Learning outcome 2

Question 1

Peripheral nervous system neurotransmitters

Answer 1

Acetylcholine, norepi, epi only. 21 known in CNS

Question 2

Monoamines (CNS Neurotransmitters)

Answer 2

Dopamine, Epinephrine, Noreip, Serotonin

Question 3

Amino acids (CNS Neurotransmitters)

Answer 3

Aspartate, GABA, Glutamate, Glycine

Question 4

Purines (CNS Neurotransmitters)

Answer 4

Adenosine

Adenosine monophosphate and triphosphates

Question 5

Opioid Peptides (CNS Neurotransmitters)

Answer 5

Dynorphins, Endorphins, Enkephalins

Question 6

Nonopioid Peptides (CNS Neurotransmitters)

Answer 6

Neurotensin
Oxytocin
Somatostatin
Substance P
Vasopressin

Question 7

Others (CNS Neurotransmitters)

Answer 7

Acetylcholine

Histamine

Question 8

Increased therapeutic effects in CNS

Answer 8

Antipsychotics, antidepressants need to be taken for several weeks to develop full effects. Beneficial responses may be delayed as they result from adaptive changes, not direct effects.

Question 9

Decreased side effects in CNS

Answer 9

Possible for therapeutic effects to remain the same as side effects decrease.
Phenobarb produces sedation but that declines while it still prevents seizures. Thought to be a cause of adaptive changes

Question 10

Tolerance

Answer 10

Decreased response occurring in the course of prolonged drug use

Question 11

Physical dependence

Answer 11

State in which abrupt discontinuation will precipitate withdrawal syndrome

Question 12

Serendipitous

Answer 12

Occurred or happened by chance in a beneficial way

Question 13

Difficulties finding new psych drugs

Answer 13

Can’t test on animals for obvious reasons, can’t test on healthy people because they have different effects

Question 14

Opioid vs opiate

Answer 14

Opioid any drug (natural or synthetic) that has actions similar to morphine, where opiate applies only to compounds present in opium (morphine, codeine)

Question 15

Three endogenous opioid peptides

Answer 15

Enkephalins, endorphins, dynorphins which serve as neurotransmitters, neurohormones, and neuromodulators

Question 16

Three classes of opioid receptors

Answer 16

Mu, kappa, delta.
Opioid analgesics act primarily by activating mu and lesser extent kappa. Opioids generally don’t interact with delta but endogenous opioids act on all three.

Question 17

Mu receptors

Answer 17

Responses include analgesia, respiratory depression, euphoria and sedation. Also related to physical dependence.

Question 18

Analgesic defintion

Answer 18

Drugs that relieve pain without causing loss of consciousness

Question 19

Psychotomimetic effects

Answer 19

relating to or denoting drugs that are capable of producing an effect on the mind similar to a psychotic state.

Question 20

Kappa receptors

Answer 20

Produce analgesia, sedation and may underlie psychotomimetic effects

Question 21

Partial agonist

Answer 21

Low to moderate receptor activation alone but blocks actions of full agonist if two are given together

Question 22

Pure opioid agonists

Answer 22

Agonize Mu and Kappa, cause sedation, analgesia, euphoria, sedation, resp depression, dependence, cough suppression, and constipation
Morphine (prototype of strong opioid agonist)
Codeine (prototype of moderate to strong opioid agonist)
and other morphine like drugs

Question 23

Agonist-antagonist opioids

Answer 23

Pentazocine (talwin, which is the prototype) , nalbuphine, butorphanol all antagonize mu and agonize kappa
Buprenorphine partial mu agonist, antagonist to kappa

Question 24

Pure opioid antagonists

Answer 24

Antagonize mu and kappa, naloxone, naltrexone and others.

Methylnaltrexone to treat opioid induce constipation

Question 25

Other effects of morphine

Answer 25

Resp depression, constipation, urinary retention, orthostatic hypotension, emesis, miosis, cough suppression, biliary colic.
Produce analgesia by mimicking actions of endogenous opioid peptides

Question 26

Resp depression

Answer 26

At equinanalgesic doses, all cause resp depression to same extent by activation of mostly mu and lesser kappa
Resp depression kicks in 7 minutes after IV, 30 after IM, 90 after sub q and may persist 4-5 hours.
Morphine by spinal ejection might delay resp depression by hours

Question 27

Constipation in opioids

Answer 27

Activating gut mu receptors suppresses propulsive intestinal contractions, intensifies nonpropulsive contractions, increase tone of anal sphincter, inhibit secretion of fluids into intestinal lumen.
Goal is to produce soft formed stool every 1-2 days.

Question 28

Opioid constipation tx

Answer 28

Physical activity, increased fibre and fluids, enemas, senna to counter reduced bowel motility, docusate as stool softener, polyethylene glycol as osmotic laxative.
Rescue therapy is strong osmotic laxative like lactulose or sodium phosphate.
Methylnaltrexone blocks mu in intestines and is last resort (can’t cross BBB)

Question 29

Orthostatic hypotension from opioids

Answer 29

Morphine like drugs block baroreceptor reflex and dilate peripheral arterioles and veins.
Peripheral vasodilation mostly from histamine

Question 30

Morphine like drugs urinary retention

Answer 30

Increased tone of bladder sphincter, increase tone of detrusor muscle (elevating pressure within bladder, causing sense of urgency) and may suppress by diminishing awareness of fullness.
TCAs and antihistamines (antichols) worsen it, as well as underlying BPH
Also decreases renal blood flow which lowers urine production, and promotes releases of antidiuretic hormone

Question 31

Morphine like drugs cough suppresion

Answer 31

May lead to accumulation. Act on medulla to suppress. Pts may need to be instructed to forcefully cough

Question 32

Biliary colic morphine like drugs

Answer 32

Can induce spasm of bile duct, causing increased pressure in biliary tract causing epigastric distress to biliary colic.
In pts with biliary colic, opiods may intensify rather than relieve.
Morphine is worse than others for this

Question 33

Emesis in morphine like drugs

Answer 33

Direct stimulation of chemoreceptor trigger zone of medulla. Greatest with initial dose. Occur in 15-40% of walking pts (uncommon in recumbent pts)
Stillness and antiemetics help this

Question 34

Elevation of ICP in morphine like drugs

Answer 34

Indirect, as it suppresses resps which increase CO2 which dilates cerebral vasculature. ICP will remain normal if resps are kept normal

Question 35

Dysphoria in morphine like drugs

Answer 35

Anxiety and unease. Uncommon if in pain, can happen if there is no pain

Question 36

Sedation in morphine like drugs

Answer 36

Minimized with smaller more frequent dosing, short half lives, and small doses of CNS stimulants given with

Question 37

Miosis in morphine like drugs

Answer 37

Can cause poor night vision

Question 38

Birth defects in morphine like drugs

Answer 38

2-3x higher incidence. Worse during conception/early on.
Can cause congenital heart defects (av septal defects, hypoplastic left heart, conoventricular septal defects) and spina bifida and gastroschisis

Question 39

Gastroschisis

Answer 39

Protrusion of intestine through abdo wall near umbilicus

Question 40

Neurotoxicity in morphine like drugs

Answer 40

Delirium, agitation, myoclonus, hyperalgsia.
Risk factors are renal impairment, preexisting cognitive impairment, prolonged high dose use.
Manage with reduced dose and hydration and if long term use is indicated, occasionally switching

Question 41

Long term use in morphine like drugs

Answer 41

Hormonal changes, altered immune function, decline in cortisol, increase in prolactin, decrease in LH and FSH

Question 42

Pharmacokinetics of morphine

Answer 42

IM, IV, SUB q lasts 4-5 hours
Epidural, intracathecal up to 24 hours
Oral IR is 4-5 hours, ER up to 24.

Question 43

Tolerance in morphine like drugs

Answer 43

Tolerance doesn’t develop to miosis and constipation

Cross-tolerance exists with other opiods but not other CNS depressants

Question 44

Physical dependence in morphine like drugs

Answer 44

Short half lives give intense short withdrawal. Longer is longer

Question 45

Withdrawal symptoms

Answer 45

Yawning, rhinorrhea, sweating (approx 10 hours after final dose) then anorexia, irritability, tremor, gooseflesh (term cold turkey) and peak with violent sneezing, weakness, nausea, vomiting, diarrhea, abdo cramps, bone and muscle pain, muscle spasm, kicking movements (kicking the habit)
Lasts 7-10 days in morphine
Rarely dangerous

Question 46

Labor and delivery in morphine like drugs

Answer 46

Suppresses uterine contractions, resp depression in neonates

Question 47

Head injury in morphine like drugs

Answer 47

Can increase ICP, and make tough to diagnose

Question 48

Other precautions in morphine like drugs

Answer 48

Inflammatory bowel disease pts can get toxic megacolon or paralytic ileus.
Liver impaired pts may hae intensified effects
BPH, hypotension, reduced blood flow pts

Question 49

CNS depressants in morphine like drugs

Answer 49

All CNS depressants can intensify sedation and resp depression

Question 50

Anticholingerics in morphine like drugs

Answer 50

Can exacerbate morphine induced constipation and urinary retention

Question 51

Hypotensive drugs in morphine like drugs

Answer 51

Can exacerbate the hypotension obvi

Question 52

Monoamine oxidase inhibitors in morphine like drugs

Answer 52

Can produce a syndrome of excitation, delirium, hyperpyrexia, convulsions and severe resp depression. Hasn’t been reported with morphine (just meperidine)

Question 53

Ampehtamines, clnidine, dextromethorphan in morphine like drugs

Answer 53

Can enhance opioid induce analgesia and can offset sedation

Question 54

Embeda

Answer 54

Moprhine/naltrexone combo. Morphine in ER capsules and inner core of naltrexone. If swallowed only morphine is absorbed, if crushed to be injected naltrexone gets released
ETOH accelerates released of morphine from embeda

Question 55

Morphine general dosing guidelines

Answer 55

Sharp stabbing pain needs higher doses than dull.

Older and younger need less, neonates need very low as BBB not developed

Question 56

Routes and dosage morphine

Answer 56

Oral is 10-30, don’t chew capsules, don’t drink ETOH,
Children IM SUBQ is 0.1-0.2mg/kg
IV over 4-5 minutes

Question 57

Fentanyl

Answer 57

100X POTENCY of morphine
Metabolized by CYP3a4
Patches come in 12.5,25,50,85,100mcg/hr don’t expose patches to heat, no strenuous exercise

Question 58

Sufentanil

Answer 58

Potency 1000X morphine, alfentanil 10x morphine

Question 59

Remifentanil

Answer 59

Rapidly metabolized by plasma and tissue esterases, not hepatic metabolism or renal excretion. About 100X potency of morphine. Effects in minutes, terminate in 5-1minutes. Given as infusion during surgery at 0.05 to 2mcg/kg/min and post operative at 0.025 to 0.2 mcg/kg/min
Muscle rigidity like fentanyl

Question 60

Meperidine

Answer 60

Used to be bigger, not so much because of short half life, adverse interactions, and toxic metabolites. Excessive activation of serotonin reuptake inhibition.

Question 61

Methadone

Answer 61

Prolonged QT, torsades in 65-400mg a day. Metabolized by CYP3A4

Question 62

Equianalgesic dosing mg codeine

Answer 62

PO 200

IM subq 130

Question 63

Equianalgesic dosing mg fentanyl

Answer 63

0.1 IM/IV

Question 64

Equianalgesic dosing mg hydrocdone

Answer 64

30 PO

Question 65

Equianalgesic dosing mg hydromorphone

Answer 65

PO 7.5

Injection 1.5

Question 66

Equianalgesic dosing mg levorphanol

Answer 66

PO 4

Injection 2

Question 67

Equianalgesic dosing mg Meperidine

Answer 67

PO 300

Injection 75

Question 68

Methadone Equianalgesic dosing mg

Answer 68

PO 20

IM IV 10

Question 69

Equianalgesic dosing mg Morphine

Answer 69

PO 30

Injection 10

Question 70

Equianalgesic dosing mg oxycodone

Answer 70

20 PO

Question 71

Equianalgesic dosing mg oxymorphone

Answer 71

PO 10
Injection 1
Rectal 10

Question 72

Tapentadol Equianalgesic dosing mg

Answer 72

PO 100

Question 73

Moderate to strong opioid agonists vs moprhine

Answer 73

Less analgesia, resp depression and have a somewhat lower potential for abuse
Can be reversed with naloxone

Question 74

Codeine

Answer 74

30mg = 325mg of acetaminophen for pain relief
10% undergoes metabolism to morphine in the liver by CYP2D6
As the dose is higher for therapeutic doses, analgesia is more difficult to attain SAFELY

Question 75

Codeine metabolism

Answer 75

Some people lack effective CYP2D6 gene and can’t convert codeine to morphine so no relief is felt
Hyper metabolism in 7% of whites, 3% of blacks, and 1% of hispanic and asians is possible, and will also prevent analgesia

Question 76

Codeine in da boob

Answer 76

Rare, but possibly for severe toxicity, usually from ultrarapid metabolism
Nursing mothers should look for excessive sleepiness, breathing difficulty, lethargy, poor feeding

Question 77

Antitussive codeine

Answer 77

10mg

Question 78

Oxycodone

Answer 78

Equivalent to codeine. Metabolized by CYP 3a4
Controlled release is oxycontin
Used to be stamped OC, now OP and are tough to crush and form a gel with liquids
Oxycontin OP burns if snorted. It is immediate release. Also gel in water or alcohol

Question 79

Hydrocodone

Answer 79

5mg
Only available in combination with ibuprofen or acetaminophen.
If used as cough suppressant combined with antihistamines and nasal decongestants.
Vicodin, vidoprofen, lortab

Question 80

Tapentadol

Answer 80

Similar pain relief to oxycodone

Differs in it activates mu receptors, also blocks reuptake of norepi (like tramadol) and causes less constipation

Question 81

Other names meperidine

Answer 81

Demerol

Question 82

Other names methadone

Answer 82

Diskets, dolophine, methadose

Question 83

Other names Hydromorphone

Answer 83

Dilaudid, exalgo, jurnista

Question 84

Other names oxymorphone

Answer 84

Opana

Question 85

Other names oxycodone

Answer 85

Oxycontin, roxicodone, oxecta, oxyIR

Question 86

Other names hydrocodone

Answer 86

Vicodin, vicoprofen, lortab

Question 87

Drug interactions tapentadol

Answer 87

ETOH, opoids, barbs, benzos will cause extra depression and sedation like anything
MAOI because it blocks reuptake of norepi can cause hypertensive crisis
Don’t mix with SSRIs or TCAs or seratonin agonsists (SSRI has no problems in clinical trials)

Question 88

4 agonist-antagonist opoids

Answer 88

Nalbuphine, butorphanol, pentazocine, buprenorphine

First three antagonize mu and agonize kappa

Question 89

Pentazocine actions and uses

Answer 89

AKA talwin.
Prototype for ag/antag
Kappa only, antags mu, therefore limited resp depression, and high doses cause anxiety, strange thoughts, nightmares, hallucinations (thought to be from kappa activation)
Also less effective for pain control
*Increases MVO2
Will trigger withdrawal in addicts as it blocks Mu AKA don’t give it to addicts
Can cause dependence but mild (cramps, fever, anxiety, restlesness)

Question 90

Nalbuphine

Answer 90

Like pentazocine
Analgesic similar to morphine at low doses, but has a ceiling and a ceiling to resp depression like penta
Less withdrawal than morph, more than penta
In labor, causes fetal bradycardia and apnea, cyanosis, hypotonia

Question 91

Butorphanol

Answer 91

Similar to pentazocine
Less analgesia than morph
Resp depress ceiling
Psychotomimetic reactions possible but rare
Increases MVO2

Question 92

Buprenorphine (the other antag/ag opioid)

Answer 92

Partial ag at mu, antagonist at kappa.
Similar pain analgesia to morph, but don’t get significant tolerance
Depressed resp but not severe
Up to 2 weeks for withdrawal to start
Naloxone can’t reverse, but pretx can prevent toxicity (binds to tight for naloxone to displace)
Treats opioid addiction

Question 93

Buprenoprhine physically

Answer 93

Prolongs QT.
Adverse effects increased with underlying psychosis, ETOH abuse, adrenocortical insufficiency, severe liver or renal impairment
Can cause spasms of sphincter of Oddi

Question 94

Sphincter of Oddi

Answer 94

Where bile duct and pancreatic duct enter duodenum. Buprenorphine induces these, and creates risk of pancreatitis or biliary disease in the predisposed

Question 95

Withdrawal

Answer 95

Clinically significant dependence occurs within 20 days from high doses
Tape over 3 days, up to 7-10 if dependence is high

Question 96

Physical dependence definition

Answer 96

Abstinence syndrome will occur if drug is abruptly withdrawn. NOT the same as addicition

Question 97

Abuse definition

Answer 97

A drug used inconsistent with medical or social norms

Question 98

Addiction definition

Answer 98

Disease process characterized by continued use of a psychoactive substance despite physical, psychologic, or social harm. Completely separate from physical dependence, physical dependence doesn’t need to exist, does up chances of addiction tho yo

Question 99

Addiction concerns

Answer 99

Boston Collaborative Drug Study says of 12,000 hospitalized pts taking opioids, 4 became drug abusers.
Addiction is not a reason to withhold

Question 100

Drug abuse screening tool

Answer 100

NIDA-modified ASSIST

Question 101

PCA

Answer 101

Patient controlled analgesia

Question 102

Obstetric Analgesia

Answer 102

Morphine and meperidine may cause depressed fetal resps and uterine contractions given parenterally, still given though.
Fentanyl, sufentanil, alfentanil,, remifentanil shorter duration of action and don’t produce significant neonatal depression.
Also mixed like nalbuphine, butorphanol, pentazocine, buprenorphine offer increase pain relief without causing further resp depression

Question 103

MI Pain control

Answer 103

Pentazocine and butorphanol both increase MVO2 so avoid.

Morphine good for decreasing MVO2

Question 104

Opioids head injury

Answer 104

Can cause ICP, and miosis, mental clouding and vomiting can make diagnostics more difficult

Question 105

4 pure antagonists

Answer 105

Narcan, methylnaltrexone (relistor), alvimopan (entereg) and naltrexone (revia, vivitrol)

Question 106

Pharmacokinetics naloxone

Answer 106

IV immediate
IM 2-5 minutes
Half life approx 2 hours

Question 107

Methylnaltrexone actions and use

Answer 107

Selective mu antagonist for opioid induced constipation for those who have not responded to standard laxative therapy.
Methyl group prevents it from crossing BBB, so it also does not decrease ANALgesia

Question 108

Alvimopan

Answer 108

Selective peripherally acting mu opioid antagonist like methylnaltrexone
Only for short term use (methylnaltrexone can be used long term) because it increases MI risk

Question 109

Naltrexone (ReVia, Vivitrol)

Answer 109

Pure opioid antagonist used for opioid and ETOH abuse.
It prevents euphoria
It can cause withdrawal if pts still addicted. It doesn’t stop cravings like methadone
Can cause hepatocellular injury in high doses

Question 110

Nonopioid centrally acting analgesics

Answer 110

Tramadol, clonidine, zionotide, dexmedetomidine
Relieve pain by mechanisms largerly or completely unrelated to opioid receptors so little or no resp depression, dependence, or abuse

Question 111

Tramadol

Answer 111

Moderately strong analgesic with low potential for abuse, resp depression
Works through combo of opioid and nonopioid mechanisms

Question 112

MOA tramadol

Answer 112

Analog of codeine that works with weak agonist activity at mu receptors, ut mostly by blocking norepi and serotonin reuptake and thereby activating monoaminergic spinal inhibition of pain.
Naloxone only partially blocks effect

Question 113

Therapeutic use tramadol

Answer 113

Not as good as morphine, same as codeine plus asa or tylenol

Analgesia at 1 hour after oral dosing, max at 2 hours and continues for 6

Question 114

Sides of tramadol

Answer 114

Serious adverse effects are rare, resp depression is minimal at recommended doses
Sedation, dizziness, headache, dry mouth, constipation
Rarely seizures (probably only an issue in epileptics)

Question 115

Drug interactions tramadol

Answer 115

Sedation with other CNS depressants
HTN crisis if given with MAOI
Serotonin syndrome with SSRI TCA MAOI triptans etc

Question 116

Clonidine (catapres, duraclon)

Answer 116

TX HTN and relief of severe pain