Abstract
Background
Sodium oxybate (Xyrem®), approved by the European Medicines Agency (EMA) for narcolepsy with cataplexy, is only available through risk mitigation programs due to potential adverse effects including respiratory and central nervous system depression, neuropsychiatric events, and misuse.
Objective
We report findings from a survey evaluating effectiveness of the European Union Xyrem® Risk Management Plan (RMP).
Patients and Methods
A cross-sectional, online, multiple-choice survey was distributed to randomly selected healthcare professionals (HCPs) from six European countries (April 2016–May 2018). Eligibility criteria: current/potential Xyrem® prescriber and/or sleep disorder specialist; contact information available; on the Xyrem® RMP educational materials mailing list. Primary outcome: proportion of respondents answering each question correctly (< 50% responses correct = unsatisfactory comprehension, 50% to < 70% = satisfactory, ≥ 70% = excellent), with precision assessed using 95% confidence intervals (CIs).
Results
Of the 709 HCPs contacted, 601 did not agree to take part, 108 were screened with 35/108 eligible for inclusion; 31 HCPs completed the survey. Of the 31 respondents, 29 (93.5%; 95% CI 84.4–100.0) reported receiving Xyrem® safety information, commonly from a sales representative, EMA Summary of Product Characteristics (SmPC), or educational meeting; only 9/31 (31.0%; 14.3–50.0) recalled receiving mailed educational materials. The number of HCPs answering dosing-related questions correctly ranged from 24/31 to 31/31. All Xyrem® contraindications were correctly identified by 26/31 (83.9%; 70.0–96.7) respondents. All respondents ‘always’ or ‘sometimes’ completed SmPC recommended activities upon treatment initiation. The majority indicated signs of abuses/misuse/diversion (23/31; 74.2%; 58.6–88.0) and criminal use (23/31; 74.2%; 59.4–89.3) should be monitored at follow-up.
Conclusions
These data demonstrate the importance of providing a range of educational materials. However, the low sample size limits interpretation; increased HCP engagement would improve understanding of how best to develop educational materials.
European Post-Authorization Study (PAS) register number
EUPAS15024.
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Prescribers participating in the study had excellent knowledge of Xyrem® use for narcolepsy with cataplexy. |
Educational programs should include a range of interventions of varying format; face-to-face educational interventions may be more effective than written guidance. |
Greater engagement from healthcare professionals is needed to improve educational interventions. |
1 Introduction
Narcolepsy with cataplexy affects around 0.02% of adults, both globally and in Europe [1, 2]. Narcolepsy is a chronic neurological disorder characterized by daytime sleepiness that can be associated with symptoms of sleep paralysis, hallucinations, and frequent movement and awakening during sleep [3]. Cataplexy involves the sudden loss of muscle tone triggered by emotions [1, 4]. The disorder commonly has pediatric onset, but is often not diagnosed until adulthood [5, 6]. Persisting throughout a patient’s lifetime, this disorder can considerably affect education, employment, and personal life, in addition to increasing the risk of driving-related accidents [7,8,9,10,11].
There is currently no cure, and patients are advised to implement behavioral modifications alongside lifelong pharmacological management [12, 13]. Although a range of pharmacologic therapies are available for the symptomatic treatment of excessive daytime sleepiness [13], only two treatments, sodium oxybate and pitolisant hydrochloride, are approved by the European Medicines Agency (EMA) for the treatment of narcolepsy with cataplexy in adults [14, 15]. During safety evaluation, several ‘important identified risks’ have been associated with sodium oxybate treatment, including respiratory and CNS depression, and neuropsychiatric events such as depression and suicidality [14, 16]. Due to depression of the CNS, and the potential for abuse and misuse, sodium oxybate, marketed as Xyrem®, is only available through risk evaluation mitigation programs, and patients usually receive extensive education on usage [16, 17].
As part of the Xyrem® European Union (EU) Risk Management Plan (RMP), a number of risk management measures have been implemented in the EU, including an updated EMA Summary of Product Characteristics (SmPC), and a program at the point of patient care to educate healthcare professionals (HCPs) about the posology of Xyrem® and the important serious risks associated with treatment. The educational components of this RMP include a checklist for HCPs to use in clinical practice, a ‘frequently asked questions’ patient information sheet, a How to Take Xyrem® brochure and a patient alert card (Supplementary Figs. 1–4, see electronic supplementary material [ESM]).
Here, we report findings from a survey of HCPs that was carried out to evaluate the effectiveness of these risk management measures. The objectives were to assess prescribers’ awareness of the educational materials, assess whether prescribers self-reported their behavior/practices with respect to minimizing the important identified risks, and to assess prescribers’ knowledge of the posology of Xyrem®.
2 Material and Methods
2.1 Study Design and Setting
A cross-sectional, online survey was designed to evaluate prescribers’ understanding of the appropriate use and significant risks of Xyrem®. HCPs were selected from a list of prescribers from Belgium, Germany, Italy, Spain, Sweden, and the United Kingdom (UK). These countries were pre-selected to include various population sizes and healthcare systems. After removing duplicate names from the lists for each selected country, names were assigned a random number and the lists re-ordered based on number assignment. A sample of names from the randomized list in each country was then selected for recruitment. An additional sample was selected during the recruitment and data collection period to increase the number of participants. Ethics approval was sought and granted as required by the individual countries.
Data collection took place between 1 April 2016 and 1 May 2018; the length of time between latest distribution of education materials and data collection was variable, ranging from ~ 2 years (Belgium) to ~ 2 months (Spain) (Supplementary Table 1, see ESM). HCPs were contacted through a combination of phone calls and email invitations, depending on HCP preference and available contact details. A reminder email was sent, or a follow-up call made, within 3 weeks of the first invitations if no response was received. All HCP outreach, including invitations to take part, the survey, and any reminder letters, were provided in the language of the local country. Each invitation included a unique code, which was deactivated after use to ensure that the invitation was used only once. The electronic data capture system for data collection encrypted all identifiable information; respondent identifiers were stored separately from the survey responses. All participants who completed the survey received a thank you note and a small payment.
2.2 Study Participants
Survey participation was voluntary, and the survey began with a question indicating the HCP’s agreement to participate in the survey. HCPs eligible for inclusion were either currently prescribing Xyrem®, had the potential to prescribe Xyrem®, and/or were sleep disorder specialists with available contact information. Survey participants must also have been included in the Xyrem® RMP educational materials mailing list.
HCPs were not eligible to take the survey if they met any of the following criteria: currently an employee, or their immediate family member was an employee, of the Xyrem® manufacturer, United Bioscience Corporation (advisor on survey design), Luto (Leeds University Testing Organisation; survey administrator), the EMA, or the National Competent Authority.
2.3 Survey Structure, Outcomes and Analysis
The survey was composed of 18 multiple-choice and closed-ended questions; no open-ended questions were included (Supplementary Table 2, see ESM). Questions were formatted to avoid having the same affirmative answer for all desired responses and multiple-choice questions included distractor or intentionally incorrect response options. To minimize bias, questions were programmed to ensure that they were asked in an appropriate sequence. Respondents could not return to a previously answered question and could not skip ahead; to complete the survey, all questions had to be answered. To further minimize bias, lists of response options were presented in a randomized order.
The primary outcome was the proportion of participants who returned a completed survey giving a correct response for each individual question, consistent with the Xyrem® SmPC. Point estimates for the proportion of respondents giving correct answers, and the associated 95% confidence intervals (CIs), were calculated for each question. A rate of correct responses of less than 50% was considered unsatisfactory comprehension, a rate of at least 50% but less than 70% was considered satisfactory, and a rate of 70% or more was considered excellent. HCP demographic information was collected at the end of the survey to further characterize the respondent population in addition to those who chose not to participate. Data were stratified by country and medical specialty (two recruitment routes were used in Germany; these were combined for subgroup analysis by country).
Quality checks were performed on the raw data to confirm that answers were being recorded for all questions as expected, the survey was working correctly, and all respondents were eligible for inclusion.
2.4 Statistical Analysis
The survey was designed with the aim of reaching 200 Xyrem® prescribers across all six countries combined, although strict power requirements were not specified in the protocol. The number of HCPs within each country who were initially contacted was proportional to the population size: Germany, 30%; UK, 23%; Italy, 22%; Spain, 17%; Belgium, 4%; Sweden, 4%.
The precision of the level of understanding estimates was assessed using 95% CIs calculated for the sample size, with lower sample sizes accompanied by wider 95% CIs (Supplementary Table 3, see ESM). Missing data were accounted for using either valid percentages or classification as ‘other’ for the missing question, and the individual was included for all analyses.
3 Results
3.1 Survey Participants
Of the 709 HCPs who were contacted, 601 did not agree to take part (due to reasons including unavailability and inability to obtain employer permission) or did not respond; 108 HCPs who agreed to take part were sent a survey, 35 of whom were eligible for inclusion. Of these, 31 HCPs completed the survey (Fig. 1). Around two thirds of respondents were male, and 44.8% had spent more than 20 years working in medical practice. The most common medical specialties were sleep specialists and neurologists (Table 1). The majority of respondents (29.0%) were from Germany, with the least (6.5%) from the UK (Table 1); this did not reflect the proportions of HCPs from different countries initially contacted (Fig. 1).
3.2 Prescriber Knowledge of Correct Dosing and Contraindications
Overall, the level of knowledge of the respondents with regards to dosing as per the EMA SmPC was considered excellent: all respondents knew that the second dose should be taken no sooner than 2.5 h and no later than 4 h after the first dose, 30/31 (96.8%; 95% CI 89.7–100.0) recognized that the starting dose of Xyrem® should not be divided into four equal parts, 29/31 (93.5%; 95% CI 83.9–100.0) were aware of the recommended time interval between dose increments and titration, 27/31 (87.1%; 95% CI 74.2–96.9) were aware that single doses of 4.5 g Xyrem® should not be given unless the patient has been titrated previously to that dose, and 28/31 (90.3%; 95% CI 78.1–100.0) respondents understood that patients should not be instructed to take Xyrem® before beginning their daily activities in the morning. Additionally, 25/31 (80.6%; 95% CI 65.6–93.3) knew the recommended starting dose of Xyrem®, and 24/31 (77.4%; 95% CI 60.7–91.4) correctly identified the statement “if a patient discontinues Xyrem® for more than 14 consecutive days, titration should be started from the highest previous dose taken” as false.
The majority (26/31; 83.9%; 95% CI 70.0–96.7) of respondents correctly identified all of the contraindications for prescribing Xyrem®, and the number of HCPs who knew which patient characteristics should be evaluated before prescribing Xyrem® was 30/31 for history of depression and/or suicide attempt (96.8%; 95% CI 89.7–100.0), 28/31 for underlying respiratory disorder (90.3%; 95% CI 78.1–100.0), 27/31 for history of/potential for drug abuse (87.1%; 95% CI 74.1–97.0) and 25/31 for history of epileptic seizures (80.6%; 95% CI 65.4–93.5). Additionally, 24/31 (77.4%; 95% CI 61.5–90.9) respondents identified correctly that patients should be counselled not to drive or operate machinery for at least 6 h after taking Xyrem® and 24/31 (77.4%; 95% CI 61.3–90.9) correctly identified the medical conditions for which a dietary recommendation to reduce sodium intake should be made.
A high proportion of respondents knew that Xyrem® should not be used in combination with medications that can cause drowsiness (26/31; 83.9%; 95% CI 71.0–96.7), CNS depression (28/31; 90.3%; 95% CI 78.1–100.0), or respiratory depression (28/31; 90.3%; 95% CI 78.8–100.0). However, 18/31 (58.1%; 95% CI 38.7–75.7) incorrectly identified ability to stay awake after a meal as a patient characteristic to evaluate, and 17/31 (54.8%; 95% CI 36.7–71.9) incorrectly stated that Xyrem® should not be used in combination with medications that can cause increased appetite. Furthermore, only 10/31 (32.3%; 95% CI 17.2–48.5) had knowledge of the correct body mass index (BMI) threshold at which patients should be closely monitored due to higher risk of sleep apnea (> 40 kg/m2); the majority (14/31; 45.2%; 95% CI 29.0–63.3) of respondents selected > 30 kg/m2 in answer to this question.
3.3 Prescriber Awareness of Risk Minimization Checks for Patients Taking Xyrem®
Overall, 8/31 respondents could not recall receiving a Xyrem® Healthcare Provider Checklist, and five respondents indicated that they had not used the checklist in the past 12 months; only 18 answered that they ‘always’ or ‘sometimes’ used the checklist (Table 2). Generally, respondents indicated that patients should be reviewed for factors that could influence Xyrem® treatment such as concomitant medications, BMI, and additional risks of respiratory depression prior to treatment initiation (Fig. 2a). The majority of respondents indicated that signs of abuses, misuse or diversion, and signs of criminal use, should be monitored at a follow-up visit following treatment initiation (Fig. 2a).
All respondents ‘always’ or ‘sometimes’ completed the activities that are recommended upon treatment initiation with their patients; the majority of respondents indicated ‘always’ (Fig. 2b).
3.4 Receipt of Information on the Safety Profile and Safe Use of Xyrem®
Of the 31 respondents, 29 had received information that provided guidance on the safety profile and safe use of Xyrem® (Table 3). Most commonly, this information had been provided by Xyrem® sales representatives (13/31), the SmPC (11/31), or a manufacturer-sponsored educational meeting (10/31) (Table 3).
4 Discussion
This study used a cross-sectional, online survey to evaluate the effectiveness of the risk management measures being implemented as part of the EU RMP for Xyrem®. Overall, the majority of questions were correctly answered by over 70% of respondents. Knowledge of the SmPC was only considered unsatisfactory for one item, regarding the BMI at which patients should be monitored most closely. However, the results indicate that HCPs may be taking more conservative, precautionary measures in practice.
Although 709 HCPs were initially contacted, only 108 were screened for inclusion; 601 HCPs contacted either did not agree to take part or did not respond to the invitation. Subsequently, the survey was only completed by 31 HCPs. Therefore, caution should be taken when interpreting these data due to the small sample size, which limits the extent to which findings can be generalized to the wider population of Xyrem® prescribers. However, some initial trends can be observed from these data.
Although all HCPs selected for inclusion in the survey had been sent the RMP educational materials, only 7 of the 31 respondents reported that they had ‘Always’ used the Xyrem® Healthcare Provider Checklist when prescribing in the past 12 months. Use of the checklist is not mandatory, so it is possible that use varies according to HCP experience or HCP opinion of the checklist. Exploration of this in future studies would allow the checklist to be optimized according to HCP preference, and instructions for use improved.
Only 9 of the 31 respondents recalled having received mailed educational materials regarding product safety. In contrast, 29 of the 31 respondents indicated that they had received guidance on the safety profile and safe use of Xyrem®, most commonly via a sales representative of the manufacturer, the SmPC, or during attendance at a manufacturer-sponsored educational meeting. In some cases, there was a delay of 1–2 years between latest distribution of the educational materials and the start of data collection, which may explain the low numbers who recalled receiving the mailed materials. Alternatively, it could be that HCPs may be more likely to engage with and recall information given during a face-to-face, interactive intervention, compared with the simple provision of guidelines and checklists. A systematic literature review (SLR) evaluating the effectiveness of educational interventions in the improvement of antibiotic prescribing practices reported similar findings [18]. However, variability in the impact and outcome of interventions has been reported between studies, dependent on factors including the condition being treated and circumstances of treatment [19, 20].
The collection of data of this kind is a regulatory requirement to understand the effectiveness of risk management measures and educational interventions. However, the low response rate here not only limits interpretation of these results, but also prevents the conduct of more in-depth analysis, including subgroup analysis of any differences between countries and medical specialties. The low response rate could be due to many of the contacted HCPs having limited time to complete a survey, or hospital requirements for contracts and other paperwork to be in place prior to participation. Furthermore, the 709 HCPs contacted included any physician able to write a prescription for Xyrem®, not only those who routinely treat patients with narcolepsy with cataplexy; this potentially resulted in reduced interest in the survey amongst those contacted. As the public availability of data of this kind will be of increasing importance in the further development of educational materials, improving HCP engagement should be considered for future research.
Alongside the small sample size, a further limitation of this survey is its voluntary nature; although the sample of HCPs invited to participate was randomly selected, the survey respondents who took part were self-selected. Therefore, the results are likely to have a positive bias; for example, those who regularly refer to the risk management materials could be most likely to respond. Additionally, several of the questionnaire items were related, meaning respondents who answered one question correctly would be expected to answer other, related questions correctly.
The survey methodology employed here could have been improved through partnering with a specialist scientific society to improve HCP engagement or undertaking the survey in a controlled setting. However, these methods would present practical considerations requiring additional time and funding.
This survey of Xyrem® prescribers indicates that the provision of a wide range of educational sources from which HCPs can seek guidance may be important, and that HCPs in general had engaged with the educational materials and guidance received. However, despite the survey being a regulatory requirement and the large number of HCPs initially contacted, there were difficulties engaging HCPs with the study. Increased engagement of HCPs with research of this kind would allow improved understanding of how best to support HCPs from different geographies or medical specialties.
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Acknowledgements
The authors acknowledge Linda Feighery, Ph.D. CMPP, UCB Pharma Ltd., Slough, UK, for publication coordination and Amelia Frizell-Armitage, Ph.D., and Debbie Nixon, DPhil, from Costello Medical, Cambridge, UK, for medical writing and editorial assistance in preparing this manuscript for publication, based on the authors’ input and direction.
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Alex Iranzo: Consulting fees and other honoraria from UCB Pharma; Pedro Serralheiro, Jan-Christof Schuller, Anne-Françoise Schlit: Employees of UCB Pharma; Jürgen W.G. Bentz: Employee and shareholder of UCB Pharma.
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Substantial contributions to study conception and design: AI, PS, J-CS, A-FS, and JWGB; contributions to analysis and interpretation of the data: AI, PS, J-CS, A-FS, and JWGB; drafting the article or revising it critically for important intellectual content: AI, PS, J-CS, A-FS, and JWGB; final approval of the version of the article to be published: AI, PS, J-CS, A-FS, and JWGB.
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Iranzo, A., Serralheiro, P., Schuller, JC. et al. Evaluation of the Effectiveness of the Risk Minimization Measures of Sodium Oxybate in the European Union. Drugs - Real World Outcomes 7, 307–315 (2020). https://doi.org/10.1007/s40801-020-00212-9
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DOI: https://doi.org/10.1007/s40801-020-00212-9