Despite the drive to standardise clinical practice according to evidence-based guidelines, factors that relate to implementation in routine practice are not well-studied (Reference BauerBauer, 2002). Dissemination of guidelines and simple educational interventions appear to have limited impact. Practice change is more likely where it involves multifaceted approaches that target various resistance points and are supported by resource allocation, regular reminders and monitoring of practice (Reference Dollman, Leblanc and StevensDollman et al, 2005). Moreover, even where change occurs, less is known about sustaining improvements, with evidence indicating that short-term gains are difficult to maintain over time (Reference Caswell, Hoosen and VassilasCaswell et al, 2006).
Although information on the use of psychotropic agents is readily available, prescribing in real-world settings frequently deviates from suggested guidelines and licensing arrangements (Reference Harrington, Lelliott and PatonHarrington et al, 2002; Reference Hodgson and BelgamwarHodgson & Belgamwar, 2006; Reference Spinewine, Swine and DhillonSpinewine et al, 2007). A recent review by the Royal College of Psychiatrists (2007) highlighted the lack of data regarding the frequency of unlicensed prescribing in UK services, but European studies indicate that up to 66% of out-patient antipsychotic prescriptions are for unlicensed indications. In part, this reflects the complexities of real-world clinical practice where patient profiles often differ considerably from those of efficacy studies. Combination strategies, for example, benefit many patients with difficult-to-treat illness but remain insufficiently studied and not included within licensed indications (Reference Karow and LambertKarow & Lambert, 2003). However, other practices are discouraged because of concerns over safety such as increased risk of accidents (Department of Health and Children, 2002) or cardiotoxicity (Reference Reilly, Avis and FerrierReilly et al, 2000).
We have previously investigated factors associated with six aspects of psychotropic prescribing (Reference Meagher and MoranMeagher & Moran, 2003) and studied the impact of a multidisciplinary intervention on practices at 1-year (Reference Moran, Raju and SaundersMoran et al, 2006) and 2-year (Reference Raju and MeagherRaju & Meagher, 2005) follow-up. This work indicated that sub-optimal prescribing practices (e.g. polypharmacy and use of maintenance benzodiazepines) was substantially reduced by an intervention involving clear guidelines for discontinuation, education, provision of alternative non-pharmacological supports (e.g. anxiety management interventions) and regular monitoring of prescribing patterns. We further studied prescribing practices as part of an annual prescribing audit 5 years after the initial intervention to identify the extent to which improvements in prescribing were sustained at 5-year follow-up, the success in reducing individual sub-optimal practices, and factors associated with sustained improvement.
Method
The study was conducted in the St Anne's Community Mental Health Service, which provides a general adult psychiatry service for a catchment area of approximately 50 000 persons in south-east Limerick. We documented six aspects of sub-optimal psychotropic prescribing rated as present (1) or absent (0) to produce a Prescribing Practice Quality (PPQ) score (Box 1), with higher scores reflecting less optimal practice. Previous work identifying determinants of sub-optimal prescribing and the impact of a multidisciplinary intervention on practice has described the PPQ (including item definitions) and the multicomponent intervention in detail (Reference Meagher and MoranMeagher & Moran, 2003; Reference Raju and MeagherRaju & Meagher, 2005; Reference Moran, Raju and SaundersMoran et al, 2006).
In the period since the original intervention there has been continued emphasis on the agreed prescribing protocols, with a brief educational session for each new doctor as part of service induction. In addition, an annual audit allows monitoring of service contacts, ICD-10 diagnoses and prescribing practices within the service, and allows feedback as to prescribing patterns as part of ongoing service review. Two specific aspects of practice were not considered ‘sub-optimal’ for the purposes of this study because they reflected specific agreed practices in the service: the first was targeted polypharmacy with the combination of a serotonin – noradrenaline reuptake inhibitor (either venlafaxine or duloxetine) with mirtazapine for treatment-resistant depressive illness (Reference Meagher, Hannan and LeonardMeagher et al, 2006; Reference Hannon, Hamzah and AkinpeloyeHannon et al, 2007), and the second was short-term use of quetiapine in low doses (25 - 100 mg) as a hypnotic agent.
Box 1. Prescribing Practice Quality (PPQ) items and scoring
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• Polypharmacy (i.e. use of two agents of same class)
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• Receiving thioridazine
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• High-dose antipsychotic use (total dose greater than 1000 mg/day in chlorpromazine equivalents)
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• Maintenance benzodiazepine treatment
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• Maintenance hypnotic treatment
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• Routine use of anticholinergic agent
Scoring: 1 point per item present; range 0-6; higher scores indicate less optimal prescribing.
Statistical analysis was conducted using SPSS version 14 for Windows. The PPQ scores for total populations at each point were compared with Wilcoxon signed ranks testing. Independent t-tests were used to compare age and duration of service attendance. Chi-squared tests were used to compare the frequency of severe mental illness, depot antipsychotic treatment and individual PPQ items between those ever-present in the service and those not.
Results
Table 1 shows the demographic and clinical characteristics of service attenders at initiation of the programme (in 2001), at 1-year follow-up (2002) and at 5-year follow-up (2006). The overall case-load, age, gender balance, duration of service attendance and percentage with severe mental illness were similar over the 5 years. Table 2 shows the frequency of sub-optimal prescribing practices (both overall and individual items) at the three time points. There was a consistent reduction in mean PPQ score for the total population at each assessment point as well as a reduction in the percentage of patients with at least one sub-optimal aspect of their prescribed medications, from almost half in 2001 (46%) to just over a quarter in 2006 (27%).
2001 | 2002 | 2006 | |
---|---|---|---|
Service attenders, n | 505 | 441 | 506 |
Age, years: mean (s.d.) | 41 (14) | 43 (15) | 44 (14) |
Male, % | 49 | 51 | 47 |
Duration of service attendance, years: mean (s.d.) | 6.8 (7.7) | 7.5 (8.4) | 6.2 (7.4) |
Patients with severe mental illness, % | 34 | 42 | 39 |
2001 | 2002 | 2006 | |
---|---|---|---|
Patients with at least one sub-optimal prescribing practice, % | 46 | 38 | 27 |
PPQ score: mean (s.d.) | 0.75 (0.99) | 0.52 (0.90) | 0.33 (0.58) |
Individual aspects of prescribing | |||
High-dose antipsychotic use | 10 | 6 | 0 |
Polypharmacy | 60 | 30 | 19 |
Maintenance use of anticholinergic | 67 | 39 | 31 |
Thioridazine use | 36 | 4 | 0 |
Maintenance benzodiazepine | 78 | 41 | 49 |
Maintenance use of sedative/hypnotic | 106 | 57 | 61 |
Two aspects of prescribing - use of thioridazine, and high-dose antipsychotic treatment - ceased entirely over the course of the study. In contrast, the use of anticholinergic agents and benzodiazepines declined during the initial phase of the study (2001-2) but remained relatively stable between 2002 and 2006, indicating that the initial reduction in use was sustained over the longer period of follow-up. The specific hypnotic agents prescribed did alter, with relatively greater use of zopiclone over time: n=24 (23% of total hypnotic use) in 2001, n=24 (30%) in 2002 and n=30 (49%) in 2006.
A total of 163 patients were clients of the service at all three evaluation points. These ‘ever-present’ patients were older than the general population attending in 2006 (P<0.001), and were more likely to have severe mental illness (66% v. 26%, P<0.001) and to be in receipt of depot antipsychotic treatment (18% v. 3%, P<0.001). The mean PPQ scores for these patients are shown in Table 3. The percentage of patients from this population who had at least one aspect of prescribing that was sub-optimal (i.e. a PPQ score of 1 or more) diminished over time from 46% in 2001 to 38% in 2002 and 33% in 2006. Mean PPQ scores were significantly reduced at 2002 v. 2001 (P<0.001) and at 2006 v. both 2001 (P<0.001) and 2002 (P<0.001).
2001 | 2002 | 2006 | |
---|---|---|---|
PPQ score: mean (s.d.) | 0.86 (1.1) | 0.64 (0.98) | 0.39 (0.60) |
The ever-present population was further subdivided into those who had maintained improved prescribing (n=58) and those who had not (n=105) at 5-year follow-up. A greater likelihood of being in the improved group was associated with higher baseline PPQ score: 0.2 (s.d.=0.5) v. 2.1 (s.d.=0.9), P<0.001. There were trends towards greater likelihood of having improved PPQ scores in those with severe mental illness (P=0.09) and older age (P=0.06). Improved PPQ score was not related to gender, duration of service attendance, treatment with depot antipsychotic medication, frequency of attendance at services within the previous year or receipt of multidisciplinary shared care (i.e. attending at least two members of the multidisciplinary team).
Thirty-nine patients were receiving depot antipsychotic agents at the 2006 review. These patients were significantly older (mean age 55.9 years, s.d.=12.4; P<0.001), had attended the service for longer (mean 15.9 years, s.d.=10.3; P<0.001) and had significantly higher PPQ scores (mean score 0.85, s.d.=0.78; P<0.001) than those not receiving depot antipsychotic medication. This reflected a high rate of anticholinergic use (52%) and concomitant oral antipsychotic use (38%) in this population.
Discussion
We report a 5-year follow-up of an evidence-based prescribing intervention in a real-world setting indicating that improvements in prescribing quality can be maintained over time. Improvements were evident both in the ongoing ‘ever-present’ population as well as the total population attending the service at follow-up, indicating a reduction in sub-optimal practices in both pre-existing cases and where new medication was initiated. These benefits were maintained by minimal formal intervention - an initial education session incorporated into the induction process focusing on policies around sub-optimal practices supported by emphasis of alternative strategies in day-to-day practice (e.g. multidisciplinary team meetings) and regular audit with feedback at an annual service review. Our study indicates that change driven by the collaborative efforts of clinical staff, and therefore sensitive to the demands of everyday practice within that service (including local resource strengths and limitations), produced sustained improvement in practice. Coercive approaches (e.g. mandatory prescribing restrictions) are effective in changing practice (Reference Wagner, Ross-Degnan and GurwitzWagner et al, 2007) but can be associated with increased subsequent polypharmacy, reduced treatment adherence and greater in-patient and emergency service utilisation (Reference Tamblyn, Laprise and HanleyTamblyn et al, 2001; Reference Parks and SurlesParks & Surles, 2004; Reference SoumeraiSoumerai, 2004). We did not find any increase in polypharmacy, and admission rates decreased over the study period, suggesting that in-patient service use and non-compliance-related relapses were not a common consequence. The specific approach to benzodiazepine use in our programme involved patient-controlled dose reduction (Reference Raju and MeagherRaju & Meagher, 2005) emphasising the advantages of collaboration between patients and clinical staff in delivering practice change.
Measuring the longer-term impact of interventions and identifying predictors of change is complicated by factors illustrated in this study. The only identified positive predictor of improved prescribing practice at 5-year follow-up was baseline PPQ score. We previously identified exposure to adjunctive supportive inputs (e.g. anxiety management) and chronicity of sub-optimal prescribing practice as predictors of improved prescribing at 1-year follow-up, but these factors were difficult to measure over more prolonged periods. It is interesting that patients receiving depot antipsychotic medications continued to have less than optimal prescribing despite being previously highlighted for particular attention (Reference Meagher and MoranMeagher & Moran, 2003), reflecting the tendency for use of anticholinergic agents and antipsychotic polypharmacy in this group. In addition, the PPQ was affected by changing practices, with some of the original measures (e.g. use of thioridazine) now extremely uncommon and less useful indicators of prescribing quality. Moreover, even though some aspects of prescribing are enduring indicators (polypharmacy, benzodiazepine use), the specific agents involved changed over time.
Where polypharmacy is driven by emerging evidence of efficacy, or as a means to reduce side-effects (e.g. clozapine augmentation with atypical antipsychotics), it can reflect optimal practice. Moreover, polypharmacy may be driven by demonstrated benefits for individual patients even if efficacy studies are lacking. It may be that optimal patient outcomes require a low frequency of practices that are generally considered sub-optimal but have demonstrable benefits for individual patients. Moreover, clinical practice is sometimes more advanced than standards identified by randomised controlled trials or that use specifically licensed by regulatory bodies. However, it is often the case that in reality much sub-optimal prescribing reflects educational deficits or other constraints such as a lack of access to alternate interventions for disabling problems (Reference Stone, Ohlsen and TaylorStone et al, 2002) and often occurs by default rather than design. This spectrum of prescribing is highlighted in a recent report (Royal College of Psychiatrists, 2007) and ranges from ‘near-label’ prescribing to practices that have little foundation in evidence.
Benzodiazepine use is associated with risk of dependence, daytime sedation, cognitive impairment and falls (American Psychiatric Association, 1990). Although use of this class of drugs is discouraged in prescribing guidelines, it is common in real-world settings and is often resistant to change (Oude Voshaar et al, 2003; Reference Caswell, Hoosen and VassilasCaswell et al, 2006). It is interesting that reduction in use does not necessarily equate with lower subsequent incidence of associated adverse events such as falls (Reference Wagner, Ross-Degnan and GurwitzWagner et al, 2007), emphasising the gap that can exist between clinical activities and presumed benefits in patient outcomes. In our population we noted a gradual increase in use of zopiclone, in keeping with a perception of better tolerability and reduced dependency potential compared with benzodiazepines, but gathering evidence of misuse and dependence potential needs to be noted (Reference Mahomed, Paton and LeeMahomed et al, 2002). Other work suggests low-dose antipsychotics as a relatively benign substitute for benzodiazepines (Reference Hamann, Ruppert and AubyHamann et al, 2003), but emerging evidence of metabolic and cerebrovascular effects is a cause for considerable concern (Reference LiebermanLieberman, 2004; Reference Schneider, Dagerman and InselSchneider et al, 2005) and emphasises the need for careful monitoring where these agents are used ‘off licence’.
Some aspects of prescribing are more difficult to reduce owing to factors such as patient reluctance (Oude Voshaar et al, 2003; Reference Raju and MeagherRaju & Meagher, 2005) as well as perceived clinical benefit. Some have justified long-term benzodiazepine treatment for patients with disabling and treatment-refractory anxiety disorders where benzodiazepine use is associated with enhanced quality of life (Reference Williams and McBrideWilliams & McBride, 1999), but the characteristics of these patients remain unclear and evidence points to over- rather than under-utilisation in current practice. In the case of anticholinergic use, current opinion (World Health Organization, 1990) suggests that approximately 5% of patients receiving typical antipsychotic treatment require maintenance anticholinergic treatment. Consequently, a low level of use is consistent with optimal management of extrapyramidal symptoms. It remains unclear to what extent further reduction in these practices is consistent with optimal outcomes for patients. The need for evidence linking greater guideline adherence with improved patient outcomes is highlighted by Simpson et al (Reference Simpson, Beavis and Leddy2005), who linked strict enforcement of National Institute for Health and Clinical Excellence (NICE) guidelines around cholinesterase inhibitor use to poorer patient outcomes. Other work (e.g. Reference Mortimer, Shepherd and RymerMortimer et al, 2005), using similar parameters of sub-optimal prescribing to those used in our study, has linked greater side-effect burden to less-optimal prescribing that reduced as these practices diminished.
Ultimately a balanced approach to managing prescribing is required. Although some practices are clearly undesirable, others are acceptable for a minority of patients. The desire for greater evidence-based practice needs to recognise the limited capacity of available knowledge to guide many aspects of treatment (especially augmentation and combination therapy) as well as respecting the autonomy and judgement of clinicians and patients in identifying optimal individualised therapeutic plans. As a basic principle, where prescribing deviates from suggested norms, this should reflect targeted pharmacological management, the benefits of which are carefully monitored over time.
Declaration of interest
D.M. has received an unrestricted educational grant from AstraZeneca Pharmaceuticals.
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