces ICP, reduces cerebral metabolism, muscle relaxant, rapid on/off, non-affected by renal/hepatic dysfunction. Has bronchodilatory effects so it’s good for inducing asthmatics.

C: Hypotension when bolused (vasodilation and myocardial depression), refractory bradycardia with prolonged use, negative inotrope, respiratory depression, increased caloric intake and CO2 production, longer context specific half-life due to lipophilicity.

Question 48

Pros and cons of ketamine:

Answer 48

P: Potent sedative with analgesic properties, maintains or improves blood pressure, does not blunt reflexes, less respiratory depression, bronchodilator.

C: Oral secretions, hallucinations, N/V, and can cause myocardial/respiratory depression in rare cases. Sometimes arrhythmogenesic.

Question 49

Pros and cons of midazolam:

Answer 49

P: Amnestic, anticonvulsant and anxiolytic, immediate onset and short duration.

C: Respiratory and myocardial depression, CYP metabolized into active metabolites that can cause prolonged sedation if delivered long term or if patient is renally impaired, requires hepatic/renal dysfunction dosing, many drug-drug interactions especially with ABx.

Question 50

Considerations for emergence:

Answer 50

• Have enough analgesia in the patient that they wake up calm and not in pain.
• NODESAT the patient for 2-3 minutes before emergence just in case you need to snow them again and re-intubate.

Question 51

What is context specific half-life?

Answer 51

The longer the duration of an infusion designed to deliver constant plasma levels of drug, the longer the emergence phase will be.

Question 52

Does midazolam have antegrade or retrograde amnesic properties?

Answer 52

Angegrade. The patient won’t remember anything moving forward from the time of drug administration.

Question 53

Lidocaine infusions… Discuss.

Answer 53

• Makes patients drowsy and augments other analgesics.
• Significant context specific half-life
• Can cause lidocaine toxicity. Treat with shitloads of propofol (the lipid make up soaks up the Na+ receptor blocker). NaHCO3- can also be helpful.

Question 54

Haloperidol cautions

Answer 54

• Depresses ALL the CNS.
• Prolongs QTc and potentially causes Torsades de Pointes.
• Extrapyramidal dystopias (treat with diphenhydramine).
• Neuroleptic malignant syndrome.
• Parkinsonism.

Question 55

You have 7 infusions and 6 channels. How to problem solve?

Answer 55

• Best to put analgesics/sedatives together. M and M is a handy one since it’s a 1:1 ratio. That drops you to 6 infusions.
• Another option is to give IVP of analgesia/sedation.

Question 56

By which mechanism is propofol considered a neuro-protective agent?

Answer 56

Assists with auto regulation of blood flow during cerebral insult. Acts on more cerebral receptors to cause more global cerebral depression and reduced metabolism.

Maintains blood flow to the areas of the brain that are working and need it while shunting it away from areas that don’t (flow-metabolism coupling).

Question 57

Talk to me Goose…

Tell me about Furosemide’s effects on ADHF. How does it work? What electrolytes are commonly lost?

Answer 57

• Reduces circulating volume (diuresis) and provides dilation of peripheral capacitance vessels (venodilation).
• Inhibits reabsorption of Na and Cl in ascending loop.
• Causes increased excretion of water, Na, Cl, Mg and Ca.

Question 58

List me some inotropes:

Answer 58

• Dopamine (a +/++, b1 +/++, b2 -, d++)
• Dobutamine (a - , b1 +++, b2 ++, d -)
• Milrinone (a -, b1 -, b2 -, d -, PDE3, +)
• LD Epinephrine (a +/++, b1 +++, b2 ++)

Question 59

How ‘bout dem vasopressors?

Answer 59

• Phenylephrine (a +++, b1 -, b2 -, v -)
• Norepinephrine (a +++, b1 ++, b2 -, v -)
• Vasopressin (a -, b1 -, b2 -, v1 ++)
• HD Epinephrine (a +++, b1 +++, b2 +, v -)

Question 60

Concerns when administering vasopressin

Answer 60

• Pulls more water than salt from the kidneys so can potentially create/worsen hyponatremia. A particular concern with any form of cerebral edema.
• Causes splanchnic vasoconstriction which can worsen hepatorenal syndrome.

Question 61

The inotropes, and when to use them:

Answer 61

• Milrinone: cool peripherally with tachycardia
• Dobutamine: cool peripherally with relative bradycardia
• Epinephrine: warm peripherally, bradycardia, shitty heart
• Dopamine: warm peripherally, relative bradycardia, no CVC

Question 62

Early in critical disease coma, the brain is rich with _________ receptors. Later, these same receptors down regulate themselves and leave more ________ receptors available.

Answer 62

1. GABA
2. NMDA

Hence why midazolam/propofol are good initial maintenance drugs, but then ketamine infusions start to make more sense.

Question 63

List the key features of Propofol infusion syndrome:

Answer 63

• Approx 80mcg/kg/min for 12-24 hours

- Mitochondrial dysfunction leads to increased CK, increased lactate, hypotension and refractory bradycardia.

Question 64

Patient getting swamped out in ketamine induced oral secretions? Suction, but what else can you do?

Answer 64

0.2mg of atropine will dry that shit right up!

Question 65

Labetalol dosing…

Answer 65

Either 5mg bolus, doubled every 5 minutes to a max single dose of 80mg or a total dose of 300mg.

Or…

Infusion starting of 0.2-10mg/min and increasing.

Question 66

What type of blocker is Labetalol?

Answer 66

Alpha-1, Beta-1 and Beta-2

IV, it has a 7:1 ratio of beta to alpha effects.

Question 67

Hydralazine dosing…

Answer 67

5-10mg every 5 min to a max of 40mg

Question 68

Pantaloc dosing…

Answer 68

80mg bolus, then 8mg/hr

Question 69

Amiodarone dosing…

Answer 69

150mg bolus
1mg/min for 8 hours
0.5mg/min for the next 16 hours

Question 70

TXA dosing…

Answer 70

1g over 10 minutes, then 1g over the next 8 hours (1g in 1000cc at 125ml/hr)

Question 71

What are some benefits of Haldol?

What is a normal dose?

Answer 71

Anti-psychotic
Anti-emetic
Analgesic (can be potent if combined with ketamine)

Dose: 5mg IV, 10mg IM