Abstract
Purpose
Medicines regulatory authorities advise that patient information leaflets (PILs) should provide specific advice on what actions to take if one or more doses are missed. We aimed to assess the content in this regard, of PILs and Summaries of Product Characteristics (SmPCs) of prescription only medicines (POMs) marketed in the UK.
Methods
PILs and SmPCs were accessed via the electronic Medicines Compendium. The following terms were used in the advanced search facility: miss(ed), omit(ted), adhere(d), delay(ed), forgot, forget, lapse. Identified documents were screened for instructions on missed doses which were categorised according to level of specificity, and cross-referenced to the National Patient Safety Agency (NPSA) grading of risk of harm from omitted and delayed medicines. Any supporting clinical or pharmacological evidence was identified from SmPCs.
Results
Two thousand two hundred eighty-four documents were identified from 7248 PILs and SmPCs relating to 1501 POMs. Seven hundred eighty-three (52%) POMs had SmPCs or PILs with no instructions on missed doses; 487 POMs (32%) included non-specific advice (e.g. “take as soon as possible”); 138 (9%) provided specific instructions; and 93 (6%) referred patients to seek medical advice. SmPCs for only 13/138 (9%) of those which included specific instructions provided any supporting clinical or pharmacological evidence. Instructions were absent for several medicines where the NPSA assessed that dose omissions may result in significant risk of harm.
Conclusions
Advice on missed doses is generally inadequate. Pharmaceutical companies and regulatory authorities should produce clear and concise instructions on what patients should do if they miss doses, with supporting evidence where necessary.
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Introduction
Medication non-adherence is highly prevalent, impacts on patients’ quality of life and survival, and is costly to manage [1]. Adherence is a complex behaviour, which may be conceptualised in three parts: initiation (which occurs when the patient takes the first dose), implementation (the extent to which a patient’s actual dosing corresponds to the prescribed dosing regimen—from initiation until the last dose), and persistence (the time until the patient stops taking the prescribed medication) [2]. A common concern of patients who variably implement their prescribed medicine is what to do when a regular dose is occasionally delayed or missed [3].
Strict adherence to prescribed medications is important for achieving therapeutic outcomes, particularly for medicines which are less “forgiving”, that is, medicines that are associated with a sudden loss of therapeutic effect when doses are missed [4]. These drugs are typically associated with a short elimination half-life and/or have a rapid offset of action in relation to the dosing interval. Lapses in dosing therefore result in sub-therapeutic plasma concentrations and periods of insufficient pharmacologic activity. The often-held assumption that ≥ 80% doses taken represents adequate adherence is flawed on the basis that drug forgiveness is a function of a drug’s pharmacokinetic and pharmacodynamic properties and is therefore drug-specific [5]. Given that drug forgiveness is highly variable among different treatments, tailored instructions regarding the required action if a dose is delayed or omitted are therefore important [6, 7].
A review of drug labelling in the USA in 2000 found that 58 of the 76 package inserts assessed carried no information on what patients should do if doses are missed. Adequate information was provided in only 8 (11%) of cases [8]. The European Commission guideline on the preparation of Summaries of Product Characteristics (SmPCs) notes that where appropriate, advice should be provided on the “action to be taken if one or more dose(s) is (are) missed” [9]. The advice should be as specific as possible, taking into consideration the recommended frequency of dosing and relevant pharmacokinetic data. Patient information leaflets (PILs) have been a legal requirement as package inserts for all medicines in the UK since 1999. The Medicines and Healthcare products Regulatory Agency advises that information is provided on “what to do if a dose is missed” [10]. However, this is not mandatory and the extent to which PILs provide useful information for patients is unclear [11].
The aim of the present study was to systematically assess the PILs and SmPCs of prescription-only medicines with marketing authorisation in the UK to examine the extent to which they provide appropriate guidance on missed doses to patients and healthcare professionals.
Methods
We systematically assessed the availability and detailed the content of instructions for missed doses in the PILs and SmPCs of all licensed prescription-only medicines catalogued in the UK electronic Medicines Compendium [12]. The advanced search feature was used to screen PILs and SmPCs for missing dose information by using the following keywords: miss(ed), omit(ted), adhere(d), delay(ed), forgot, forget, lapse.
All available PILs and SmPCs were included in the study and analysed further if any of the search terms pertained to instructions on what action should be taken if a dose is delayed or missed (herein denoted as “instructions for missed doses”). PILs and SmPCs were excluded if they were duplicates (e.g. multiple generic medicines), or related to different strengths of the same medicine.
Data on the following items were extracted from documents which were deemed relevant for inclusion: name of medicine (brand and generic); date of first marketing authorization; dosage form (oral, oral modified release, parenteral, topical, eye, ear, inhalation, “other”); dose frequency (less frequent than once daily, once daily, twice daily, three times daily, more than three times daily); source of information (PIL or SmPC); instructions for missed doses; and whether these instructions were supported by evidence.
All identified instructions for missed doses were categorised according to the level of detail of the instructions provided. We defined the following categories: no information, referral advice (e.g. “contact your doctor”), generic statement (e.g. “take it as soon as possible”), and specific instructions (e.g. as specified in an example provided by the European Medicines Agency [13], below):
“If the patient misses a dose of active substance X within 6 h of the time it is usually taken, the patient should be told to take it following a meal as soon as possible and then take the next dose at the regularly scheduled time. If a patient misses a dose by more than 6 h of the time it is usually taken, the patient should be told not to take the missed dose and simply resume the usual dosing schedule”
The association between the level of detail of the instructions for missed doses provided, and the decade of first marketing authorization, was tested using a chi-square test.
Instructions for missed doses in PILs and SmPCs were further assessed with reference to a tool produced by the UK National Patient Safety Agency (NPSA), which is aimed to reduce harm from omitted and delayed medicines in UK hospitals [14]. The tool does not list individual medicinal products, but rather, is structured according to British National Formulary (BNF) legacy chapters and sub-chapters, with each therapeutic class categorised using a traffic light system for the risk of harm from a delay or dose omission (Table 1). These risk categories are assigned to each of three scenarios: (i) dose not given at the time prescribed, (ii) dose not given within 2 h of time prescribed, and (iii) dose omitted (i.e. not administered by the time of next scheduled dose). For the present study, the highest risk category assigned by the NPSA was selected for each sub-chapter and was assumed to apply to the medicines contained therein.
Medicines were subsequently mapped onto NPSA risk categories to assess the relationship between labelling and the level of potential harm. To facilitate this mapping exercise, the Prescription Cost Analysis was used as a database of the belonging of each medicine to a BNF sub-chapter. Limitations to this approach were that the NPSA does not include all BNF sub-chapters; and neither does the Prescription Cost Analysis include all POMs.
The study was undertaken in April 2018 and is reported in accordance with the ESPACOMP Medication Adherence Reporting Guideline (EMERGE) [15].
Results
The search yielded 2284 documents from 7248 SmPCs and PILs relating to 1501 prescription only medicines listed in the electronic Medicines Compendium [12]. Following de-duplication, 783 (52%) POMs had SmPCs or PILs with no instructions on missed doses. A total of 685 PILs and 190 SmPCs relating to 718 unique POMs contained some form of instructions (Fig. 1). For 93 POMs (representing 6% of all POMs), these were referral advice; 487 (32% of POMs) had generic statements; and 138 (9% of POMs) had specific instructions (Table 2).
Among medicinal products with instructions for missed doses, the majority (450/718; 62%) were oral formulations, followed by parenteral formulations (20%), and oral modified release formulations (4%) (Table 2). Treatments were mainly for once daily dosing (342/718; 48%). There was moderate evidence for a relationship between the decade of marketing authorization and the level of instruction on missed doses (Chi2 = 21.3; p = 0.046).
The NPSA tool includes 56 BNF legacy sub-chapters that covered 596 of the 718 POMs which included instructions on missed doses; and 134 of the 783 POMs that did not. Among the medicines identified as having instructions on missed doses, 235/718 (33%), 138/718 (19%), 223/718 (31%) were categorised as “red”, “amber”, and “green” according to the NPSA report, respectively.
There was no consistent inclusion of instructions for missed dose in PILs and SmPCs of medicines designated by the NPSA as having high or moderate risk of adverse outcomes when doses are delayed or omitted (Table 3). Among medicines within NPSA categories classed as “red”, 103/338 (25%) had no instructions for missed dose; 31/169 (20%) of medicines classed as “amber” had no instructions for missed doses, while 0/223 classed as “green” had no instructions for missed doses.
Among licensed cardiovascular medicines, a substantial number of diuretics (12/25; 48%) and beta-adrenoceptor antagonists (5/18; 27%) had no instructions for missed doses. Oral antidiabetic medicines are categorised as amber risk, however, less than one fifth (6/35; 17%) had specific instructions for missed doses.
Among respiratory medicines, the PILs of all bronchodilators (22/22; 100%) and inhaled corticosteroids (6/6; 100%) had generic statements (e.g. administer as soon as possible). The PILs of 80% of medicines for rheumatic disease, which are amber NPSA risk category, also only included generic statements for missed doses. Neuropsychiatric medicines for psychoses, parkinsonism, and epilepsy, and which are also in the amber risk category, had generic statements for missed doses in 21/31 (67%), 19/30 (63%), and 19/26 (73%) of cases, respectively.
Among selected, specialist hospital medicines, all prostaglandins and oxytocics had either no or generic statements (i.e. contact your doctor); yet, the NPSA classed these drugs in the red risk category. Similarly, the majority of instructions for missed doses for cytotoxic agents are generic statements (13/14; 92%), even though the NPSA report classes anti-cancer medicines in the highest risk category.
We found evidence on pharmacokinetic and pharmacodynamic relationships with adherence in the SmPCs of 13/138 (9%) POMs that had specific instructions on missed doses (Table 4).
Discussion
This is the first study to systematically assess the extent and nature of instructions for missed doses for all UK prescription only medicines. The study found that for the majority of medicines, there were no instructions for missed doses in either PILs or SmPCs. Moreover, where instructions were provided, most were generic, and probably inadequate to be informative to patients or healthcare professionals.
Given the high prevalence of variable implementation among ambulatory patients and of unintended delayed or omitted doses in hospitalised patients, the absence of instructions and widespread use of unspecific instructions provided to patients, prescribers and pharmacists in PILs and SmPCs is concerning. Patients recognising an error following self-administration of a medicine, and seeking information and reassurance may be complacent if no instructions are provided in the PIL, and this may lead to harm, especially if the medicine is unforgiving. Similarly, medication administration errors are a common occurrence on inpatient hospital wards [16, 17], and knowing what action to take is important for rectifying such errors. The observation that PILs and SmPCs for over a half of all POMs contained no instructions for missed doses is alarming, particularly as many of these are considered to be in high-risk categories by the NPSA.
Harm from delayed or omitted doses can result from reduced effectiveness or onset of adverse events, and is a function of a medicine’s forgiveness, efficacy and clinical indication. Manufacturers are not required to submit evidence on drug forgiveness to regulators, but while SmPCs provide essential data on the clinical pharmacology and adverse reactions of medicines, prescribers may not be sufficiently well informed to make specific recommendations to patients who enquire about missed doses. The extent to which medicines are forgiving to missed doses cannot be assumed from their pharmacokinetics, as forgiveness is also a function of drug pharmacodynamics [4, 5]. Aspirin, as one example, has a short elimination half-life, in the order of 2–3 h. However, the duration of antiplatelet effect does not correlate with the presence of salicylic acid in the circulation. Aspirin’s irreversible acetylation of platelet cyclo-oxygenase, coupled with the inability of platelets to synthesise new cyclo-oxygenase, means that the post-dose duration of action (forgiveness) is 7–10 days [18]. Missing occasional doses is largely inconsequential. Rivaroxaban and edoxaban have a longer plasma half-life (~ 12–14 h), but a rapid offset of effect (~ 1 day) owing to reversible inhibition of factor Xa which is closely correlated with their plasma concentrations. These are less forgiving to delayed and missed doses, and more likely to result in under anticoagulation and the associated risk of thrombosis in patients who poorly implement their dosing [7]. The SmPC for rivaroxaban [19]—but not edoxaban [20]—includes clear and specific instructions on missed doses. However, the details provided in the PILs for both drugs are very limited.
Among the SmPCs which provided explicit instructions for missed doses, some made reference to simulation, pharmacokinetic or clinical studies that provided supportive evidence. A range of methods are available to inform strategies on mitigating the effects of missed doses. Clinical trials designed to estimate the post-dose duration of action include substituting a single (or serial) dose(s) with placebo(s). In the case of oral contraceptives, this was done to define the interval between a last-taken pill before the ovulation-inducing surge of pituitary gonadotrophins appeared [21]. Similar studies have been performed with antihypertensive drugs [22,23,24,25,26,27,28,29,30] which indicate, for instance, amlodipine to be more forgiving than either enalapril or diltiazem, and to be more forgiving when combined with olmesartan than with perindopril [31]. For warfarin, pharmacokinetic-pharmacodynamic models have been proposed to inform labelling recommendations [32], and population pharmacokinetic models have been used to simulate missed doses of eslicarbazepine in patients with partial-onset seizures [33]. Pharmacometric analyses have also been used for a range of psychoactive treatments [34], and ought to be performed routinely to provide evidence for PIL and SmPC instructions on missed doses; especially for less forgiving treatments.
In our study, less than one tenth of UK POMs provided specific instruction on missed doses. These included medicines for neuropsychiatric disorders, type 2 diabetes as well as oral contraceptives and anticoagulants. A previous study in USA, reviewed the package inserts of 168 medicines found that only 8% had adequate information regarding medication adherence, while the majority (58%) had no information at all [8]. Our findings, that 52% of medicines have no information regarding missing dose instruction are consistent, but also reveal no change in practice over two decades. However, we recognise that SmPCs may not be updated in several respects, and our analysis suggests that medicines with more recent marketing authorisation provide better information.
Our study benefited from being systematic and including all prescription only medicines indexed in the electronic Medicines Compendium. However, there were some limitations. Specifically, the eMC is not complete—not all pharmaceutical companies subscribe to Datapharm to publish their information on the eMC website, and so a small proportion of medicines licensed in the UK will not have been included. We were also constrained by the advanced search facility of the eMC, which provided limited flexibility for searching, especially within portable document format (pdf) files, which represented many PILs. Our search may also have lacked sensitivity through the omission of potentially relevant search terms. Nevertheless, we considered that the study was conducted robustly with sampling that was sufficiently reflective of UK licensed POMs without any systematic bias. Finally, the classification of medicines in the NPSA tool is based on consensus of the opinions of pharmacists and patient safety specialists, and validated by an expert panel. It focuses primarily on the use of medicines in hospitals with indications deemed of particular relevance for primary care not having been considered. It also does not have full coverage of BNF sub-chapters, and therefore excluded 771/1501 (51%) of eMC listed medicines. Most of these (649/771; 84%) had no instructions on missed doses, suggesting the NPSA tool may select for high risk medicines, as might be expected.
In conclusion, the high prevalence of non-adherence to medications, particularly in the form of variable implementation and its associated hazards, requires that patients and healthcare professionals need to be suitably informed on what actions to take when doses are delayed or missed. Patients often face a dilemma on what to do when they miss a dose, and while patient information leaflets and summaries of products characteristics are considered key references, the advice currently offered in these resources is largely inadequate. We recommend that further regulatory oversight is warranted, to ensure the safeguard of patients through the provision of appropriate information. This is especially important for less forgiving medicines, where specific trials or simulations may be necessary to provide the relevant evidence.
Data availability
Data can be supplied upon request.
References
Osterberg L, Blaschke T (2005) Adherence to medication. N Engl J Med 353:487–497
Vrijens B, De Geest S, Hughes DA et al (2012) A new taxonomy for describing and defining adherence to medications. Br J Clin Pharmacol 73:691–705
Howard J, Wildman K, Blain J et al (1999) The importance of drug information from a patient perspective. J Soc Adm Pharm 16:115–126
Osterberg LG, Urquhart J, Blaschke TF (2010) Understanding forgiveness: minding and mining the gaps between pharmacokinetics and therapeutics. Clin Pharmacol Ther 88:457–459
Morrison A, Stauffer M, Kaufman A (2017) Relationship between adherence rate threshold and drug “forgiveness.”. Clin Pharmacokinet 56:1435–1440
Assawasuwannakit P, Braund R, Duffull S (2016) A framework for quantifying the influence of adherence and dose individualization. Clin Pharmacol Ther 99:452–459
Hughes DA (2020) Medication adherence-key considerations for clinical pharmacologists. Br J Clin Pharmacol 86(4):628–629
Spyker DA, Harvey ED, Harvey BE et al (2000) Assessment and reporting of clinical pharmacology information in drug labeling. Clin Pharmacol Ther 67:196–200
European Commission (2005) A guideline on Summary of Product Characteristics. http://www.kardio.hr/wp-content/uploads/2012/12/spcguidrev1-oct2005_en.pdf. Accessed 28 April 2020
Medicines and Healthcare products Regulatory Agency (2014) Best practice guidance on patient information leaflets. https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/328405/Best_practice_guidance_on_patient_information_leaflets.pdf. Accessed 28 April 2020
Liu F, Abdul-Hussain S, Mahboob S, Rai V, Kostrzewski A (2014) How useful are medication patient information leaflets to older adults? A content, readability and layout analysis. Int J Clin Pharm 36:827–834
Datapharm Communications Limited. The electronic Medicines Compendium. https://www.medicines.org.uk/emc/. Accessed 28 April 2020
European Medicines Agency (2013) Section 4.2: Posology and method of administration. https://www.ema.europa.eu/en/documents/presentation/presentation-section-42-posology-method-administration_en.pdf. Accessed 28 April 2020
National Patient safety Agency (2017) Reducing harm from missed or omitted and delayed medicines in hospital. Tools to support local implementation. https://www.sps.nhs.uk/articles/npsa-rapid-response-report-reducing-harm-from-omitted-and-delayed-medicines-in-hospital-a-tool-to-support-local-implementation. Accessed 28 April 2020
De Geest S, Zullig LL, Dunbar-Jacob J, Helmy R, Hughes DA, Wilson IBVB (2018) ESPACOMP Medication Adherence Reporting Guideline (EMERGE). Ann Intern Med 169:30–35
Berdot S, Gillaizeau F, Caruba T, Prognon P, Durieux P, Sabatier B (2013) Drug administration errors in hospital inpatients: a systematic review. PLoS One 8(6):e68856
Keers R, Williams S, Cooke J, Ashcroft D (2013) Prevalence and nature of medication administration errors in health care settings: a systematic review of direct observational evidence. Ann Pharmacother 47:237–256
Burch JW, Stanford N, Majerus PW (1979) Inhibition of platelet prostaglandin synthase by oral aspirin. J Clin Invest 61:314–319
Xarelto 10 mg film-coated tablets. Datapharm Communications Limited. The electronic Medicines Compendium. https://www.medicines.org.uk/emc/product/6402/smpc. Accessed 25 August 2020
Lixiana 15 mg Film-Coated Tablets. Datapharm Communications Limited. The electronic Medicines Compendium. https://www.medicines.org.uk/emc/product/6907/smpc. Accessed 25 August 2020
Landgren BM, Diczfalusy E (1984) Hormonal consequences of missing the pill during the first two days of three consecutive artificial cycles. Contraception 29:437–446
Johnson B, Whelton A (1994) A study design for comparing the effects of missing daily doses of antihypertensive drugs. Am J Ther 1:260–267
Hernández-Hernández R, Armas de Hernández M, Armas-Padilla M, Carvajal AR, Guerrero-Pajuelo J (1996) The effects of missing a dose of enalapril versus amlodipine on ambulatory blood pressure. Blood Press Monit 1:121–126
Leenen F, Fourney A, Notman G, Tanner J (1996) Persistence of antihypertensive effect after ‘missed doses’ of calcium antagonist with long (amlodipine) vs short (diltiazem) elimination half-life. Br J Clin Pharmacol 41:83–88
Vaur L, Dutrey-Dupagne C, Boussac J et al (1995) Differential effects of a missed dose of trandolapril and enalapril on blood pressure control in hypertensive patients. J Cardiovasc Pharmacol 26:127–131
Koenig W (2000) Comparison of the efficacy and tolerability of combination tablets containing candesartan cilexetil and hydrochlorothiazide or losartan and hydrochlorothiazide in patients with moderate to severe hypertension. Clin Drug Investig 19:239–246
Girvin B, Johnston G (2004) Comparison of the effects of a 7-day period of noncompliance on blood pressure control using three different antihypertensive agents. J Hypertens 22:1409–1414
Burnier M, Brede Y, Lowy A (2011) Impact of prolonged antihypertensive duration of action on predicted clinical outcomes in imperfectly adherent patients: comparison of aliskiren, irbesartan and ramipril. Int J Clin Pract 65:127–133
Palatini P, Jung W, Shlyakhto E, Botha J, Bush C, Keefe DL (2010) Maintenance of blood-pressure-lowering effect following a missed dose of aliskiren, irbesartan or ramipril: results of a randomized, double-blind study. J Hum Hypertens 24:93–103
Düsing R, Brunel P, Baek I, Baschiera F (2013) Sustained blood pressure-lowering effect of aliskiren compared with telmisartan after a single missed dose. J Clin Hypertens 15:41–47
Redon J, Pichler G (2016) Comparative study of the efficacy of olmesartan/amlodipine vs. perindopril/amlodipine in peripheral and central blood pressure parameters after missed dose in type 2 diabetes. Am J Hypertens 29:1055–1062
Levy G, Zamacona M, Jusko W (2000) Developing compliance instructions for drug labeling. Clin Pharmacol Ther 68:586–591
Sunkaraneni S, Blum D, Ludwig E, Chudasama V, Fiedler-Kelly J, Marvanova M, Bainbridge J, Phillips L (2018) Population pharmacokinetic evaluation and missed-dose simulations for eslicarbazepine acetate monotherapy in patients with partial-onset seizures. Clin Pharmacol Drug Dev 7:287–297
Wu J, Yu G, Li G (2018) Model-informed approaches for alternative aripiprazole dosing regimens and missed dose management: towards better adherence to antipsychotic pharmacotherapy. Eur J Drug Metab Pharmacokinet 43:471–473
Funding
AA received a visiting researcher scholarship from the Faculty of Pharmacy, Kuwait University. DAH is recipient of a senior research leader award by Health and Care Research Wales.
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A.A. and D.A.H. contributed substantially to the study conception, design, and the acquisition, analysis and interpretation of the data. A.A. drafted the manuscript and D.A.H. redrafted and revised it critically for important intellectual content. A.A. and D.A.H. gave final approval of the version to be published. D.A.H. agrees to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.
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Albassam, A., Hughes, D.A. What should patients do if they miss a dose? A systematic review of patient information leaflets and summaries of product characteristics. Eur J Clin Pharmacol 77, 251–260 (2021). https://doi.org/10.1007/s00228-020-03003-x
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DOI: https://doi.org/10.1007/s00228-020-03003-x