What behaviour change techniques have been used to improve adherence to evidence-based low back pain imaging?

Our research librarian (MS) developed a search strategy using a broad range of terms from a previous search strategy [8] related to back pain, diagnostic imaging and relative interventions combined with additional terms for primary and emergency care settings (Additional file 1). Using this strategy, we searched EMBASE, Ovid (Medline), CINAHL and Cochrane CENTRAL from inception to February 1, 2021. We hand-searched references from six relevant systematic reviews [7‐10, 21, 22], conducted forward and backward citation tracking of all included studies in our review, and emailed several content experts in the field of imaging and LBP to identify any additional studies our electronic and hand searches may have missed.

Studies were eligible if they were published in English and met the inclusion criteria detailed in Table 1. We excluded studies that targeted patients or the public directly (e.g., mass media campaigns) and interventions that were designed to improve adherence to other aspects of LBP guidelines without targeting imaging.

All titles identified by the search were combined in Endnote (https://​endnote.​com) and duplicates removed. Two reviewers (DT, RL) screened the initial set of titles and abstracts, excluding irrelevant studies. Two reviewers (AH, AP, HR) then screened the full texts for eligibility. In cases of disagreement, a third reviewer (HE, JP or AP) was consulted.

Two reviewers (AH and HR, JT or RL) independently extracted study characteristics including year, country, design, setting, target provider and intervention information using an adapted version of the Template for Intervention Description and Replication (TIDieR) checklist [23]. One reviewer (RL) assessed and extracted data on the use of a theoretical rationale for designing/developing the intervention using the Painter criteria [24], which distinguishes the use of theory into the following categories: (i) informed by theory, (ii) applied theory, (iii) testing theory or (iv) building or creating theory.

To achieve objective 1 (to describe what BCTs have been used in interventions designed to change physician’s imaging behaviour) the content of the intervention and control groups was extracted from the descriptions provided in the source paper or from referenced protocols or intervention development papers where appropriate. We coded published intervention descriptions according to the BCT Taxonomy v1 developed by Michie et al. [25]. This comprehensive taxonomy was based on a synthesis of behaviour change literature and includes 93 individual BCTs. Where studies targeted multiple behaviours (beyond reducing LBP imaging), we used the following assumptions to guide whether the study was included in the qualitative BCT intervention synthesis:

A coding manual was created based on the BCT taxonomy v1 [25]. The BCT coding framework was piloted by all coders experienced with the BCT Taxonomy (CA, JT, AP, AH) on two studies. During this process, clarifications and examples added to the coding manual by the coders to reflect any assumptions made. Using this first version of the coding manual, interventions were coded independently by two coders. Coding was compared across coders for discrepancies and was resolved by consensus and/or discussed with experts on the team (JM, HE and AMP). There were several instances in which discrepancies were discussed with the experts on the team and further rules were added to the codebook for consistency and clarity. These instances largely related to situations in which there was a lack of explicit information to allow for coding a BCT without making assumptions. The team agreed to apply a conservative coding approach in most instances and added exception rules where applicable (see Additional file 2). Using the final version of the codebook, BCT use across studies, along with their associated taxonomy hierarchies, were tabulated by setting (primary care or emergency department).

Following this, to achieve objective 2 (to assess whether the identified interventions target known barriers to change), we used the Theory and Techniques Tool (available at: https://​theoryandtechniq​uetool.​humanbehaviourch​ange.​org/​tool) to map BCTs to their corresponding mechanisms of action in the theoretical domains framework (TDF) [26, 27]. The Theory and Techniques Tool maps 74 BCTs to 26 mechanisms of action (including the 14 TDF domains) and depicts the strength of association (link) with colour, with stronger links represented in green, and weaker links represented in orange. The strength of a link was determined by combining data from a literature synthesis [26] and an expert consensus study [27]. Where BCTs mapped to more than one TDF domain, we only recorded the domain where there was strong evidence of a link between the BCT and that domain. In cases where there was no strong association between a BCT and any of the TDF domains, we recorded a domain with a weak association to the BCT. Finally, using this information we identified which intervention addressed the three TDF domains that were implicated in our 2019 review of physician reported barriers to implement LBP guidelines [18].

Nineteen (50%) of the studies were conducted in the last 5 years (between 2015-present) in both primary care (82%) [30‐38, 40‐42, 44‐48, 50, 52‐60, 62‐64] and emergency settings (18%) [28, 29, 39, 43, 49, 51, 61, 65] in the US (n = 17) [28, 30, 33, 35, 38, 39, 41‐43, 46, 47, 54, 56, 59, 62, 64], the UK (n = 8) [31, 32, 40, 45, 50, 53, 55, 61], Australia (n = 6) [7, 44, 48, 49, 52, 58], Canada (n = 3) [29, 34, 51], the Netherlands (n = 2) [60, 63], Finland (n = 1) [57] and Germany (n = 1) [65]. Study designs included RCTs/Cluster RCTs (n = 12) [31‐33, 36, 45, 48, 53, 55, 56, 63‐65], Step-wedged RCTs (n = 3) [43, 47, 49], interrupted time series (ITS) (n = 8) [28, 34, 38, 40‐42, 50, 52], controlled before-after studies (CBA) (n = 2) [35, 60], uncontrolled before and after studies (UBA) (n = 10) [29, 30, 37, 39, 46, 51, 58, 59, 61, 62] and three non-experimental studies (describing either the development (n = 2) [44, 57] or post-implementation (n = 1) [54] of an eligible intervention). Four of the 38 studies met the Painter criteria for use of theory, with three studies classified as being informed by theor y[44, 48, 49] and one study classified as testing theory [36]. All studies are described in Table 2.

Of the 38 studies, we excluded 4 studies [31, 39, 49, 56] from our BCT qualitative synthesis since they targeted multiple aspects of LBP guideline-recommended behaviours and it was not possible to isolate which BCTs were targeting imaging only. The remaining 34 studies either i) solely targeted a reduction in imaging, ii) used the same intervention strategy for all of its target behaviours or iii) specified which BCTs targeted LBP imaging behaviour. We identified 18 BCTs across the 34 studies (see Table 3); the most common techniques were ‘4.1 instruction on how to perform the behaviour’ (n = 31 interventions; 26 studies) [29, 32, 33, 35, 36, 40‐42, 44‐48, 50, 52, 53, 55, 57‐65], defined as ‘advise or agree on how to perform the behaviour’, and ‘9.1 credible source’ (n = 21 interventions; 18 studies) [29, 30, 32, 35, 36, 40‐42, 45, 46, 48, 50, 53, 55, 58, 59, 62, 63], defined as ‘present verbal or visual communication from a credible source in favour of or against the behaviour’, ‘7.1 prompts/cues’ (n = 14 interventions; 14 studies) [29, 30, 32, 35, 41, 42, 44, 46, 53, 54, 57, 59, 61, 64] defined as ‘introduce or define environmental or social stimulus with the purpose of prompting or cuing the behaviour’, and ‘2.2 feedback on behaviour’ (n = 13 interventions; 12 studies) [30, 32, 33, 35, 41, 45, 48, 52, 55, 61, 63, 64], defined as ‘monitor and provide informative or evaluative feedback on performance of the behaviour’, and ‘12.5 adding objects to the environment’ (n = 11 interventions, 11 studies) [30, 35, 36, 44, 47, 48, 51, 52, 54, 57, 59] defined as ‘adding objects to the environment in order to facilitate the behaviour’. In these studies, 4.1 commonly referred to education based around a guideline or the provision of a guideline either delivered via post or in person or virtually via webinar, 9.1 commonly referred to the guideline being produced by a reputable/credible institution (not a society) or the guideline was verbally endorsed via video or in person by a reputable peer, 7.1 commonly referred to an automated decision support tool (implemented within a computer pop-up window) or as a hard copy summary of the guidelines/decision aid on when to image (implemented as a poster, laminated document or education booklet), 2.2 commonly referred to the use of audit and feedback in which a feedback report was delivered via email or post to physicians providing them with data on their imaging use and 12.5 commonly referred to decision support tools or education booklets that could be given to patients to help them understand their diagnosis and why imaging was not necessary. The highest number of BCTs included in a single study was 8 [36], while 5 interventions (4 studies) [34, 38, 55, 60] included only a single BCT.

Greater than 50% of studies used a BCT that targeted one of the following TDF domains Knowledge (n = 34 interventions; 27 studies) [29, 32, 33, 35‐37, 40‐48, 50, 52, 53, 55, 57‐65], Skills (n = 32 interventions; 27 studies) [29, 31‐33, 35, 36, 40‐42, 44‐48, 50, 52, 53, 55, 57‐65] and Beliefs about capabilities (n = 32; 27 studies) [29, 31‐33, 35, 36, 40‐42, 44‐48, 50, 52, 53, 55, 57‐65]. Following these, the domains of environmental context and resources (n = 22 interventions; 21 studies) [28‐30, 32, 34‐36, 38, 41, 44, 47, 48, 51‐55, 57, 59, 61, 64], social/professional role/identity (n = 22; 18 studies) [29, 30, 32, 35, 36, 40‐42, 45, 46, 48, 50, 53, 55, 58, 59, 62, 63], reinforcement (n = 16; 13 studies) [29, 32, 33, 41, 45, 47, 48, 52, 53, 55, 61, 63, 64], memory (n = 14; 13 studies) [29, 30, 32, 35, 41, 44, 47, 53, 54, 57, 59, 61, 64], social influence (n = 10; 8 studies) [28, 32, 35, 41, 52, 54, 55, 64] were often targeted. The only domain that was not targeted by interventions in the included studies was optimism. Table 4 provides a detailed mapping of interventions BCTs to TDF domains.

Many of the identified BCTs target more than one TDF domain according to Michie et al.’s guide (the Theory and Techniques Tool, https://​theoryandtechniq​uetool.​humanbehaviourch​ange.​org/​tool, [26, 27]). For example, 4.1 instruction on how to perform the behaviour maps to three TDF domains (knowledge, skills and beliefs about capabilities) meaning that using the BCT of 4.1 may help to overcome barriers at one or all three of these domains. Thus, where applicable, according to the Theory and Techniques tool, TDF domains that were frequently targeted together have been described together below. As stated in the methods, for this section of the synthesis, we have only reported a link between a BCT and mechanism of action where it has strong evidence. In cases where there were no links with strong evidence, we have reported that and cited the links with weak evidence (see the Theory and Techniques tool).

Searching up to February 1, 2021, we found 38 studies evaluating interventions designed to reduce unnecessary LBP imaging. Unlike previous reviews in this field, this review did not explore intervention effectiveness and instead, focused solely on developing an understanding of these implementation interventions designed to reduce LBP imaging. Thus, this review identifies what BCTs have been used to reduce LBP imaging for the first time and, through mapping these BCTs to corresponding TDF domains, provides unique insight into the interventions’ mechanisms of action.

This review highlights that the majority of studies in this field have used education to target the domains of knowledge, skills and beliefs about capabilities to bring about a change in LBP imaging behaviour. Just over half of the studies used reminders, decision tools or changes to the image ordering process to target the domain environmental context and resources. Lastly, for just over half of the studies, inconclusive evidence from the Theory and Techniques Tool suggests that by using feedback and reminders, studies will have targeted the domain of reinforcement, and through using materials from a credible source, will have targeted the domain of social/professional role and identity.

We utilised a comprehensive search strategy across a range of databases and included hand searching references from relevant articles to identify studies. Our primary analysis was guided by the validated and widely used BCT taxonomy, enabling readers to easily draw comparisons to other studies and build on the current work. Our secondary analysis was informed by the Theory and Techniques Tool, developed by international leaders in the field of behaviour change. We iteratively developed a BCT code book, detailing all coding assumptions and rules, to ensure consistency between coders and to provide transparency to readers. Lastly, we used at least two reviewers to code BCTs and TDF domains, utilising a third reviewer where needed to resolve any ambiguity or discrepancies.

While the search strategy we used was comprehensive and we did identify additional studies from hand-searching the references of other relevant systematic reviews, it is still possible that some studies were missed. Further, our conservative coding may have resulted in missing BCTs that more liberal coders may have included; better reporting of study interventions would have allowed us to more accurately capture all BCTs.

This review highlighted that nearly all study interventions were poorly designed, failing to use theory to inform intervention development and preventing assessments of fidelity and process outcomes. Despite international recognition that behaviour change interventions should be underpinned by theory, only 6 (21%) of our included studies could be classified as having utilised some element of theory to inform their intervention design. This finding is in line with a large systematic review that explored the use of theory in the design of guideline dissemination and implementation strategies [66]. Davies et al. found that only 22.5% of studies (n = 235) utilised theory in some way and noted there was inadequate justification for intervention choice [66]. A lack of theory in behaviour change intervention design has been reported in other fields, for example, a systematic review of interventions designed to improve self-management of LBP and arthritis found that only 12% of studies utilised theory [67]. These findings suggest that BCTs are frequently selected based on availability/ease of delivery/cost, as opposed to being actively selected to target known barriers to the behaviour. A recent systematic review synthesised 14 qualitative studies with physicians worldwide and found high-level evidence that 3 TDF domains influenced LBP imaging behaviour: (i) Social influence (patient demand), (ii) Beliefs about consequences (lack of ability to explain why an image is not needed) and (iii) Environmental context and resources (lack of time) [18]. However, we found less than a quarter of our included studies targeted Social influence and even fewer targeted Beliefs about consequences. Thus, highlighting the need to use more robust methods, guided by theory, to select BCTs that target LBP image ordering behaviour.