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Clinical and Experimental Gastroenterology logoLink to Clinical and Experimental Gastroenterology
. 2021 Aug 29;14:343–351. doi: 10.2147/CEG.S237653

Patient Preference and Adherence to Aminosalicylates for the Treatment of Ulcerative Colitis

Kartikeya Tripathi 1, Jeffrey Dong 2, Brooke F Mishkin 2, Joseph D Feuerstein 2,
PMCID: PMC8412827  PMID: 34511961

Abstract

Ulcerative colitis (UC) is a chronic inflammatory disorder that requires sustained treatment for optimal outcomes. The 5-aminosalicylate (5-ASA) class of medications are first-line for the treatment of mild-to-moderate UC but suffer from suboptimal adherence rates in real-world settings. This review summarizes the literature on adherence and patient preference to 5-ASA in patients with UC. We begin by highlighting key studies that measure real-world adherence rates, as well as some of the pitfalls associated with certain techniques. We examine the data on the consequences of non-adherence, which range from decreased quality of life and higher risk of colorectal cancer at the individual level to increased costs to the overall healthcare system. We then turn to the reasons and risk factors for non-adherence and summarize the current understanding of the barriers towards adherence. Afterwards, we describe the research on patient preferences between 5-ASA formulations and dosing regimen. Finally, we summarize the evidence regarding interventions to improve 5-ASA adherence. While adherence remains a challenge in practice, understanding the current state of the field can better inform future efforts towards increasing adherence, and thus clinical outcomes, in UC.

Keywords: UC, 5-ASA, ulcerative colitis, adherence, compliance

Introduction

Ulcerative colitis (UC) is an idiopathic, chronic inflammatory disorder of colonic mucosa that commonly involves the rectum and may extend proximally in a continuous fashion throughout the colon.1 It is one of the two major forms of inflammatory bowel disease (IBD), and it is classified from mild to severe based on Truelove and Witts criteria and the Mayo Clinic score.2–4 Globally, there were an estimated 6.8 million cases of IBD in 2017, with the highest incidence in high-income North America.5 As more countries adopt a Western lifestyle, the prevalence, and thus total disease burden, of UC is projected to continue to rise.

One of the first effective types of medication to treat UC is the 5-aminosalicylates (5-ASA) class, which includes sulfasalazine, mesalamine, and diazo-bonded 5-ASA.4 Sulfasalazine, which consists of 5-ASA bonded to sulfapyridine, was the first to be discovered but is no longer routinely used owing to the side effects of sulfapyridine. Mesalamine has been packaged into various formulations, such as enteric-coated tablets and multi-matrix (MMX) formulations, to deliver the medication into the lower bowel, while diazo-bonded 5-ASA are prodrugs which are converted to 5-ASA by colonic bacteria (Table 1). In addition to oral formulations, mesalamine has also been packaged as suppositories, enemas, and foams for rectal use. Despite the difference in delivery modalities, there does not appear to be significant differences in efficacy.6 Similarly, aside from sulfasalazine, all 5-ASA formulations are considered extremely safe.

Table 1.

Available 5-ASA Formulations, Mechanisms of Delivery, and Dosing

Formulation Generic Name Trade Names Mode of Activation Site of Delivery Daily Dosing
Diazo-bonded Sulfasalazine Azulfidine, Salazopyrin* Mesalamine bound to sulfapyridine Colon 4 grams per day in three to four divided doses
Olsalazine Dipentum Two mesalamine molecules bound together Colon 1 gram daily in two divided doses
Balsalazide Colazide, Colazal Mesalamine bound to 4-aminobenzoyl-β-alanine Colon 2.25 to 6.75 grams daily in three divided doses
Delayed pH mediated release Mesalamine Asacol, Delzicol Eudragit-S coating (dissolves at pH ≥ 7) Mid-terminal ileum to colon 1.6 to 2.4 grams daily in one to three divided doses
Multi-matrix system MMX mesalamine Lialda, Mezavant* Enteric coating (dissolves at pH ≥ 7). MMX of lipophilic and hydrophilic excipients Terminal ileum and colon 2.4 to 3.6 grams once daily
Time dependent Mesalamine Pentasa Microspheres encapsulated within an ethylcellulose semi-permeable membrane Duodenum to colon 1.5 to 4 grams daily in four divided doses

Notes: Data from these studies.4,65 *Not available in the United States.

Abbreviations: 5-ASA, 5-aminosalicylate; MMX, multi-matrix.

Though the treatment options for UC have increased with the discovery of immunomodulators and biologics, 5-ASA remains the mainstay of treatment for mild-to-moderate UC. The American Gastroenterological Association (AGA) recommends treating patients with mild-to-moderate left sided UC with mesalamine or diazo-bonded 5-ASA compounds.4 For patients with extensive mild-to-moderate UC, the AGA recommends the addition of rectal 5-ASA to oral therapy, as combined oral and rectal therapy delivers a greater effective dose to the affected areas of colon and leads to higher rates of remission. The European Crohn’s and Colitis Organization guidelines for using 5-ASA is comparable with AGA guidelines (Table 2).7 In practice, over 90% of patients with UC are treated with 5-ASA shortly after the diagnosis, and most patients who achieve clinical remission with these medications continue them to maintain remission.4,8

Table 2.

Indications to Use 5-ASA Formulations in Patients with Mild to Moderate UC per AGA and ECCO Guidelines

Disease Site and Activity AGA ECCO
Proctitis Recommends mesalamine enemas (or suppositories) rather than oral mesalamine, where it also suggests that patients who place a higher value on convenience of oral medication administration and a lower value on effectiveness could reasonably choose oral mesalamine. Mesalamine 1-g suppository once daily is the preferred initial treatment for mild or moderately active proctitis. Mesalamine foam or enemas are an alternative. Also, combining topical mesalamine with oral mesalamine or topical steroids is more effective.
Left-sided mild–moderate ulcerative proctosigmoiditis Oral mesalamine in addition to rectal mesalamine suppositories or enemas. Combination is more effective than any form alone. Active left-sided ulcerative colitis should initially be treated with an aminosalicylate enema ≥ 1 g/day combined with oral mesalamine ≥ 2.4 g/day.
Extensive mild–moderate UC A standard-dose mesalamine (2–3 g/d) OR a diazo-bonded 5-ASA rather. Low-dose mesalamine, sulfasalazine is not recommended.
AGA also suggests adding rectal mesalamine to oral 5-ASA in these patients.
Aminosalicylate enema 1 g/day combined with oral mesalamine ≥ 2.4 g/day.

Note: Data from these studies.4,7.

Abbreviations: 5-ASA, 5-aminosalicylate; UC, ulcerative colitis; AGA, American Gastroenterological Association; ECCO, European Crohn’s and Colitis Organization.

While a diagnosis of UC is no longer associated with increased risk of mortality, the morbidity remains significant, with nearly 50% of patients requiring hospitalization and 10–15% requiring colectomy by 10 years.8 Since mucosal healing is associated with lower risks of complications, adherence to medications plays a crucial role in maintaining remission and improving long-term outcomes of UC. In this review, we describe the risks and outcomes of non-adherence with 5-ASA in UC, factors affecting adherence in UC patients, and patients’ preference for treatment with 5-ASA.

5-ASA Adherence in UC

Medication adherence is an important aspect of inducing and maintaining remission in UC, but it is also a recognized challenge since life-long adherence is required for disease management. While randomized control trials (RCTs) which demonstrated efficacy of 5-ASA compounds often reached adherence rates of 80–90% owing to strict follow-up and monitoring, experience from other chronic medical conditions indicate that real-world medication adherence rates are approximately 50% or even lower.9–13 Perhaps unsurprisingly, studies examining real-world adherence rates in UC patients have consistently found results much lower than those reported in RCTs.

In 1982, van Hees and van Tongeren demonstrated that 41% of patients had substantially low serum sulfapyridine levels when measured 1 to 6 months after discharge, despite most claiming that they took sulfasalazine as prescribed.14 As the use of sulfasalazine declined, subsequent studies could no longer replicate van Hees and Van Tongeren’s methodology to measure adherence. Multiple authors have used survey-based methods to measure adherence, including Shale and Riley, D’Incà et al, and Moshkovska et al, and have found reported adherence rates to be generally between 50% and 70%.15–17

An important caveat of survey-based methods is that patients tend to over-report their adherence to medications, and indeed other authors have found lower adherence rates when using non-self-reported metrics.18 Using prescription refill records, Kane et al calculated an adherence rate of only 40% among 94 UC patients in remission.19 A subsequent study of 1681 patients by Lachaine et al using the Canadian RAMQ database found an even lower adherence rate of 27.7% at 12 months.20 Some authors have also attempted to measure 5-ASA metabolites to increase objectivity; both Shale and Riley and Moshkovska et al incorporated spot urinary 5-ASA and N-acetyl-5-ASA measurements into their studies.15,17 However, a subsequent study by Römkens et al found that spot measurements of urinary N-acetyl-5-ASA had considerable intra- and inter-subject variability and was not suitable for assessing 5-ASA adherence in practice.21

Implications of Non-Adherence

Non-adherence has major clinical and economic implications. Multiple studies have shown that non-adherence to 5-ASA significantly increases the risk of relapse. In a pilot 6-month-long RCT of different mesalamine formulations, Kane et al found that 2 of 6 non-adherent UC patients relapsed compared to zero patients who were adherent.22 Kane et al also followed a prospective cohort of 99 patients with quiescent UC on 5-ASA for 24 months and found a consistently higher rate of relapse among non-adherent patients, with 13 out of 32 non-adherent patients (40%) relapsed compared to 6 out of 54 adherent patients (11%) at 12 months (RR 3.65, 1.54–8.67), and 7 out of 28 non-adherent patients (25%) relapsed compared to 1 out of 39 adherent patients (2.6%) at 24 months (RR 9.75, 1.27–74.9).23 Results from a prospective cohort of 104 Japanese patients on 5-ASA were similar, with 41.3% of non-adherent patients relapsing compared to only 16% of adherent patients (HR 2.3, 1.004–5.24) by 12 months.24

Relapse, in turn, leads to numerous adverse outcomes including but not limited to decreased quality of life, more days missed from work, and adverse pregnancy outcomes.25–28 Furthermore, several observational studies have linked 5-ASA non-adherence with an increased risk of colon cancer. Moody et al found that among 175 UC patients, 31.3% of non-adherent UC patients developed colorectal cancer after 10 years compared to 3.3% of adherent patients (p < 0.001).29 In a meta-analysis of 9 studies including Moody et al between 1994 and 2004, Velayos et al found a protective association between 5-ASA use and colorectal cancer (OR 0.51, 95% CI: 0.37–0.69).30 Subsequently, van Staa et al showed that IBD patients with regular 5-ASA use was found to have an adjusted OR 0.60 (95% CI: 0.38–0.96) of developing colorectal cancer compared to those who did not.31

Furthermore, poor adherence increases healthcare utilization and contributes to higher healthcare expenditures. In a UK-based single-center retrospective cohort study, Bassi et al showed that compared to IBD patients in remission, relapsed IBD patients were associated with a 2- to 3-fold increase in healthcare costs at baseline and a 20-fold increase in costs if requiring hospitalization.32 Studies using insurance claims data have also linked non-adherence in UC patients to higher costs. Using data from 4313 UC patients from the Maryland CareFirst BlueCross BlueShield program, Kane and Shaya found that patients adherent to 5-ASA incurred 12.5% lower medical costs than those who were not.33 Similarly, an analysis of 1693 UC patients by Mitra et al showed that total all-cause costs were 29% higher for non-adherent patients.34

Factors Affecting Adherence in UC

In 2003, the World Health Organization (WHO) classified the determinants of non-adherence into five interconnected dimensions, social and economic, health system-related, condition-related, patient-related, and therapy-related (Figure 1).35 From a socioeconomic standpoint, the most frequently identified risk factor across multiple studies is younger age.16,17,20,36–39 Among 326 patients in the Manitoba IBD Cohort Study, Ediger et al found that 25% of patients cited cost of medications as an important obstacle towards 5-ASA adherence.36 Ediger et al and D’Incà et al also reported an association between being employed and non-adherence, possibly due to the increased time demands associated with employment.16,36 Several authors have examined the impact of sex, marital status, and education on 5-ASA adherence, but the association between each of the three variables and adherence have been inconsistent.16,17,19,20,37–40

Figure 1.

Figure 1

Factors affecting 5-ASA adherence in patients with UC.

Note: *Factors for which data is conflicting or inconsistent.

Abbreviations: 5-ASA, 5-aminosalicylate; UC, ulcerative colitis.

The health system that a patient belongs to also plays a significant role on 5-ASA adherence. Through an analysis of claims data from 5664 UC patients in the United States, Yen et al found that patients insured with Medicaid and Medicare risk plans were more likely to be non-adherent to 5-ASA (OR 1.48, 95% CI 1.03–2.03) compared to those with commercial and fee-for-service Medicare plans.38 In addition, those who never receiving specialist care were also more likely to be non-adherent to 5-ASA (OR 1.25, 95% CI 1.08–1.44).38 Nguyen et al has reported disparities in rates of IBD specialist utilization in the United States by race, which by extension suggests that there may be racial disparities in 5-ASA adherence as well.41 Lower rates of adherence have also been found among African Americans and Hispanic patients for other chronic medical conditions, further reinforcing that a disparity could exist for 5-ASA adherence as well.42,43

From a condition-related perspective, adherence to 5-ASA is impacted by both the natural history of UC as well as the presence of comorbidities. Since UC flares are intermittent, patients may not feel the need to comply with treatment or do not wish to be reminded that they have an underlying chronic disease during remission.20,36 In a survey of 485 patients, D’Incà et al reported that non-adherence for patients in remission was 25%, compared to 10% in those who had active symptomatic disease (p < 0.001).16 Sewitch et al found that overall non-adherence in IBD patients was predicted by disease activity (OR: 0.50, p=0.0022) and intentional adherence was predicted by disease duration (OR: 0.12, p=0.0001).44 In terms of comorbidities, Lee et al described an association between non-adherence and both smoking and alcohol use, though an association between the former and non-adherence was not seen by Cerveny et al37,39 While Lachaine et al found no correlation between non-adherence and the diagnosis of another chronic medical condition in claims data, both Kane et al and Ediger et al reported that patients often cite having too many pills to take as a barrier to adherence.23,36

Non-adherence to 5-ASA is also shaped by patient-related factors. Multiple authors, including Kane et al, Ediger et al, and D’Incà et al, have noted that forgetfulness is one of the major reasons patients mention when asked why they do not take their medication.16,23,36 Ediger et al also found an association between higher adherence and agreeableness but not with any of the other Big Five personality traits (extraversion, openness, conscientiousness, and neuroticism).36 Finally, poor patient understanding of their disease may factor into 5-ASA non-adherence. In studies of UC patients in remission, both Kane et al and Ediger et al observed that a significant number of patients thought that they did not need to take medication while in remission.23,36 In interviews with UC patients, Moshkovska et al noted that a poor understanding of the natural history of UC and the benefits of medication, especially during quiescent disease, was a theme among those with low 5-ASA adherence.45

Preference Between 5-ASA Formulations

Given the complex factors which play into non-adherence in the above domains, several authors have investigated whether therapy-related barriers could be minimized by finding formulations and dosing schedules that patients prefer over others. Overall, patients appear to prefer oral over rectal 5-ASA formulations. In a randomized controlled trial, Prantera et al reported a higher rate of adherence to oral 5-ASA compared to rectal therapy (97.0% vs 87.5%).46 Subsequently, in a real-world setting D’Incà et al found that rectal therapy was associated with greater non-adherence (68% vs 40%, p=0.001) owing to discomfort during use and inconvenience of administration.16 However, given that in practice rectal 5-ASA is often added for extensive disease or non-response to oral 5-ASA, not all patients may have the opportunity of choosing between oral and rectal therapy.

Dosing frequency may also be important given that patients often cite forgetfulness as reasons for non-adherence. Indeed, experience from other chronic conditions like hypertension, osteoporosis, and HIV demonstrate that decreased dosing frequency leads to higher adherence.47–50 Older 5-ASA formulations, including many mesalamine formulations, have traditionally been given multiple times a day in divided doses. In 2003, Kane et al performed a pilot RCT demonstrating that patients with quiescent UC could take mesalamine once-daily and maintain similar rates of remission as those taking the medication in divided doses.22 The efficacy of various mesalamine formulations given once-daily for maintenance of remission was confirmed in several multicenter RCTs, including by Kamm et al, Dignass et al, and Sandborn et al, and notably both Dignass et al and Sandborn et al also found higher rates of satisfaction among patients in the once-daily group.51–53 Kruis et al and Flourié et al extended these results to show that mesalamine formulations could also be dosed once-daily for active UC with similar rates of remission and similar-to-higher rates of acceptability as divided dosing.54,55

Improving 5-ASA Adherence

Given that patients appear to exhibit a preference towards once-daily 5-ASA, it follows that switching from divided doses to once-daily dosing may lead to increased adherence. Thus, it may be surprising that multiple meta-analyses found no difference in adherence rates between once-daily and divided dose strategies for both induction and maintenance of remission with 5-ASA.6,56,57 However, it should be noted that these meta-analyses only included RCTs, where adherence rates in all groups were much higher than real-world rates, and so the effect of dose simplification may have been masked. Results from large-scale retrospective studies by Yen et al and Lachaine et al both showed that patients using MMX mesalamine had higher rates of adherence than patients using other formulations.20,38 Since MMX mesalamine was approved with once-daily dosing, in contrast to other 5-ASA formulations, this data may support the superiority of a once-daily strategy if a large portion of patients using non-MMX formulations were being prescribed divided doses. Furthermore, Dignass et al found that despite there being no difference in adherence as measured by amount of medication used, the once-daily group reported lower rates of forgetting to take medications (21–26% vs 25–44% in the control group) and had higher rates of remission (70.9% vs 58.9%, p = 0.024).52 Thus, it is quite plausible that once-daily dosing of 5-ASA can improve adherence, and potentially outcomes.

Other investigators have examined whether improving patient education and closer monitoring via telehealth could improve adherence. Both Waters et al and Nikolaus et al found that a standardized education program alone did not improve medication adherence.58,59 In contrast, Elkjaer et al showed that combining disease-specific education with Connected Care, a Web-based telehealth program, for UC patients on 5-ASA led to higher adherence during flares and shorter duration of flares, though it did not change rates of overall adherence.60 In a study of IBD patients, de Jong et al demonstrated that the use of myIBDcoach, a similar telehealth program which tracked disease activity and provided e-learning modules, led to increased medication adherence and fewer hospitalizations at 12 months.61 However, Cross et al found no difference in medication adherence or disease activity through participation in UC HAT, another telehealth program.62 Notably, attrition rates were 24% (89 out of 117 patients) in Connected Care and 32% (8 out of 25 patients) in UC HAT, both which required weekly participation by default, compared to only 6% (27 out of 465 patients) in myIBDcoach, which asked for monthly participation unless a flare was detected. These findings suggest that telehealth programs may need to be convenient for the user or else patients may not adhere to the program, just as they may not adhere to taking medications if it is cumbersome.

There is some evidence to suggest that personalized interventions for improving 5-ASA adherence may lead to positive results. Moshkova et al demonstrated that providing patients with individualized interventions from a menu of choices including dose simplification, pillboxes, visual medication reminders, and mobile phone alerts significantly increased adherence from 32% to 72% (p = 0.001) at 12 months.63 Greenley et al found that while providing problem-solving skills training to adolescent (age 11–18) IBD patients did not improve overall adherence, it did significantly increase adherence among an older subset (age 16–18) of patients with imperfect adherence by 10% (p < 0.05).64 The results from Moshkovska et al and Greenley et al suggest that interventions such as changes in dosing regimen, patient education, telehealth, and other techniques could all be promising if offered to the right patient.

Conclusion

UC is a chronic medical condition that requires life-long medication adherence for disease control and prevention of complications. However, adherence to 5-ASA remains low in real-world settings, influenced by a complex interplay of socioeconomic, systems-level, disease-related, and treatment-related factors. While non-adherence remains difficult to address, clinicians may be able to improve 5-ASA adherence by switching formulations, simplifying the dosing, engaging patients with telehealth, and perhaps above all, providing a personalized approach towards tackling the problem. However, several gaps remain in our knowledge about 5-ASA adherence, and further research could confirm the real-world efficacy of dose simplification, investigate other methods to offer personalized strategies for increasing adherence, and explore whether combining multiple strategies can improve 5-ASA adherence, and potentially outcomes, in UC patients.

Funding Statement

There is no funding to report.

Author Contributions

All authors contributed to data analysis, drafting or revising the article, have agreed on the journal to which the article will be submitted, gave final approval of the version to be published, and agree to be accountable for all aspects of the work.

Disclosure

The authors report no conflicts of interest in this work.

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