The SPUR Model: A Framework for Considering Patient Behavior.

BACKGROUND: Medication nonadherence is a global problem that requires urgent attention. Roughly half of all drugs that are prescribed for chronic treatments are not taken by the patients in question. Initiatives designed to support patients and help them modify their behavior are enhanced by personalization, and a number of profiling tools exist to help customize such interventions. Most of these tools were originally designed as paper-based questionnaires, but the growth of digital adherence technologies (DATs) illuminate the need for the development of digital profiling systems that can interact with fully automated patient interfaces.
OBJECTIVE: The objective of this study was to examine existing frameworks from medicine, psychology, sociology, consumer behavior, and economics to elaborate a comprehensive, quantitative profiling approach that can be used to drive the customization of patient support initiatives.
RESULTS: Building primarily on Icek Ajzen's Theory of Planned Behavior (TPB), the Health Belief Model (HBM) was used to inform the beliefs about behavior posited in the TPB, while incorporating established factors regarding self-efficacy in the "control" elements of the TPB and selected social and psychological factors in the other constituents of the model. The resulting SPUR (Social, Psychological, Usage, Rational) framework represents a holistic, profiling tool with detailed, quantitative outputs that describe a patient's behavioral risks and the drivers of that risk.
CONCLUSION: An interactive, digital questionnaire built around SPUR represents a potentially useful tool for those desirous of building interactive digital support programs for patients with chronic diseases.

Introduction

According to the World Health Organization (WHO),1 poor adherence to treatment of chronic diseases is a worldwide problem of “striking magnitude” and the burden of poor adherence is growing worldwide as the prevalence of chronic disease increases. The WHO goes on to point out that the consequences of poor adherence to long-term chronic therapies are both poor health outcomes and increased health-care costs. In 2012, global avoidable cost due to non-adherence was estimated at $269 billion.2 The impact of non-adherence led the WHO to agree with Hayne’s contention that “increasing the effectiveness of adherence interventions may have a far greater impact on the health of the population than any improvement in specific medical treatments”.3

The WHO estimates that roughly 50% of medications prescribed for chronic diseases are actually taken.1 Even in life-threatening cases adherence rates can be much lower than expected, with adherence rates measured as low as 77.3% in post-transplant immunosuppressant drugs4 and 71% for oral oncology drugs.5 A 2012 meta-analysis of adherence in drugs that prevent cardiovascular disease found an adherence rate of 57% in more than 370,000 patients.6 Over the past several years, stakeholders in the healthcare world have intensified their efforts to both understand this issue and to put into place patient support programs that will help address non-adherence. Addressing non-adherence through targeting intervention is one of the few topics on which everyone is in agreement: patients certainly benefit from increased support and payers would very much like to reduce overall costs by enhancing adherence to those drug treatments which they have decided are beneficial; health-care professionals would like to ensure that the treatments they prescribe are being followed and the pharmaceutical industry benefits by increased sales of their products. Physicians have traditionally been poor at determining patient adherence. As early as 1978, Roth et al7 found that physicians overestimated their patients’ adherence by 400%, and that the patients too overestimated their own adherence. In 2010, Copher et al8 found that physicians overestimated the number of adherent patients by over 60% and in the following year Trindade et al9 found similar overestimation of the adherence rates of IBD patients. In 2016, Clyne et al10 found a weak correlation between physician estimates of their patients’ adherence and objective measures, as well as a systematic bias among prescribers to assume that their patients are more adherent than the norm.

Given their difficulty in perceiving the problem, relying on health-care professionals alone to address patient non-adherence can lead to suboptimal outcomes.11 Furthermore, decisions about whether or not to take medication are typically made outside of a health-care institution, when the patient is not in direct contact with health-care professionals.

Many tools have been provided to health-care professionals to help prescribers more accurately assess adherence. The most widely used of these is the 4-question Morisky Medication Adherence Scale (MMAS 4).12 This tool has been and continues to be of great use to health-care professionals, but it and other tools like it typically require extra time and effort from often busy professionals. Both physicians and patients often cite a lack of time during visits, and surveys such as 2007’s Global Asthma Physician and Patient Survey13 underscore the need for more time spent on education and coaching.14 At the same time, a recent survey carried out in the United States indicates that only 11% of patients and 14% of physicians feel that doctors have the time they need to provide excellent care.15 Faced with the need to balance ease of use and thoroughness of analysis, behavioral profiling tools such as the MMAS-4 (and the later, 8-question MMAS-8) must sacrifice the latter to ensure the former. As such, existing tools have been criticized as being too restrictive to offer a basis for highly tailored behavioral interventions.16

The availability of digital solutions (Digital Adherence Technologies: DAT) provides effective new means of identifying patients at risk of non-adherence and promoting behavioral change while minimizing demands on physician time.17–19 However, this technology by its nature lacks the personalization that can be provided by a trained human during an interpersonal exchange. This gives rise to a need for more flexible and personalized digital support that takes into account each individual’s behavioral drivers and triggers without the need for human analysis. Tailored DATs have great potential to support patients effectively without undue demands on physician time and with much lower costs than traditional telephone-based programs, as demonstrated by a 2018 review of the literature on such technologies with tuberculosis patients20 as well as a 2019 study with hypertensive patients in the UK.21 These promising approaches warrant further development, including the design of DAT-friendly profiling tools. Such tools would be digital in nature, thorough in their quantification of the drivers of adherence, predictive of actual adherence behavior and easily incorporated into DATs.

The tools that are typically used to determine individual patient risk and behavioral needs were designed to be used by humans and do not incorporate the kind of continuous and detailed mathematical principles that can interact effectively with digital support programs. For example, most online retailers, such as Amazon.com, use Bayesian product recommendation engines such as that described in US patent 8.255.263 B2.22 Digital patient support programs could likewise benefit from a similar high degree of customization, yet they need the detailed, quantifiable personal profiling that drives them. As pointed out by Prochaska, Redding, and Evers, “… most [health behavior frameworks] have not even developed constructs that are subject to such mathematical principles.”23 We believe that the SPUR (Social, Psychological, Usage, Rational) framework, built on existing behavioral frameworks, can fill this gap by allowing detailed quantitative measures of established adherence behavioral drivers, determined through an interactive digital questionnaire. Such a questionnaire, designed from the start to be administered in a digital setting, can provide engaging intermediate feedback to patients while providing the kind of driver-specific measures that can serve as the foundation for personalized digital interaction. In order to achieve this in a valid way, such a tool must be built on solid theoretical frameworks.

Theoretical Frameworks

A number of frameworks are often cited when referring to patient adherence decision-making. Among the first of these was the Health Belief Model (HBM),24 first postulated over fifty years ago. This model has been verified in more recent studies,25 but it does not address the non-cognitive components of patient behavior, such as medication costs. Icek Ajzen’s Theory of Planned Behavior (TPB), and its predecessor the Theory of Reasoned Action do address these factors and have also often been applied to healthcare decision-making,26 as has the more recent derivative of the TPB, the Integrated Behavior Model.27 Prochaska and Clemente’s Transtheoretical Model (TTM) has also been a staple model, as has social cognition theory.28,29 On a more psychological level, Gérard Reach has postulated elements of relationship to authority (reactance), and he and others have borrowed from behavioral economics concepts regarding the ability to project into the future as determinants of adherence behavior.30

Outside of medical or even strictly behavioral academic domains, the field of consumer behavior has generated interesting frameworks for addressing adherence problems. Notably, issues of identity, described in the concept of the extended self, as researched by Russel Belk,31 provides insights into how individuals view consumption as an extension of self-identity. This has an impact both on the acceptance of their disease (as described by Graffigna and Barello 201832) and on their acceptance of the prescribed treatment.

Patient Support Programs (PSPs) built using these and other models have proven useful as public health initiatives at a population level.33 These models have been used to build patient-specific support, and they are also often used to profile patients and provide guidance to health-care professionals who can then offer tailored advice, education, and coaching. Some models have been specifically designed to profile patients, either in terms of their risk of non-adherence or the reasons behind this risk. One of the more widely used frameworks to investigate and affect patient behavior is the Patient Activation Measure (PAM).34 The goal of PAM is to measure the degree to which patients have been “activated” to engage with their own health; and PAM scores have been strongly correlated to outcomes.35,36 The Patient Health Engagement model32 purports to go beyond what the authors see as a “passivizing approach” to patients’ care to examine the “meaning and lived experiences” of patients, as well as their emotional and psychological make-up.

While all of these models have demonstrated their value both at the level of individual prescribers (or providers) as well as in the design of programs at population level, none were designed to provide a multi-dimensional behavioral assessment model that can be used to profile individuals and interface with a digital agent, such as a DAT driven by artificial intelligence. What is needed is a comprehensive model of patient behavior that can both accurately predict adherence and identify modifiable drivers of health behavior that deliver useful input to digital coaching and support systems.

In sum, the imperative is to build a model and an associated profiling tool that successfully meet the following criteria: 1) accurately predicts patient adherence to medication; 2) identifies actionable drivers of adherence behavior; 3) can be used in the absence of human interpretation so as to inform the customization of purely digital support programs; and 4) is based on accepted behavioral models drawn from different domains. Such a model can then be used both to further investigate the non-adherence phenomenon at the population level as well as to provide tailored support to individual patients. By combining established behavioral models with digital questionnaire technology, a “grand unified” model can be created to serve as the basis for the digital questionnaire.

The Proposed Model: SPUR

The core of the SPUR framework is Ajzen’s Theory of Planned Behavior (TPB). This theory, as seen in Figure 1, is a well-established approach to consider complex decision-making. It has been successfully and widely applied to general healthcare behavior,37 and a smaller number of studies have shown its utility in predicting medication adherence,38,39 although its use has been criticized in this context for being simplistic, too rational in nature, not taking into account psychological factors such as identity, and for not having demonstrated impact when applied to health behavior.40 McEachan et al’s41 2010 meta-analysis of the use of the TPB determined that the model was predictive of health behavior and psychological constructs such as behavioral intent. Using Rothman and Salovey’s classification of health behaviors into those that prevent, detect, and cure health problems,42 McEachan et al determined that the type of behavior was important in assessing the applicability of the TPB and particularly, in the relative importance of its constituents. This was reinforced in McEachan et al’s subsequent 2016 meta-analysis.43 In both of these studies, however, the authors underlined that no satisfactory study had been made of the applicability of the TPB in cases of curative behaviors such as adherence to medication for chronic disease.

Figure 1

The theory of planned behavior.

The lack of studies examining the TPB in curative behavior as well as the identified weaknesses of the approach led us to believe that augmenting the TPB with health-specific frameworks focusing on curative behavior can both enhance its applicability in this domain while further elaborating on it to provide quantifiable outputs that can then be used to drive algorithms in digital support programs for chronic disease management.

The TPB describes complex behavior as a function of attitudes about the behavior (driven by beliefs about the behavior and tempered by other psychological factors), subjective norms, and perceived control. Each of these is weighted to reflect its importance for each individual.

Drawing on the TPB, the SPUR model is focused specifically on chronic patients’ adherence behavior and includes elements of ancillary frameworks as mentioned above.

Specifically, SPUR includes concepts from the HBM to inform the cognitive elements of attitude formation within the TPB by detailing the perceived understanding of the patient and their beliefs about the prescribed behavior. Commonly cited practical reasons for non-adherence, such as financial difficulties, complexity of the treatment, etc.1 can inform the control elements of the TPB, typically referred to as self-efficacy in health behavior, and aforementioned behavioral factors such as reactance and discounting of future benefits can address how beliefs about behavior combine with the other elements to generate attitudes. The resulting model is specific to behaviors regarding chronic diseases and takes into account a number of established frameworks that have been demonstrated to influence adherence behavior, generating the following enhanced framework (Figure 2).

Figure 2

The concepts that constitute SPUR.

The model is called “SPUR”, since the different elements fall into four major domains: Social, Psychological, Usage and Rational that are discussed below. The manner in which these four domains relate to the TPB can be seen in Figure 3.

Figure 3

The SPUR framework in detail.

Social Factors

Social elements in the case of medical adherence have also been studied at length. Most of the work in this area has focussed on perceived social support as a factor in patient adherence and has shown greater support improves adherence. This has been considered in general44 as well as in specific cases such as diabetes by Gu, et al45 as well as Shallcross et al46 in epilepsy and Kim, et al47 in HIV.

Social factors have been considered both with respect to the impact of those close to the patient and the role of society as a whole (e.g. the influence of socio-cultural expectations). This latter definition corresponds more closely to the TPB’s construct of social norms and can be clearly seen when considering the changing cultural acceptability of smoking in many Western societies and its impact on the prevalence of smoking. Likewise, the impact of social norms on general health-related behavior has been well considered (see, for example, Baer, Stacy, and Larimer48), although the direct impact of norms has been poorly studied in relation to actual medication adherence.

Psychological Factors

Many psychological constructs have been examined with respect to health behavior in cases of chronic disease. Mental illness itself, such as depression, has long been linked to non-adherence49–51 and treatment with anti-depression medication has been shown to increase adherence with depressed HIV patients.52 In SPUR, we have avoided examining the impact of mental disorders such as depression, bi-polar or Post-traumatic stress disorder, as they merit specific treatment beyond the type of behavioral support that is the focus of our research. We have therefore focussed on three compelling and well-documented non-clinical psychological factors: self-concept, reactance and the discounting of future values.

The Concept of the Self

In the case of medical adherence, there is a latent tendency to deny the existence or extent of the illness despite a cognitive understanding of the facts.53,54 While denial has been linked to well-being and general health54,55 the role of denial of personal traits and circumstances in behavior modification has not been adequately examined. There is some indication that denial is directly correlated to non-adherence, particularly in the case of mental illness. Greenhouse et al29 demonstrated that coping behaviors associated with denial were inversely correlated with adherence in bipolar disorder56 and Aldebot and Weisman de Mamani57 observed that denial led to lower adherence rates in schizophrenia. Outside of mental illnesses, denial has been identified as a significant contributor to non-adherence in pathologies ranging from cardiovascular disease58 to HIV.59

We thus hypothesize that questions of denial in the case of health are driven by conflicts between the pre-existing self-concept and the new identification with the disease state, e.g. as a “diabetic”, “cancer patient”, “asthmatic”, etc. In order to examine the concept of the self with respect to the consumption of medication, we turn to consumer behavior and notably, Russel Belk. Belk considered the effect of possessions on the “extended self” and the impact of consumption decisions.31,60,61 We believe that similar concepts can help elucidate a model to understand the impact of medication consumption on identity and therefore its impact on adherence. Specifically, does the person accept their illness and their status as “patient”? We hypothesize that denial of this attribute – equated to a refusal to incorporate it into their sense of identity – is detrimental to adherence.

In order to better examine this potential disconnect, it is useful to begin by considering the patient’s perceived identity and their concept of self, both from the point of view of the individual (i.e. Belk) and his or her relations to others and the community, i.e. Kashima.62 This becomes particularly relevant for individuals who express a degree of denial with respect to their disease. Kortte and Wegener53 have considered specifically denial of illness among patients across a number of pathologies and have investigated the psychological literature on the subject, ranging from Freud to modern thinkers. However, they have not considered the impact of denial on either sense of self directly, nor on consumer behavior, such as adherence.

Reactance

Reactance is the psychological tendency to resist authority. A number of studies have examined the impact of reactance on patient adherence. Fogarty and Young63 did not find an expected correlation between the use of an authoritative tone by physicians and patient behavior, however, it did lead the authors to conclude that the underlying degree of psychological reactance of the patient was a factor in their adherence behavior. Gérard Reach’s analysis of diabetic patients’ adherence35 bears this out, demonstrating a strong correlation between “obedient” behavior (wearing a seatbelt in the back seat of a car) and adherence, leading him to postulate that there are two elements to adherence behavior, a “passive” (i.e. driven by deference to authority) and a “motivational” element. In 2011, De La Cuevas et al49 determined that reactance was a stronger driver of adherence behavior than self-efficacy in patients suffering from depression.

Discounting and Prospect Theory

Researchers in the domain of behavioral economics have demonstrated the degree to which our asymmetrical valuing of losses over gains affects behavior.64 A number of researchers have investigated these factors with respect to adherence behavior.

Zhao et al37 demonstrated a significant difference in the impact of differential messaging on intended health behavior across people with different levels of focus on future outcomes,65 in which patients with high scores in Strathman’s Consideration of Future Consequences scale were significantly more sensitive to messages about future consequences than were subjects with lower scores, who were more likely to adhere when presented with messages concerning short-term benefits.

Lebeau et al,66 building on the work of Gérard Reach30 discovered a direct correlation between the discounting of future gains in type 2 diabetes patients and their measure of glycated hemoglobin (HbA1c).

Usage

The TPB’s inclusion of perceived control as an important behavioral driver leads to a consideration of what exactly this represents in adherence to treatment for chronic disease. This idea of self-efficacy has been closely studied and indeed, many patient support initiatives focus on it exclusively. Issues of control that affect adherence include non-access to medication due to physical constraints; financial difficulty;67 difficulty with self-administration, which can be the result of a multitude of causes including anxiety regarding self-injection;68 and forgetfulness.

Rational Factors

The HBM is the most widely and the longest used “expectancy-value” approach to health behavior. The fundamental behavioral choice is presented as a comparison of the outcome expectations of health behavior as compared to the perceived threat of not adopting that behavior. The former is further subdivided into the perceived benefits and the perceived threats of the behavior and further subdivided into the perceived gravity of the disease coupled with the perceived susceptibility of the subject to these nefarious consequences. While the HBM lacks the psychological, social and practical elements that have since been studied for their impact on health behavior, it does provide a good breakdown of the purely rational thought processes that can inform beliefs about health behavior that can then be incorporated into the TPB.

Conclusions and Next Steps

By building on the Theory of Planned Behavior, incorporating behavioral frameworks that are relevant to behavior in the case of medication adherence for patients with chronic diseases, the SPUR framework represents a coherent approach to build a quantifiable questionnaire that can be used to profile patients for adherence risk while identifying the drivers behind that risk. The inherently hierarchical structure of the framework, in which four major sets of drivers: social, psychological, utilitarian and rational are further broken down in accordance with relevant theories should allow both for assessment of an individual’s behavioral risk as well as analysis of the salient sources of that risk.

The next step will be to build a questionnaire based on the SPUR framework and test its predictive validity. We are in the process of doing exactly that and will be carrying out such a study across a range of pathologies in the near future. It is our hope that SPUR will prove to be a valuable tool for health-care professionals to determine the behavioral risks of each patient and construct support services for them that correspond to their personal behavioral drivers.