Pain can be a distressing symptom at the end of life, and if not appropriately managed, can result in patient suffering and decreased quality of life. Thankfully, most hospice clinicians have experience managing moderate-to-severe pain by utilizing available medications, including opioids, in the setting of uncontrolled pain. Long-acting opioid therapy is often required for patients with persistent pain in the hospice setting to provide sustained periods of relief and reduce the need to take immediate-release formulations every few hours throughout the day. The most used long-acting opioids in the hospice setting are methadone, extended-release morphine, extended-release oxycodone (Oxycontin®, Xtampza®), and transdermal fentanyl. This Pharmacist Corner was created to serve as a resource to hospice administrators and clinicians by providing guidance on the following:
Acknowledge the significantly increased therapy cost of Oxycontin® and Xtampza® without notable differences in efficacy or tolerability.
Describe strategies for transitioning from Oxycontin® or Xtampza® to another equally or more effective long-acting opioid at a significantly lower therapy cost.
LONG-ACTING OPIOIDS COMMONLY USED IN HOSPICE (Dependent upon dose, fill location)
| Opioid | Estimated Monthly Price | Advantages of Use | Equianalgesic Conversion Factor |
|---|---|---|---|
|
Oxycontin |
$300-$2600 | No advantages over alternatives listed | 1.5mg oxy: 1mg morphine |
|
Xtampza® |
$360-$1800 | Abuse-deterrent formulation | 1.5mg oxy: 1mg morphine |
|
Methadone |
$7-$60 | Safe in renal failure, Tabs can be crushed, Available in liquid form, Multiple mechanisms of action, Inexpensive | See table on page 3 |
|
Morphine SR |
$14-$290 | Generally well tolerated, Inexpensive | N/A |
|
Fentanyl Patch |
$60-$500 | Non-oral route of administration | 25mcg/hr:60mg morphine |
COMPARING EFFICACY AND TOLERABILITY OF LONG-ACTING OPIOIDS
Discussions with hospice clinicians regarding the rationale for Oxycontin® or Xtampza® prescribing often result in mention of a patient having a “morphine allergy” or believing the extended-release oxycodone formulation is more effective for their pain. Regarding the allergy claim, it is important to note that morphine and oxycodone are both in the same opioid chemical class, meaning if a patient truly has a morphine allergy, there would be an extremely high likelihood of also having a similar response to oxycodone. If a patient had a negative response to morphine, but not oxycodone, it is likely that they experienced a side effect and not a true allergy. Most opioid side effects are transient, often resolving within a few days of exposure. While each patient is unique and may respond differently, a review of the available medical literature in which oxycodone is directly compared to morphine for management of pain reveals there is often no difference in pain relief or side effect profiles when comparing morphine to oxycodone for management of cancer pain (Annals of Oncology, Cochrane Database Review).
TRANSITIONING FROM EXTENDED-RELEASE OXYCODONE
The table below outlines a 5-step process for transitioning from extended-release oxycodone to an alternative long-acting opioid:
Step 1: Complete a comprehensive pain assessment to determine the status of pain and review the proposed pathophysiology of pain to help guide opioid rotation selection.
Step 2: Calculate the total daily usage of the current opioid. This should include all long-acting and breakthrough opioid doses.
Step 3: Decide which opioid analgesic to transition to and refer to the opioid conversion table adopted by the agency to determine the dose of the new opioid to initiate. Methadone should be strongly considered due to its multiple mechanisms of action, ability to use in renal failure, crushable tablets or oral liquid formulation, and low therapy cost.
Step 4: Individualize the dose based on assessment information gathered in Step 1 and ensure adequate access to breakthrough medication.
Step 5: Determine a monitoring plan to assess the safety, efficacy, and tolerability of the newly initiated opioid regimen and make adjustments to therapy as appropriate.
EXAMPLE CALCULATION
Patient: 69-year-old male with metastatic renal cell carcinoma
Pain Medication Regimen:
Step 1: Determine Total Daily Oral Morphine Equivalent
Step 2: Convert to Methadone Equivalent Using Conversion Factors
| 24 Hour Morphine Usage | Morphine: Methadone Ratio |
|---|---|
| < 60mg | Use opioid-naïve dosing recs |
| 60-200mg AND pt < 65 years | 10:1 |
| > 200mg or pt > 65 years | 20:1 |
Step 3: Determine Starting Methadone Dose and Frequency
Step 4: Determine Starting Time
Step 5: Monitoring and Follow-Up
SUMMARY
Methadone and extended-release morphine are cost-effective alternatives to extended-release oxycodone formulations, with comparable efficacy and side effect profiles but significantly lower therapy costs. Utilizing the five-step opioid rotation process ensures a safe and effective transition to an alternative opioid regimen designed to optimize patient pain management, tolerability, and therapy cost. For questions regarding a patient-specific clinical scenario, please contact BetterRX for a Clinical Pharmacy Consultation.
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