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SPOTLIGHT CASE

Lost in Transitions of Care: Managing an Opioid-Dependent Patient with Frequent Hospitalizations

Tan F, Johl K, Kotova M. Lost in Transitions of Care: Managing an Opioid-Dependent Patient with Frequent Hospitalizations. PSNet [internet]. Rockville (MD): Agency for Healthcare Research and Quality, US Department of Health and Human Services. 2021.

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Tan F, Johl K, Kotova M. Lost in Transitions of Care: Managing an Opioid-Dependent Patient with Frequent Hospitalizations. PSNet [internet]. Rockville (MD): Agency for Healthcare Research and Quality, US Department of Health and Human Services. 2021.

Florence Tan, PharmD, Karnjit Johl, MD and Mariya Kotova, PharmD | September 29, 2021
View more articles from the same authors.
Disclosure of Relevant Financial Relationships: As a provider accredited by the Accreditation Council for Continuing Medical Education (ACCME), the University of California, Davis, Health must ensure balance, independence and objectivity in all its CME activities to promote improvements in health care and not proprietary interests of a commercial interest. Authors, reviewers and others in a position to control the content of this activity are required to disclose relevant financial relationships with commercial interests related to the subject matter of this educational activity. The Accreditation Council for Continuing Medical Education (ACCME) defines a commercial interest as “any entity producing, marketing, re-selling, or distributing health care goods or services consumed by, or used on patients” and relevant financial relationships as “financial relationships in any amount occurring within the past 12 months that create a conflict of interest.

Patrick Romano, MD, MPH; Debra Bakerjian, PhD, APRN, RN; Florence Tan, PharmD; Karnjit Johl, MD; and Mariya Kotova, PharmD for this Spotlight Case and Commentary have disclosed no relevant financial relationships with commercial interests related to this CME activity.

Learning Objectives

  • Identify approaches to facilitate effective communication regarding pain management in transitions of care
  • Recognize limitations of prescription drug monitoring programs (PDMPs)
  • Recognize differences in how oral morphine milligram-equivalents (OME) are calculated and appropriately calculate OME, including specific issues with calculating OME for methadone
  • Avoid common pitfalls in opioid management for opioid-dependent patients with chronic non-cancer pain

The Case

A middle-aged Black woman presented to the Emergency Department (ED) with sickle cell crisis and a history of multiple, long admissions related to her sickle cell disease, including avascular necrosis of the hip. In the previous 365 days, she had spent 199 days hospitalized (54% of the year) at one hospital. The following paragraphs summarize her course over this previous year. Of note, oral morphine milligram-equivalents (OME) in this case are calculated using the institutions’ opioid equianalgesic doses. During these prior hospitalizations, her long-acting opioid requirements ranged from 120 to 300 OME.

Encounter 1

After a several-months-long hospitalization approximately one year ago, the patient was discharged to a skilled nursing facility (SNF) for post-acute care on long-acting oral morphine sulfate extended release (ER) 120 mg twice daily (240 OME). She was released from the SNF after about one month, but on follow-up with her primary care physician about two weeks later, there was uncertainty about her opioid dosing, apparently because of incomplete records from her multiple sites of care. For unclear reasons, the physician did not access the state’s prescription drug monitoring program (PDMP) but instead referred her to clinical pharmacy for medication support. After this consultation, the patient was started on transdermal extended-release buprenorphine 5 mcg/hour (possibly ~11-63 OME).

The tables below show what the pharmacist and prescriber(s) saw, or would have seen, in the PDMP at key transition times. For each controlled substance prescription, the PDMP shows the date filled, the drug name and formulation, the quantity dispensed, and the number of days that quantity would be expected to last according to the instructions given.

Table 1. Patient’s Prescription Drug Monitoring Program (PDMP) entries through SNF stay and subsequent outpatient visits:

Date FilledDrug NameStrengthQuantityDays SupplyPharmacy
Jan 1Morphine Sulfate ER60 mg123SNF
Jan 1Oxycodone15 mg267SNF
Jan 2Morphine Sulfate ER60 mg6015SNF
Jan 9Tramadol50 mg12020SNF
Jan 13Morphine Sulfate ER60 mg6015SNF
Jan 15Tramadol50 mg8414SNF
Feb 22Butrans patch5 mcg/hr428Pharmacy A

Note: all dates have been altered but reflect the actual duration between fill dates

Encounter 2

Shortly after this primary care visit, the patient was readmitted for about two weeks with increased pain. She received oxycodone at 180-240 OME during this hospital stay and was discharged with instructions to take oxycodone 40 mg ER three times daily (180 OME), according to the discharge summary. However, her actual discharge prescription, which was not mentioned on the discharge summary, was for oxycodone/acetaminophen 5/325 mg 1-2 tablets by mouth every 4 hours as needed (45-90 OME), as oxycodone ER needed prior authorization and was not covered by her insurance. Ultimately, the oxycodone ER prescription was never filled.

Encounter 3

The patient was readmitted to the hospital several weeks later for increasing pain and was restarted on her previous inpatient regimen with oxycodone ER at 40 mg three times daily (180 OME). Within several days after admission, her pain was improved, but the pain pharmacy consultant noted that her self-reported home usage was only “possibly 23 OME,” and as a result, they recommended tapering the oxycodone dose by 50% every 3 days. The patient's pain worsened within several days, and therefore her oxycodone ER was titrated back up to 40 mg three times daily, but continuing severe pain led to further up-titration to 60 mg three times daily (270 OME). Her 2-month hospital stay was complicated by severe hip pain due to avascular necrosis, which eventually required total hip arthroplasty. After routine postoperative recovery, she was discharged on oxycodone ER 80 mg three times daily (360 OME); but because this medication was still not covered by her insurance plan, the care team requested the hospital to cover a 30-day supply to avoid delaying discharge.

Table 2. New additions to PDMP since encounter 2 through discharge from encounter 3

Date FilledDrug NameStrengthQuantityDays SupplyPharmacy
Jun 17Oxycodone30 mg305Pharmacy B
Jun 17Oxycontin ER80 mg9030Pharmacy B

Note: all dates have been altered but reflect the actual duration between fill dates

Encounter 4

On follow-up with the primary care physician 4 weeks later, the patient was put back on long-acting oral morphine sulfate ER at 90 mg three times daily (270 OME, in addition to short-acting oxycodone/acetaminophen at 90 OME; see table 3 below) with plans to taper the dose. Prescriptions were sent to her pharmacy for a 7-day supply for 30 mg and 60 mg tablets of morphine sulfate ER with instructions to take one of each, for a total of 90 mg, three times daily. The outpatient pharmacy insisted on clarification of these instructions, so only 30 mg tablets were initially dispensed. Five days later, the 60 mg tablet prescription was filled. In the meantime, the patient’s opioid dose gap was “covered” with oxycodone/acetaminophen.

Table 3. New additions to PDMP since encounter 3 and after follow-up from encounter 4

Date FilledDrug NameStrengthQuantityDays SupplyPharmacy
Jul 5Oxycodone-Acetaminophen10 mg-325 mg427Pharmacy A
Jul 13Oxycodone-Acetaminophen10 mg-325 mg427Pharmacy A
Jul 17Morphine Sulfate ER30 mg217Pharmacy A
Jul 21Oxycodone-Acetaminophen10 mg-325 mg287Pharmacy A
Jul 22Morphine Sulfate ER60 mg217Pharmacy A

Note: all dates have been altered but reflect the actual duration between fill dates

Encounter 5

About 1.5 weeks after the last morphine sulfate ER fill shown in Table 3 above, the patient was readmitted for abdominal pain secondary to sickle cell pain crisis. She was started on morphine sulfate ER 60 mg twice daily (120 OME) but required up-titration to 120 mg twice daily (240 OME). The Pain pharmacy consultant recommended conversion to methadone, so she was discharged with a prescription for methadone 10 mg tablets and directions to take three-quarters of a tablet three times daily (roughly 113-180 OME). The outpatient pharmacy wanted clarification of the prescription, but had difficulties reaching the care team, so the prescription was not filled. Several days later, the pharmacy received a fax request to deactivate the prescription; therefore, the patient never received methadone.

Encounter 6

The patient was re-admitted 2 weeks later with worsening pain. She was placed on morphine sulfate ER 60 mg twice daily (120 OME). Medication reconciliation by a pharmacy technician documented only the delayed fill of morphine sulfate ER 60 mg three times daily on July 22 (180 OME) and missed the fact that her prescribed dose was 270 OME. On discharge, the patient was instructed to continue morphine sulfate ER 60 mg three times daily, but she was only prescribed immediate-release oxycodone for 3 days at 180 OME. They failed to notice in the PDMP that her most recently filled long-acting opioid prescription was for morphine sulfate ER 90 mg three times daily (7-day supply) 2 months prior (see Table 3).

Table 4. New additions to PDMP since encounter 4 and prior to discharge from encounter 6

Date FilledDrug NameStrengthQuantityDays SupplyPharmacy
Jul 31Oxycodone-Acetaminophen10 mg-325 mg5614Pharmacy A
Sep 28Oxycodone15 mg305Pharmacy B

Note: all dates have been altered but reflect the actual duration between fill dates

Three weeks later, the patient was re-admitted for worsening pain.

The Commentary

By Florence Tan, PharmD, Karnjit Johl, MD and Mariya Kotova, PharmD

Evidence is limited and best practices are still evolving about how to use opioids safely and effectively in treating chronic noncancer pain, such as the pain associated with sickle cell disease. In 2016, the Centers for Disease Control & Prevention (CDC) released guidelines for prescribing opioids for chronic pain patients in primary care settings. These guidelines encouraged providers to “prescribe the lowest effective dosage” and recommended that they “avoid increasing opioid doses to ≥90” OME or “carefully justify a decision (to do so) based on individualized assessment of benefits and risks.”1 However, concerns that these guidelines were being interpreted too strictly, leading to acute withdrawal symptoms, serious psychological distress, and even opioid-seeking from illicit sources, led to subsequent publication of guidance to “avoid insisting on opioid tapering or discontinuation when opioid use may be warranted,” and to “avoid misinterpreting cautionary dosage thresholds as mandates for dose reduction.”2 Also in 2019, the Food and Drug Administration warned of "serious harm in patients who are physically dependent on opioid pain medicines suddenly having these medicines discontinued or the dose rapidly decreased... (including) serious withdrawal symptoms, uncontrolled pain, psychological distress, and suicide.”3

For patients with sickle cell disease, the CDC guidelines refer readers to the National Heart Lung and Blood Institute’s “Evidence-based Management of Sickle Cell Disease,” published in 2014, which recommends using long- and short-acting opioids for chronic pain unrelieved by non-opioid therapy.4 Similarly, the American Society of Hematology’s 2020 guidelines for treating sickle cell disease state that long-term opioid therapy should be considered for pain not managed by non-opioid and non-pharmacological modalities. Neither report offers specific dosing guidance; both organizations recommend individualizing therapy based on risks and functional outcomes.5 Both sets of guidelines allude to the necessity for further research on using long-term opioids for managing chronic pain in patients with sickle cell disease, given uncertainty about the risk of overdose and opioid tolerance.

Patients with chronic pain who are taking opioid analgesics daily are often presumed to be opioid tolerant, and therefore at lower risk of overdose, than patients with intermittent acute pain. The FDA defines a patient asopioid tolerantif, for at least 1 week, he or she has been receiving6

  • Oral morphine 60 mg/day or more;
  • Oral oxycodone 30 mg/day or more;
  • Oral hydromorphone 8 mg/day or more;
  • Transdermal fentanyl 25 mcg/hour or more; or
  • Equianalgesic dose of any other opioid.

However, when patients are using high-dose opioids for frequent but severe exacerbations of acute pain, classic definitions of opioid tolerance may be of limited value.

When patients with chronic conditions seek pain relief in multiple different care settings, transitions of care must be carefully managed. The Centers for Medicare & Medicaid Services (CMS) defines a transition of care as the movement of a patient between settings, services, practitioners or levels of care.7 Settings of care may include hospitals, ambulatory primary care practices or specialty care practices, long-term care facilities, home health, and rehabilitation facilities. Safe transitions across settings are facilitated by medication reconciliation, which is a formal process for creating the most complete and accurate pre-transition record of a patient’s medications and comparing this list to the patient’s post-transition record and medication orders. According to the Joint Commission, medication reconciliation should be done at every transition of care. This process is comprised of five steps: (1) develop a list of current medications; (2) develop a list of medications to be prescribed; (3) compare the medications on the two lists; (4) make clinical decisions based on the comparison; and (5) communicate the new list to appropriate caregivers and to the patient.7,8

This case demonstrates the difficulties associated with multiple transitions of care for patients with chronic conditions involving severe pain, such as sickle cell disease, and the importance of adhering to medication reconciliation guidelines. It also highlights the need for multiple safeguards to protect patients from errors in the medication reconciliation process, especially when opioid tolerance and/or dependence exist. As healthcare systems strive to improve outcomes and safety, it is important to focus on the needs of vulnerable patients with challenges that fall outside traditional treatment paradigms. Transitions of care initiatives and teams are taking on increasing responsibility to address these challenges.

Various tools and strategies for improving care and safety for opioid-dependent patients with chronic pain, and factors that contributed to the errors in this case, are described below.

Approaches to Improving Safety

Prescription Drug Monitoring Programs (PDMPs)

A Prescription Drug Monitoring Program is an electronic database to track outpatient controlled substance prescription dispenses.9 PDMP systems may be set up differently and have different rules and regulations surrounding use and reporting, but all PDMPs must report all dispensed controlled substances (C-II through C-V) within a defined period. While a PDMP is a great resource for confirming a patient’s outpatient opioid regimen upon admission to a hospital, it should not be relied upon as a complete history of all the controlled substances a patient has been prescribed or received. PDMPs do not reflect opioid usage while hospitalized, for instance, so these databases may not be as useful when treating patients with frequent hospitalizations, as in this case. The data in PDMPs are state-specific and various settings/organizations in addition to hospitals, such as the Veteran’s Health Administration (VA) and opioid treatment programs, are not required to report to such systems.9,10 In this case, the patient’s multiple, long hospitalizations resulted in a PDMP record that lacked long-acting opioid fills, making the patient appear opioid-naïve when she was actually tolerant of high opioid doses.

One of the benefits of PDMPs is that they help prescribers to identify high-risk or unsafe patterns of controlled substance dispensing. For example, opioid prescriptions from multiple prescribers and multiple pharmacies may suggest "doctor-shopping" or “pharmacy-shopping” to obtain higher doses at shorter intervals than any single prescriber would recommend. Multiple refills for 5-14 days at a time, as seen with this case (Tables 3, 4) suggest that prescriber(s) may not trust the patient or their home situation, but also increase the risk of opioid withdrawal and adversely affect the physician-patient relationship.

Feasible Dosing

Tablet size should be taken into account when prescribing medications for outpatients. For many patients, cutting tablets is a significant inconvenience and even a barrier to use as prescribed. When tablets are scored to enable cutting, they are usually only scored across the middle. Prescribing three-quarters of a tablet, which would be nearly impossible for anyone to cut accurately, should be avoided. In this case, the prescription instructions to take three-quarters of a methadone tablet likely contributed to delay in filling the prescription, as the pharmacist may have sought to have the prescription rewritten to a more feasible dose (e.g., one and a half 5 mg tablets). Prescriber order entry systems with clinical decision support should suggest alternatives that do not involve cutting tablets into portions other than halves.

Address Insurance/Refill Barriers

Medication access in the outpatient setting may be impacted by various insurance barriers such as requirements for prior authorization (PA) or trial of another medication prior to filling the requested prescription (step therapy). Websites of medical insurers often have accessible prescription drug lists that outline the medications covered, quantity or dose limits, and requirements for prescribing medications that are not usually covered. A telephone call from the prescribing clinician to the outpatient pharmacy before hospital discharge, to ensure that prescribed medications are covered by the patient’s insurance, can prevent delays in medication access. In many cases, issues can be resolved by changing from one opioid to another. In this case, the patient’s insurance preferred morphine sulfate ER over oxycodone ER, but prescribers repeatedly prescribed the latter medication instead.

Care teams should ensure their patients have enough supply of medication if the plan is to have them continue the medication(s) after discharge. With the current push to de-prescribe opioids, prescribers might be hesitant to refill opioid prescriptions. It may seem more convenient and safer for hospital-based providers to defer refilling long-acting opioids to the patient’s usual outpatient provider, who may have a longer therapeutic relationship with the patient. However, if the treatment plan is for the patient to continue taking a long-acting opioid after discharge, and the PDMP indicates the patient does not have an adequate supply, failure to offer refills leads to underdosing and increases the risk of readmission and opioid withdrawal.

Clear Communication

In this case, lack of communication in transitions of care from inpatient to outpatient led to delays in filling prescriptions and therefore serious gaps in access to medications. In the prescribing climate created by the current opioid epidemic, pharmacists may request clarifications to ensure medication safety and appropriateness. Although delaying fills while awaiting clarification is within the scope of pharmacist practice, it can adversely affect patient care and possibly result in opioid withdrawal. The challenge of contacting an authorizing provider in a large academic institution, for example, may lead a pharmacist to refuse to fill a prescription if no provider calls back. In this case, dispensing a lower dose of the prescribed medication while awaiting clarification would have been safer than holding the prescription without action.

Other factors contributed to communication breakdowns in this case. First, multiple changes to the patient's long-acting medication regimen led to confusion about dose equivalence, due to differences in OME calculations (explained below). Second, the fact that a long-acting opioid prescription had never been successfully approved and filled made the patient appear relatively opioid-naive in the PDMP.

Utilizing OME Conversions Intelligently

OME can be said to be the language of the pain management world and its accurate use is vital to managing pain in patients with chronic conditions like sickle cell disease. To switch from one opioid to another with the goal of reducing pain and improving function (also known as opioid rotation), providers set up dimensional analysis calculations or ratio proportions using equianalgesic dose tables. However, equianalgesic ratios are not intended for use in converting patients between different opioids and are not fixed—some of the data used to create them came from studies of opioid-naïve patients with acute pain, while other data came from patients with cancer pain. For example, the morphine-to-oxycodone equianalgesic ratio ranges from 1:1 to 1.5:1 to 2:1 based on a recent literature review.11-13 MD Anderson and University of North Carolina Hospitals use a morphine:oxycodone equianalgesic ratio of 30:20, whereas University of Florida Health in Jacksonville uses a 25:20 ratio.14-16

Although the CDC has published conversion factors for calculating morphine milligram-equivalents (MME), this approach is not designed to be used to convert patients from one opioid to another, but rather to identify patients who may benefit from closer monitoring, dose reduction, or prescribing of naloxone to reduce overdose risk.17 Furthermore, the CDC has stated that its opioid guidelines are “intended for primary care physicians treating chronic pain for patients 18 and older. Examples of misapplication include applying the Guideline to patients in active cancer treatment, patients experiencing acute sickle cell crises, or patients experiencing post-surgical pain.”18 Table 5 outlines an example of an equianalgesic table from an opioid calculations textbook, based on the best available evidence and widely used data.19

Table 5. Equianalgesic Table

 Equianalgesic Doses (mg)
DrugParenteralOral
Morphine1025
Codeine100200
Fentanyl0.15NA
HydrocodoneNA25
Hydromorphone25
Meperidine100300
Oxycodone-*20
TapentadolNA100
Tramadol-*120

*Not available in the US
Taken from: McPherson ML. Demystifying Opioid Conversion Calculations. Bethesda, MD: American Society of Health-System; 2019

Given variation in opioid equianalgesic dose tables, and the lack of evidence supporting use of these tables in converting between different opioid analgesics among patients with acute severe pain due to sickle cell disease or active cancer, it is easy to miscalculate or err in other ways when converting from one opioid to another. In this case, the patient’s long-acting opioids were changed multiple times over relatively short periods of time, which created many opportunities to introduce errors or variability in OME calculation.

Here is an example of dimensional analysis using an Equianalgesic Table. In this example, a provider wants to switch a patient from Opioid A to Opioid B:

example_dimensional_analysis

Once the conversion is carried out, clinicians may want to reduce the newly calculated dose by 25 to 50% to account for incomplete cross-tolerance. This is because patients may develop tolerance to opioid A after continued and repeated dosing. Not accounting for incomplete cross tolerance may increase risks for adverse effects.

Using the equianalgesic doses shown in Table 5, here is how a provider would convert a patient’s medication from oxycodone 40 mg orally every 6 hours to oral hydromorphone:

Step 1: Calculate Total Daily Dose (TDD):

Step 1: Calculate Total Daily Dose (TDD):

Step 2: Use equianalgesic table conversion:

Step 2: Use equianalgesic table conversion:

Step 3: Account for cross-tolerance by reducing the TDD by 25%; this step is not always required but should be carried out on a case-by-case basis, as needed:

Step 3

Step 4: Divide doses equally throughout the day based on half-life and duration. Since hydromorphone has a half-life of 2-3 hours and a duration of 3-4 hours, the provider should prescribe a dose every 4 hours:18

Step 4

Step 5: Consider dosage feasibility (if applicable). Oral hydromorphone tablets are available in 2 mg, 4 mg, and 8 mg amounts.20 A dose of 5 mg every 4 hours would require a patient to cut tablets in half. For patient convenience, adjust to 4 mg or 6 mg every 4 hours.

Using Caution with Methadone and Buprenorphine

In some cases, it is appropriate to treat patients with methadone for chronic pain. The value of methadone comes not just from its mu-, kappa-, and delta-opioid receptor agonist effects, but also through NMDA receptor antagonism, which is believed to prevent central sensitization and reduction of opioid tolerance, while providing neuropathic benefit as well. Methadone may be an appropriate agent for chronic pain patients who have not achieved adequate pain control on other opioid regimens and require a long-acting agent. A previous PSNet Spotlight Case highlighted the dangers of methadone in combination with other opioids. Methadone differs from other opioids in several important ways that have implications for patient safety:21

  • Interpatient variability in the drug's absorption, metabolism, and relative analgesic potency necessitates a highly individualized approach to prescribing.
  • Incomplete cross-tolerance between methadone and other opioids makes dosing during opioid conversion complex. A high degree of tolerance to other opioids does not eliminate the possibility of methadone overdose.
  • While methadone's duration of analgesic action for single doses (4-8 hours) approximates that of morphine, the drug's half-life is substantially longer than that of morphine (8-59 hours vs. 1-5 hours).
  • With chronic use, methadone may be retained in the liver and then slowly released, prolonging the duration of action despite low plasma concentrations.
  • Due to the long and variable half-life, full analgesic effects may not be attained until after 5-7 days of use; thus, the drug must be titrated more slowly than other opioids.
  • Methadone's peak respiratory depressant effects typically occur later, and persist longer, than its peak analgesic effects.
  • If methadone is not taken for 3 consecutive days, the patient may lose tolerance to methadone and be at-risk for an overdose if the usual dose is taken.

Before initiating methadone, prescribers should consider whether patient adherence is anticipated, should obtain a baseline electrocardiogram (ECG) to ensure that the QTc interval is not prolonged at baseline, should ensure that no drug-drug interactions are present, and should obtain baseline liver function tests.19 Conversion from other opioid analgesics to methadone is variable and not linear. In this context, “non-linear” means that the higher the total daily dose (TDD) of short-acting opioids, the lower the amount of methadone that is needed to achieve an equianalgesic effect. Therefore, the equianalgesic ratio of OME:methadone may range from 3:1 to 40:1.19 Table 8 shows an example of a conversion table (from the package insert of Dolophine methadone tablets).22

Table 6. Sample Conversion Factor for Methadone (Dolophine®) tablets

Total Daily Baseline Oral Morphine Equivalent doseEstimated Daily Oral Methadone Requirement as Percent of Total Daily Morphine Equivalent Dose
<100 mg20 – 30%
100 – 300 mg10 – 20%
301 – 600 mg8 – 12 %
601 – 1000 mg5 – 10 %
>1000 mg< 5 %

Source: Eli Lilly and Company. Dolophine(methadone hydrochloride) [package insert].U.S. Foodand Drug Administration website. https://www.accessdata.fda.gov/drugsatfda_docs/label/2018/006134s045lbl.pdf.

Buprenorphine is also a complex medication to use for managing chronic pain. It comes in various formulations—sublingual (SL), buccal, transdermal (TD) patch, and extended-release injection—but there is no inter-buprenorphine equianalgesic conversion ratio or guidance for healthcare providers. In 2016, the CDC provided conversion factors for converting buprenorphine to oral morphine, but this information was removed in September 2017. Although there is no widely accepted conversion factor from buprenorphine to OME, the package insert offers recommendations for starting buprenorphine doses based on current OME. The 5 mcg/hr patch is the initial buprenorphine dose for patients who are opioid-naïve or taking less than 30 OME. The patch is not recommended for patients on more than 80 OME per day. The maximum FDA-approved dose is 20 mcg/hour as higher doses may increase risk for QTc prolongation.22-24

Best Practices

In conclusion, several factors contributed to sub-optimal transitions of care in this case. First, pharmacists had difficulty reaching the prescribing providers for necessary clarifications of high-dose prescriptions and infeasible instructions that required cutting tablets into three-quarters. Second, multiple changes to the patient’s long-acting opioid regimen led to confusion about dose equivalence due to the differences in OME calculations. Although equianalgesic tables are an appropriate starting point, best practices include an automatic reduction for safety as well as additional dose adjustments based on patient specific characteristics, followed by dose titrations as necessary. Conversions to methadone or buprenorphine are best implemented by an experienced clinician.25 Third, the fact that a long-acting opioid prescription had never been successfully approved and filled in tandem with prolonged periods of time hospitalized, made the patient appear relatively opioid-naïve in the PDMP. Best practices include routine use of the PDMP prior to any prescribing for controlled substances, maintaining patients in continuous care with their controlled substance prescriber, for patients with high total opioid dosages, collaborate with the patient to taper opioids and/or consider offering naloxone, communicate with others managing the patient and weight patient goals, needs, and risks.26 Fourth, the pharmacy technicians who performed medication reconciliation failed to recognize that lengthy hospitalizations can obscure the actual opioid doses that chronically ill patients are receiving. Best practices for training technicians include didactic and/or simulation training, and performance-based competency assessment.27 Fifth, failure to ensure that prescribed medications were covered by the patient’s insurance led to gaps in medication access, which in turn led to return visits to the ED. A bedside medication discharge delivery service is one practice to improve patient access and understanding of discharge medications which has also been shown to reduce 30-day hospital readmissions.28 Additionally, communication interventions at discharge improved adherence which is an independent factor associated with reduced readmission rates.29 Finally, failure to prescribe enough refills of long-acting opioids when the PDMP showed that the patient would not have enough supply contributed to medication access gaps and put the patient at risk for opioid withdrawal.26

As healthcare systems strive to improve outcomes and safety, it is important to focus on the needs of vulnerable patients with challenges that fall outside traditional treatment paradigms. Chronic, painful conditions such as sickle cell disease are particularly difficult to manage, as multiple transitions of care often occur over relatively short periods of time. Care teams can use the tools and strategies outlined herein to minimize risks for patients who are on chronic opioid therapy and improve patient outcomes.

Take Home Points

  • Use caution when using PDMP data, especially for patients with long and frequent hospitalizations, patients who may receive prescriptions in a different state or within the VA system, or in opioid treatment programs, as the PDMP will not accurately reflect their overall opioid usage.
  • Use caution when calculating or evaluating OME or opioid dose conversions as there is variability in equianalgesic tables amongst institutions due to lack of standardization.
  • Use caution when using CDC’s OME ratios in settings outside their intended use, which was for identifying high-risk prescribing patterns among outpatients. These ratios are not intended for use in converting from one opioid to another.
  • Ensure the patient has adequate supply of long-acting opioids by not only assessing the last fill date and the length of hospitalization, but also by asking the patient.
  • With the push to de-prescribe opioids, many providers try to limit opioid doses or quantities, or defer to the patient’s primary care provider to refill opioid prescription. These practices may lead to underdosing and increase the risk of readmission and opioid withdrawal.
  • Consider available dosages when prescribing tablets and select those that support patient adherence; avoid instructions that require patients to cut tablets into quarters.
  • Ensure medication reconciliation is done thoroughly at every encounter. Medication reconciliation should involve querying all available sources, including medical records, pharmacy records, PDMP data (if applicable), and patients and caregivers.

Florence Tan, PharmD, BCPS, BCGP
Department of Inpatient Pharmacy, General Medicine
UC Davis Health
ftan@ucdavis.edu

Karnjit Johl, MD, FACP
Department of Internal Medicine, Hospital Medicine
UC Davis Health
kkjohl@ucdavis.edu

Mariya Kotova, PharmD
Department of Inpatient Pharmacy, Pain Management & Palliative Care
UC Davis Health
mkotova@ucdavis.edu

References

  1. Dowell D, Haegerich TM, Chou R. CDC Guideline for Prescribing Opioids for Chronic Pain--United States, 2016.JAMA. 2016;315(15):1624-1645.
  2. U.S. Department of Health and Human Services. Guide for Clinicians on the Appropriate Dosage Reduction or Discontinuation of Long-Term Opioid.https://www.hhs.gov/system/files/Dosage_Reduction_Discontinuation.pdf. Accessed August 25, 2021.
  3. U.S. Food and Drug Administration. Drug Safety Communications: FDA identifies harm reported from sudden discontinuation of opioid pain medicines and requires label changes to guide prescribers on gradual, individualized tapering. April 9, 2019.https://www.cms.gov/Medicare/Prescription-Drug-Coverage/PrescriptionDrugCovContra/Downloads/Opioid-Tapering-Discontinuation-2019.pdf. Accessed August 25, 2021
  4. National Heart, Lung, and Blood Institute. Evidence-Based Management of Sickle Cell Disease. Available at: https://www.nhlbi.nih.gov/sites/default/files/media/docs/sickle-cell-disease-report%20020816_0.pdf. Last updated July 11, 2014. Accessed July 25, 2021.
  5. Brandow AM, Carroll CP, Creary S, et al. American Society of Hematology 2020 guidelines for sickle cell disease: management of acute and chronic pain.Blood Adv. 2020;4(12):2656-2701.
  6. Food and Drug Administration (FDA). Extended-release (ER) and long-acting (LA) opioid analgesics Risk Evaluation and Mitigation Strategy (REMS). Available at: https://www.fda.gov/media/83883/download. Last updated June 2015. Accessed July 6, 2021.
  7. The Joint Commission. National Patient Safety Goals® Effective January 2021 for the Hospital Program. Available at: https://www.jointcommission.org/-/media/tjc/documents/standards/national-patient-safety-goals/2021/simplified-2021-hap-npsg-goals-final-11420.pdf. Last updated March 25, 2021. Accessed June 29, 2021.
  8. Barnsteiner JH. Patient Safety and Quality: An Evidence-Based Handbook for Nurses. Chapter 38 Medication Reconciliation. Rockville, MD: Agency for Healthcare Research and Quality (US); 2008. https://www.ncbi.nlm.nih.gov/books/NBK2648/. Accessed June 29, 2021.
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This project was funded under contract number 75Q80119C00004 from the Agency for Healthcare Research and Quality (AHRQ), U.S. Department of Health and Human Services. The authors are solely responsible for this report’s contents, findings, and conclusions, which do not necessarily represent the views of AHRQ. Readers should not interpret any statement in this report as an official position of AHRQ or of the U.S. Department of Health and Human Services. None of the authors has any affiliation or financial involvement that conflicts with the material presented in this report. View AHRQ Disclaimers
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Tan F, Johl K, Kotova M. Lost in Transitions of Care: Managing an Opioid-Dependent Patient with Frequent Hospitalizations. PSNet [internet]. Rockville (MD): Agency for Healthcare Research and Quality, US Department of Health and Human Services. 2021.

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