1. Drugs For the Control of Pain

2. Tri-Cyclic Antidepressant Atypical Antipsychotics
OVERVIEW:
Neuro System
Drugs
Tri-Cyclic Antidepressant
escitalopram (Lexapro)
Antidepressant /
Anxiolytic
MAOIs
Benzodiazepines
lorazepam (Ativan)
diazepam (Valium)
GABA Antagonist
zolpidem (Ambien) A
phenytoin (Dilantin)
valproic acid (Depakote)
Phenytoin-Like
Drugs
Succinimides
ethosuximide (Zarontin)
Barbiturates
phenobarbital (Luminal)
Phenothiazines
chlorpromazine (Thorazine)
Non-Phenothiazines
halperidol (Haldol)
Opioids
morphine (Infumorph)
Atypical Antipsychotics
risperidone (Risperdal)
Salicylates
aspirin (ASA)
NSAIDs
ibuprofen (Motrin)
Non-Opioid
acetaminophen (Tylenol)
Central Acting
tramadol (Ultram)
ergotamine (Cafergot)
Sumatriptan (Imitrex)
Anti-Migraine
Opioid Antagonists
naloxone (Narcan)

3. Pain Assessment Subjective experience for clients
Numerical scales and surveys assist in assessment.
Effective pharmacotherapy depends on
Assessment of degree of pain
Determining underlying disorders 3

4. Acute Pain
Intense
Defined period of time 4

5. Chronic Pain Over six months’ duration
Interferes with daily activities 5

6. Nociceptive Pain Due to injury to tissues Sharp, localized
Dull, throbbing, aching 6

7. Neuropathic Pain
Due to injury to nerves
Burning, shooting, numbing 7

8. Pain Transmission Nociceptor stimulation
Spinal cord receives pain impulse through
∂ fibers – believed to signal sharp, well-defined pain
C fibers – believed to conduct dull, poorly localized pain 8

9. Endogenous Opioids
May modify sensory information, interrupting pain transmission
Endorphins, dynorphins, ekaphalins 9

10. Interruption of Pain Transmission
Several target areas
Peripheral level
CNS level
Pharmacological
Nonpharmacological 10

11. Nonpharmacologic Techniques for Pain Management
Used alone or in conjunction with pharmacotherapy
May allow for lower doses and possibly fewer drug-related adverse effects 11

12. Nonpharmacological Therapies
Acupuncture
Biofeedback
Massage; therapeutic or physical touch
Heat or cold
Meditation or prayer
Relaxation
Art or music therapy
Chiropractic manipulation
Hypnosis
TENS
Energy therapies such a Reiki and Qi gong 12

13. Treatment for Intractable Cancer Pain
Radiation or chemotherapy
Relieving nerve stimulation
Surgery
Nerve block 13

14. Opioids
A natural or synthetic morphine-like substance responsible for reducing moderate to severe pain 14

15. Opioid Receptors Receptors: mu, kappa, sigma, delta, epsilon
For pain management mu and kappa receptors are most important
Opioid agonist drugs: stimulate receptors
Opioid antagonist drugs: block receptors 15

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17. Figure 18.2 Opioid receptors17

18. Opioid Antagonists Block opioid activity
Compete for opioid receptor
Reverse symptoms of addiction, toxicity, and overdose
Naxalone (Narcan) may be used to reverse respiratory depression and other acute symptoms
Also used to diagnose overdose 18

19. Opioid Dependence
Potential to cause physical and psychologic dependence
Patient-controlled analgesia (PCA)
Combinations with nonnarcotic analgesics 19

20. Treatment for Opioid Dependence
Switch from IV and inhalation forms to methadone, the oral form
Methadone maintenance
Does not cure but avoids withdrawal symptoms
Treatment may continue for many months and years 20

21. Newer Treatment Early treatment: buprenorphine (Subutex)
Mixed opioid agonist-antagonist
Sublingual route
Later maintenance: Suboxone 21

22. Role of Nurse Careful monitoring of client’s condition
Providing education
Obtaining medical history
Obtaining list of allergies
Assessing client’s pain level
Obtaining history of medications and alcohol and CNS-depressant use 22

23. Opioid Therapy Assess potential for opioid dependency
Have narcotic antagonists available to reverse negative effects
Assist with activity
Monitor urine output for retention
Monitor client’s bowel habits for constipation 23

24. Opioid Antagonist Therapy
Continue careful monitoring of client’s condition
Especially respiratory status
Have resuscitative equipment available 24

25. Nonopioid Analgesics
Careful monitoring of client’s condition and providing education is necessary
Thorough assessment for hypersensitivity, bleeding disorders
Through assessment for gastric ulcers, severe renal/hepatic disease, pregnancy 25

26. Nonopioid Analgesics (continued)
Obtain laboratory tests on renal and liver function
Pain assessment
Monitor for side effects 26

27. Opioid (Narcotic) Analgesic
Prototype drug: Opioid agonists (morphine)
Mechanism of action: interacts with mu and kappa receptor sites
Primary use: for analgesia and anesthesia
Adverse effects: respiratory depression, sedation, nausea, and vomiting 27

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29. Table 18.2 (continued) Opiods for Pain Management29

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31. Morphine Animation 31

32. Opioid Antagonists Prototype drug: naloxone (Narcan)
Mechanism of action: interact with receptors
Primary use: to reverse respiratory depression and other acute symptoms of opioid addiction, toxicity, overdose 32

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34. Opioids with Mixed Agonist-Antagonist Activity
Example: Talwin
Stimulate opioid receptor, thus causing analgesia
Withdrawal symptoms and side effects not as intense as those of opioid agonists 34

35. Salicylates May increase action of oral hypoglycemic agents
Prototype drug: aspirin (ASA)
Mechanism of action: as anticoagulant, antipyretic, anti-inflammatory, and analgesic
Adverse effects: with high doses may cause GI distress and bleeding
May increase action of oral hypoglycemic agents 35

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37. Nonsteroidal Anti-inflammatory Drugs (NSAIDs)
Prototype drug: ibuprofen (Motrin)
Mechanism of action: to inhibit cyclooxygenase and prevent formation of prostaglandins
Primary use: for mild or moderate pain and to reduce inflammation
Adverse effects: GI upset, acute renal failure 37

38. Selective Cox-2 Inhibitors
Prototype drug: celecoxib (Celebrex)
Mechanism of action: is similar to the NSAIDs
Primary use: to relieve pain, fever, inflammation
Adverse effects: mild and related to GI system 38

39. Nonopioid Analgesics Prototype drug: acetaminophen (Tylenol)
Mechanism of action: to treat fever: at the level of the hypothalamus and causes dilation of peripheral blood vessels enabling sweating and dissipation of heat
Primary use: treatment of fever and to relieve pain
Adverse effects: uncommon with therapeutic doses 39

40. Acetaminophen Animation
Click here to view an animation on the topic of acetaminophen. 40

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42. Table 18.3 (continued) Nonopioid Analgesics42

43. Centrally Acting Agents
Prototype drug: tramadol (Ultram)
Mechanism of action: has weak opioid activity
Primary use: as centrally acting analgesic
Adverse effects can include: CNS, GI, CV and dermatologic effects 43

44. Ergot Alkaloids Mechanism of action: to promote vasoconstriction
Primary use: to terminate ongoing migraines
Adverse effects: GI upset, weakness in the legs, myalgia, numbness and tingling in fingers and toes, angina-like pain, tachycardia 44

45. Triptans Prototype drug: sumatriptan (Imitrex)
Mechanism of action: to act as serotonin agonists, constricting certain intracranial vessels
Primary use: to abort migraines with or without auras
Adverse effects: GI upset 45

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47. Table 18.4 (continued) Antimigraine Drugs47

48. 48

49. Opioid Agonists
Mechanism of action: to interact with specific receptors
Primary use: to relieve moderate to severe pain; some used for anesthesia
Examples: OxyContin, Percocet 49

50. Opiod Antangonists Blockers of opioid activity
Used to reverse symptoms of opioid addiction, toxicity, overdose
Examples: Revex, Narcan, Trexan 50

51. Nonopioid Analgesics Used for fever, inflammation, and analgesia
Used for mild or moderate pain associated with inflammation
Examples: Celebrex, Cataflam, Dolobid, Lodine, Nalfon 51

52. Antimigraine Agents Triptans Ergot alkaloids
Serotonin agonists
Act by constricting certain intracranial vessels
Ergot alkaloids
Act as vasoconstrictors
Terminate ongoing migraines
Migranal, Axert, Relpax, Frova 52

53. Review Questions

54. NCLEX-RN Review Question 1
The nurse teaches the patient relaxation techniques and guided imagery as an adjunct to medication for treatment of pain. The nurse explains that the major benefit of these techniques is that they:
Are less costly
Allow lower doses of drugs with fewer side effects
Can be used at home
Do not require self-injection 54

55. NCLEX-RN Review Question 1 – Answer
Are less costly
Allow lower doses of drugs with fewer side effects
Can be used at home
Do not require self-injection 55

56. NCLEX-RN Review Question 1 – Rationale
Rationale: When used concurrently with medication, nonpharmacologic techniques may allow for lower doses and possibly fewer drug-related adverse effects. Relaxation techniques and imagery may also be used in the acute care setting. 56

57. NCLEX-RN Review Question 2
The nurse recognizes that opioid analgesics exert their action by interacting with a variety of opioid receptors. Drugs such as morphine act by:
Activating kappa and blocking mu receptors
Inhibiting mu and kappa receptors
Activating mu and kappa receptors
Blocking sigma and delta receptors 57

58. NCLEX-RN Review Question 2 – Answer
Activating kappa and blocking mu receptors
Inhibiting mu and kappa receptors
Activating mu and kappa receptors
Blocking sigma and delta receptors 58

59. NCLEX-RN Review Question 2 – Rationale
Rationale: Some opioid agonists, such as morphine, activate both mu and kappa receptors. 59

60. NCLEX-RN Review Question 3
A patient admitted with hepatitis B is prescribed Vicodin 2 tablets for pain. The appropriate nursing action is to:
Administer the drug as ordered
Administer 1 tablet only
Recheck the order with the health care provider
Hold the drug until the health care provider arrives 60

61. NCLEX-RN Review Question 3 – Answer
Administer the drug as ordered
Administer 1 tablet only
Recheck the order with the health care provider
Hold the drug until the health care provider arrives 61

62. NCLEX-RN Review Question 3 – Rationale
Rationale: Vicodin is a combination drug of hydrocodone and acetaminophen. Acetaminophen can be hepatotoxic, and this patient has hepatitis B, a chronic liver disorder. 62

63. NCLEX-RN Review Question 5
Nursing interventions for a patient receiving opioid analgesics over an extended period should include:
Referring the patient to a drug treatment center
Encouraging increased fluids and fiber in the diet
Monitoring for GI bleeding
Teaching the patient to self-assess blood pressure 63

64. NCLEX-RN Review Question 5 – Answer
Referring the patient to a drug treatment center
Encouraging increased fluids and fiber in the diet
Monitoring for GI bleeding
Teaching the patient to self-assess blood pressure 64

65. NCLEX-RN Review Question 5 – Rationale
Rationale: Opioids suppress intestinal contractility, increase anal sphincter tone, and inhibit fluids into the intestines, which can lead to constipation. 65

66. NCLEX-RN Review Question 6
The most appropriate method to ensure adequate pain relief in the immediate postoperative period from an opioid drug would be to:
Give the drug only when the family members report that the patient is complaining of pain.
Give the drug every time the patient complains of acute pain.
Give the drug as consistently as possible for the first 24 to 48 hours.
Give the drug only when the nurse observes signs and symptoms of pain. 66

67. NCLEX-RN Review Question 6 – Answer
Give the drug only when the family members report that the patient is complaining of pain.
Give the drug every time the patient complains of acute pain.
Give the drug as consistently as possible for the first 24 to 48 hours.
Give the drug only when the nurse observes signs and symptoms of pain. 67

68. NCLEX-RN Review Question 6 – Rationale
Rationale: Opioid pain relievers should be given as consistently as possible, and before the onset of acute pain, in the immediate postoperative period unless the patient’s condition does not allow the consistent dosing (e.g., vital signs do not support regular doses). Giving the drug only when the family members report that the patient is complaining of pain, every time the patient complains of acute pain, or only when the nurse observes signs and symptoms of pain. These methods of drug administration would potentially allow pain to become severe before being adequately treated. Patients or family members may not always report pain or may downplay the severity. Cultural norms may also influence the patient’s way of exhibiting pain. 68

69. Nursing Process

70. Drugs for Control of Pain
Assessment
Carefully monitor client’s condition
Assess vital signs, especially respiratory status
Assess client’s pain level: character, duration, location, intensity of pain
Obtain history of medications, alcohol use 70

71. Drugs for Control of Pain (continued)
Assessment
Obtain medical history and history of migraine headaches
Assess client’s stress levels and coping mechanisms
Monitor for side effects and potential for dependency 71

72. Drugs for Control of Pain (continued)
Nursing diagnosis
Knowledge deficit—condition, therapeutic regimen, side effects
Risk for dependency related to opioid therapy 72

73. Drugs for Control of Pain (continued)
Planning
Goal is to explain proper use of medication
Client to be free of pain without dependency 73

74. Drugs for Control of Pain (continued)
Implementation
Encourage compliance with medication regimen
Provide additional education 74

75. Drugs for Control of Pain (continued)
Evaluation
Client should have pain control with limited side effects, no dependency.
Client verbalizes importance of taking prescribed medications. 75

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