Year 2: pharmacology: of the musculoskeletal system

Question 1

Pharmacology of the musculoskeletal system

the basic area of pharmacology that deals with drug administration, absorption, distribution, tissue binding, metabolism, and excretion.
AKA “what body does to the drug.”

Answer 1

Pharmacokinetics

Question 2

Pharmacology of the musculoskeletal system

analysis of what the drug does to the body, including the mechanism by which the drug exerts its effect

Answer 2

Pharmacodynamics

Question 3

Pharmacology of the musculoskeletal system

These agents provide analgesia for acute severe pain management. The medication stimulates mu, kappa, delta, and sigma receptors within the CNS to prevent pain impulses from reaching their destination. Certain drugs are also used to assist with dependency and withdrawal symptoms.

Answer 3

Opioid Agents (narcotics)

Question 4

Pharmacology of the musculoskeletal system

Roxanol (morphine), Demerol (meperidine), OxyContin (oxycodone), Sublimaze (fentanyl), Paveral (codeine)

Answer 4

Opioid Agents (narcotics)

Question 5

Pharmacology of the musculoskeletal system

Used for treatment of opioid overdose and addiction

Answer 5

Opioid Antagonists

Question 6

Pharmacology of the musculoskeletal system

Opioids — side effects:

Answer 6

• Common: Constipation, nausea and vomiting, sedation, pruritus
• Delirium less frequent
• Risk of respiratory depression
• Risk of abuse and diversion are important considerations

Question 7

Pharmacology of the musculoskeletal system

the most common side effect of opioids agents

Answer 7

Constipation

due to opioids’ slowing peristalsis

Question 8

Pharmacology of the musculoskeletal system

Opioids implications for PT:

Answer 8

A therapist must monitor the patient for potential side effects, especially signs of respiratory depression. Treatment that is otherwise painful should be scheduled approximately two hours after administration to maximize the analgesic benefit. A patient may not accurately report if a particular technique is painful.

Question 9

Pharmacology of the musculoskeletal system

name a few classical 1st generation NSAIDs

Answer 9

Aspirin, Ibuprofen, Voltaren

Question 10

Pharmacology of the musculoskeletal system

these agents provide analgesia and pain relief, produce anti-inflammatory effects, and initiate antipyretic (reduces fever) properties. These drugs promote a reduction of prostaglandin formation that decreases the inflammatory process, decreases uterine contractions, lowers fever, and minimizes impulse formation of pain fibers.

Answer 10

Nonopioid Agents

Question 11

Pharmacology of the musculoskeletal system

Aspirin is for treatment of

Answer 11

Treatment of pain, inflammation, fever, vascular disorders

Question 12

Pharmacology of the musculoskeletal system

Aspirin side effects:

Answer 12

GI problems, hepatotoxicity

Question 13

Pharmacology of the musculoskeletal system

is acetaminophen (Tylenol) an anti-inflammatory agent?

Answer 13

no, most common analgesic/antipyretic

Question 14

Pharmacology of the musculoskeletal system

Non-opioids agents implications for PT

Answer 14

• Patients are at increased risk for masked pain that would allow for movement beyond limitation or false understanding of their level of mobility.
• Complaints of stomach pain should be taken seriously with a subsequent referral to a physician.

Question 15

Pharmacology of the musculoskeletal system

agents used to promote relaxation in muscles that typically present with spasm that is a continuous, tonic contraction. Spasms typically occur secondary to a musculoskeletal or peripheral nerve injury rather than CNS injury

Answer 15

Muscle Relaxant Agents

Question 16

Pharmacology of the musculoskeletal system

Muscle Relaxant Agent side effects

Answer 16

(agent dependent) sedation, drowsiness, dizziness, nausea, vomiting, headache, tolerance, dependence

Question 17

Pharmacology of the musculoskeletal system

Muscle relaxant agents implications for PT:

Answer 17

• Therapists must be aware of potential side effects, however, maximize the potential for relaxation through therapeutic techniques and the use of modalities during treatment.
• Prevention of re-injury through stretching, posture retraining, and education should assist the patient to achieve desired outcomes.

Question 18

Pharmacology of the musculoskeletal system

Examples: Valium (diazepam), Flexeril (cyclobenzaprine), Paraflex (chlorzoxazone), Botulinum Toxin (Botox)

Answer 18

Muscle Relaxant Agents

Question 19

Pharmacology of the musculoskeletal system

Used to treat conditions such as spasmodic torticollis, patients with spasticity, cerebral palsy, neuromuscular scoliosis, and other types of local dystonias. Injected directly into the muscles responsible for dystonia

Answer 19

Botulinum Toxin (Botox)
Prevents the release of Acetylcholine at the neuromuscular junction (chemical denervation)

Question 20

Pharmacology of the musculoskeletal system

This muscle relaxant agent prevents the release of acetylcholine at the neuromuscular junction (chemical denervation)

Answer 20

Botox (Botulinum Toxin)