Cognitive Functional Therapy: An Integrated Behavioral Approach for the Targeted Management of Disabling Low Back Pain

Abstract

Biomedical approaches for diagnosing and managing disabling low back pain (LBP) have failed to arrest the exponential increase in health care costs, with a concurrent increase in disability and chronicity. Health messages regarding the vulnerability of the spine and a failure to target the interplay among multiple factors that contribute to pain and disability may partly explain this situation. Although many approaches and subgrouping systems for disabling LBP have been proposed in an attempt to deal with this complexity, they have been criticized for being unidimensional and reductionist and for not improving outcomes. Cognitive functional therapy was developed as a flexible integrated behavioral approach for individualizing the management of disabling LBP. This approach has evolved from an integration of foundational behavioral psychology and neuroscience within physical therapist practice. It is underpinned by a multidimensional clinical reasoning framework in order to identify the modifiable and nonmodifiable factors associated with an individual's disabling LBP. This article illustrates the application of cognitive functional therapy to provide care that can be adapted to an individual with disabling LBP.

Low back pain (LBP) is ranked globally as the leading cause of disability¹ that emerges during adolescence, escalating into adulthood.² Although for some LBP is self-limiting and not disabling, for many others LBP becomes disabling and distressing and negatively affects many aspects of daily life.³ Disabling low back pain (LBP)in the absence of serious pathology is best seen as neurobiological and behavioral responses to individuals’ actual and/or perceived threat to their body, lifestyle, or social circumstances and/or disruption to their homeostasis. This response is modulated by an array of changes across the neuroendocrine-immune-motor systems. These changes interact with, and are influenced by, different combinations of genetic, pathoanatomical, physical, psychological, social, lifestyle and other health factors that are largely unique for each individual, cannot be decoupled from each other, and vary at different life stages (Fig. 1). These interacting factors fluctuate temporally, influencing inflammatory processes, levels of pain perception, levels of distress, and behavioral responses.⁴ In this light, rather than being an “injury” related to tissue damage, an acute presentation of disabling LBP frequently presents as a pain “flare,” driven by a combination of multidimensional factors that yield pain as the output. With research displaying that the multiple factors at play in disabling LBP coexist, and are not separate entities, “boxing” patients into rigid subgroups on the basis of the clustering of common clinical features within a single domain could miss the crucial interrelationships between factors. Attempts to deal with complexity such as through classification and subgrouping systems has been criticized for being unidimensional, reductionist and failing to reflect the biopsychosocial nature of disabling LBP.⁵ Similar to nontargeted interventions, they neither target multiple aspects of an individual's pain experience nor individualize the targeting of such factors for each patient. Understanding these interacting processes demands a flexible multidimensional clinical reasoning framework, which allows the clinician to identify the various factors that can contribute to disabling LBP and act as targets for change in each individual.⁶ The framework considers both modifiable and nonmodifiable factors associated with an individual's disabling LBP experience. Rather than being a rigid subgrouping system, the framework provides clinicians with the opportunity to explore the multidimensional nature of disabling LBP through the context of the individual. The aims of this approach are to help individuals make sense of their pain within their own context and to develop an individualized management plan aligned with their personally relevant goals.

Multidimensional Factors Associated With Disabling LBP

Pain Characteristics

It is now widely acknowledged that the experience of pain is not simply an incoming message regarding tissue “damage” from the periphery. Instead, the pain experience reflects the person's assessment of how dangerous a particular input (eg, nociceptive input from an intervertebral disk) is, on the basis of not just the intensity of the input but also the person's prior experiences, beliefs, and contextual factors. Therefore, it is unsurprising that pain characteristics for individuals with disabling LBP are highly variable and fluctuate over time, reflecting the influence of different multidimensional influences on pain mechanisms.^7,8 A history of LBP is one of the strongest predictors for future disabling LBP, suggesting that these processes are ongoing for many people.⁹

Although subgrouping people into purely “central” or “peripheral” pain mechanisms does not reflect the individual and complex nature of disabling LBP,¹⁰ understanding that there is a spectrum of pain characteristics facilitates an understanding of the multidimensional interactions associated with an individual's presentation and helps guide management.¹¹ For some, pain is localized with a clear “mechanical stimulus–pain response” (ie, pain is momentarily provoked and relieved by specific spinal postures, movements and activities).¹² These features may reflect primarily peripherally mediated nociceptive processes linked to increased loading and reduced movement variability associated with provocative motor responses to pain^13,14 and/or learned associations between feared (threatening) activities or movements and nociceptive processing at a cortical level (Tab. 1: case 2).¹⁵ For others, pain may present as widespread or ill-defined, with a disproportionate mechanical stimulus–pain response (ie, amplified, inconsistent, and/or sustained pain responses to minor mechanical stimuli) (Tab. 1: case 3). The pain may be associated with sensitivity to pressure, cold, movement, and loading, reflecting primarily central nervous system amplification of nociceptive inputs.^12,16 For some with disabling LBP, there is an absence of clear reproducible clinical findings, when central pain mechanisms are likely to dominate¹⁶; whereas many present with a mixed pain picture (Tab. 1: case 1).

Pathoanatomical Factors

Disabling LBP is associated with specific spinal pathology such as a disk prolapse with radicular pain, neurological loss or cauda equina involvement in 5% to 10% of people.¹⁷ Although the natural history of disk prolapse and radicular pain for most people is favorable without surgical intervention,¹⁸ cauda equina symptoms and progressive neurology require urgent medical review. In most people with disabling LBP (90%–95%), a single pathoanatomical cause of the pain cannot be accurately determined.¹⁷ Although findings on magnetic resonance imaging (such as advanced multilevel disk degeneration and vertebral endplate changes) have a weak to moderate association with disabling LBP, they are increasingly prevalent in people who are aging and pain free¹⁹ and correlate poorly with levels of pain intensity and disability.²⁰ This information highlights the fact that even in the presence of nociceptive input, levels of pain, distress, and disability will vary according to an interplay of individual factors.²¹ The reporting of pathoanatomical findings can also increase patient concerns leading to anxiety and distress as well as iatrogenic disability if they are not communicated carefully.²² Although pathoanatomical factors might often be nonmodifiable, the considerable potential for some pathologies to resolve over time should also be communicated to patients.²³ Although consideration of specific pathology is important, it should be regarded as just one part of a multidimensional examination and clinical reasoning process (Tab. 1: case 1). This approach allows the clinician to view disabling LBP through a broad lens and yet not be overwhelmed by the breadth of factors considered.

Physical Factors

Levels, and patterns, of exposure to mechanical spinal loading linked to activities of daily living, work and/or sport, involving heavy and or repeated loading, awkward bending and twisting, are known to be associated with disabling LBP.^24,25 These interact with other factors such as habitual movement patterns, levels of conditioning, perceptions of fatigue, general health, and psychological factors, to increase the risk of pain.^26,27

Pain-related functional behaviors, on the other hand, are motor responses to pain, the threat of pain, and/or pain-related distress. These behaviors are commonly characterized by stiffer, slower, less variable and more guarded spinal movements,^28,29 higher levels of trunk muscle activity, and an inability to relax the back muscles during movements such as forward bending.³⁰ These responses may be protective and adaptive, for example, as sometimes observed in the presence of acute tissue pathology and/or traumatic injury. However, when they are disproportionate to the degree of trauma or tissue pathology or persist beyond tissue healing time, they are usually maladaptive, unhelpful and provocative.

The pain response to mechanical loading may differ between individuals.^14,31 For example some people may be sensitized to lumbar flexion (Tab. 1: case 1), extension (Tab. 1: case 2), side bending, or a combination of these.³²

There is also individual variability in the functional behaviors observed with these pain responses.^14,31 For example, pain provoked during sitting, forward bending, or lifting may be associated with the lumbar spine being actively braced into flexion or extension. In contrast, for others the same tasks may be associated with lateral movement and avoidance of loading the painful side. For some, these pain-related functional behaviors present as subtle movement and postural changes linked to pain during functional tasks. However, with high levels of pain-related distress and disability these often manifest as overt safety behaviors (eg, propping up with the hands and avoidance of loading a limb or spinal movement, repetitive touching, or “checking” the pain) and communicative behaviors (eg, grimacing and wincing) (Tab. 1: case 1).⁶ Sympathetic nervous system responses are also observable in some (eg, rapid apical breathing, high levels of muscle tension, flickering eyelids, sweating, and restlessness) in distressed individuals and/or when confronted with feared tasks (Tab. 1: case 3).³³ These pain-related functional behaviors are linked to factors such as pain-related fear and distress, degree of tissue sensitivity,³² and altered body perception, highlighting the close body-mind relationship.³⁴

Psychological Factors

There is a growing body of evidence that psychological factors, both cognitive and emotional, influence pain processing, perceptions, levels of pain-related distress, and coping responses. Table 2 shows a list of clinician prompts and quotes from patients with disabling LBP illustrating common psychological factors. The individual nature of these factors is observed in Table 1 (cases 1, 2, and 3).

Cognitive factors reflect the thoughts that individuals have about their pain or other aspects of their life. These may include negative explicit and implicit beliefs about disabling LBP,^35,36 its meaning, and future consequences.³⁷ For some, disabling LBP is associated with catastrophic thoughts, characterized by a fixation on pain that can take the form of hypervigilance and rumination, magnification of its threat, and adoption of an outlook of helplessness.³⁸ Low levels of self-efficacy (lack of confidence in performing pain-provoking or threatening activities) are often linked to these negative cognitions.³⁹ Many negative cognitions originate from encounters with health care practitioners.^40,41 They may also be associated with an underlying negative emotional response linked to behavioral conditioning and unhelpful parental responses to pain, as well as cultural and societal attitudes.⁴²

Emotional factors reflect an individual's feelings, which may be driven by underlying pain cognitions, contextual social stressors, and/or comorbid mental health issues.^43,44 Fear is a common emotional response to pain when it is linked to beliefs regarding tissue damage and/or fear of pain and suffering.³⁷ Levels of fear are closely related to perceptions of pain controllability, predictability, and intensity. Negative emotional factors may also include high levels of perceived stress and negative responses to social stressors; anxiety about pain; depressed mood linked to the loss of functional capacity and quality of life; and heightened levels of frustration, anger, and perceived injustice.³

Negative cognitions and emotional distress are often associated with pain amplification and unhelpful coping responses leading to disability. For some, coping responses are associated with avoidance of work, social situations, recreation, specific postures, movements, and valued activities.^45,46 Others persist with pain-provoking, desired activities in spite of escalation of pain and distress,^47,48 while adopting guarded and provocative functional behaviors. However, many people present with a mix of these 2 different coping responses leading to a “boom-bust” cycle of pain persistence and avoidance.

Social Factors

Historical and contextual social factors and associated levels of distress are also known to affect disabling LBP.⁴⁹ These may include cultural and societal conditioning factors (eg, family history of disabling LBP, socioeconomic status, and education); exposure to stressful life events and situations (eg, abuse, financial hardship, poor family functioning, negative work relationships, and being engaged in litigation about disabling LBP), or unhelpful relationships (eg, punishing or solicitous).^50,51 Depending on the individual's life story, social factors may not be modifiable, but their contribution to pain should be discussed with the individual to increase understanding of their role.

Lifestyle Factors

Lifestyle factors are known to be important in disabling LBP and to be involved with other domains. Sleep problems and disabling LBP are highly comorbid. Poor sleep predicts the development or worsening of disabling LBP, and disabling LBP predicts sleep problems.^52,53 Sleep also influences other domains, such as psychological well-being/emotional distress.⁵⁴ disabling LBP may be linked to poor sleep habits and/or pain-disrupted sleep.

There is a U-shaped relationship between physical activity and disabling LBP, with both low levels of physical activity/sedentary behaviors (ie, < 90 min/wk) and high levels of physical activity (ie, > 100 minutes of vigorous activity per day) having a relationship with disabling LBP.^55,56 Low levels of physical activity and sedentary behavior can negatively affect inflammatory processes as well as physical deconditioning and bone health.⁵⁷ There is also growing evidence for the role of lifestyle factors linked to abdominal obesity in disabling LBP, influencing both loading and inflammatory processes.^58,59 There is also evidence that smoking is an independent risk factor for LBP, although the association is modest and the exact mechanism is unclear.⁶⁰

General Health Factors

Health comorbidities strongly influence disability levels, as well as providing barriers to management that may require special consideration. They may reflect shared neuroendocrine-immune mechanisms, for example diagnosed mental health disorders, sleep apnea, comorbid pain problems, obesity, and “nonspecific” health complaints such as fatigue, insomnia, and irritable bowel syndrome.⁶¹

Cognitive Functional Therapy (CFT): Assessment and Treatment

CFT is an integrated behavioral approach for individualizing the management of people with disabling LBP once serious (eg, malignancy, infection, inflammatory disorder, and fracture) and specific pathology (eg, nerve root compression with progressive neurological deficit with or without cauda equina symptoms) has been excluded. Cognitive functional therapy was developed as a flexible, integrated behavioral approach for individualizing the management of disabling LBP.⁶² Although CFT for disabling LBP is the focus of this article, the principles of CFT can be applied for many people with LBP (Fig. 2). It uses a multidimensional “clinical reasoning framework” to identify key modifiable targets for management on the basis of careful listening to the individual's story and examining the individual's behavioral responses to pain. This approach enables the treating clinician to take individuals on a journey to effectively self-manage their disabling LBP with a program that is tailored to their unique clinical presentation and context.

Although some of the language used to describe CFT in this article has evolved, the fundamental components of the intervention remain the same. For example, previously we described CFT^63,64 as 4 interrelated components, whereas in this article we have changed the language to better reflect the therapeutic processes we perceive to be important and have condensed these to 3 components. Component 1, formerly “cognitive training,” we now call “making sense of pain,” as we perceive the importance of sense-making processes in facilitating a mind-set change in people with pain.⁶⁵ Component 2, “functional movement training,” and component 3, “functional integration,” have been combined and renamed “exposure with control,” as we understand the process of change that occurs is best reflected in this manner.⁶² Component 4, “physical activity and lifestyle training,” is now simplified to “lifestyle change.” Our earlier work also placed more of an emphasis on subgrouping movement patterns, whereas we have shifted toward an individualized multidimensional understanding of disabling LBP,¹⁰ in which movement behaviors are just 1 component to consider in a person's presentation. Hence, we have dropped “classification based” before the name CFT to align with this idea.

Three illustrative cases are presented to demonstrate how the clinical reasoning framework can be applied to different individuals with disabling LBP in order to individualize CFT to their unique presentation (Tab. 1). The radar graphs (Fig. 3) provide a simple visual representation of the multidimensional complexity of these cases on the initial examination and how this changes across a CFT intervention.

Therapeutic Alliance

Central to CFT is a strong therapeutic alliance, underpinned by a motivational approach and characterized by open, reflective, empathetic, and validating communication.⁶⁶ It facilitates disclosure, reinforces positive health behaviors, and encourages reflection on discrepancies in beliefs and behaviors while “rolling with resistance” (ie, avoiding direct head-on arguments or forcing suggestions on a person) when rigid beliefs dominate in order to avoid unhelpful conflict. Individual factors, such as cultural setting, treatment expectations and preferences, health literacy, levels of acceptance, and readiness for change, are also considered in order to provide care that is tailored to the person's unique presentation and context.

Interview

Prior to the interview, having individuals with disabling LBP complete a body pain chart and a multidimensional screening questionnaire can provide valuable insight into their perception of their pain.⁶⁷ Although we do not use them as a stand-alone stratification tool, a questionnaire can provide an opportunity to explore pain beliefs and emotional responses to pain in the interview.

The interview then begins with an open question, such as “tell me your story,” allowing individuals to disclose in their own way how they make sense of their pain. Sensitive, nonjudgmental questioning and careful prompting facilitate disclosure of various dimensions, including:

1. Pain history and the presence of contextual factors (eg, social, cognitive, emotional, physical, lifestyle, and health) around the time pain began. This aspect of the interview helps differentiate acute LBP associated with a traumatic loading event from minor mechanical triggers or an insidious pain onset. This item is important so that the latter are not treated and communicated as an injury.

2. Pain provocation and easing responses to posture, movement, load, and rest in order to determine any mechanical stimulus–pain response patterns.

3. Individuals’ schema about their pain, including beliefs regarding the cause of their pain, its future time course, pain controllability, predictability, and severity. Radiological imaging findings are reviewed and discussed, especially if they reinforce negative beliefs.

4. Emotional responses to pain, such as fear and pain-related distress, and current social context.

5. Behavioral responses to pain, including strategies for coping with pain, avoidance and/or persistence, protective guarding, postural and movement habits, and lifestyle.

6. Painful, feared, and avoided valued functional activities are clearly identified.

7. General health, levels of fatigue, and health comorbidities and their relationships to pain and disability.

8. Perceived barriers to engaging in a healthful lifestyle.

9. Personally relevant goals, perceived barriers to achieving goals, and expectations.

At the end of the interview the clinician summarizes the story to check its validity.

Functional Behavioral Assessment

The behavioral assessment is directed toward the valued functional tasks (spinal postures, movements, and activities) nominated during the interview as being painful, feared, and/or avoided.

During this process, careful observation is made of the behavioral strategies adopted during these functional tasks, including the presence of safety and communicative behaviors and sympathetic responses. When these tasks involve loading activities, physical conditioning (strength and endurance) is also considered. Palpation is performed during these tasks to assess levels of tissue sensitivity, trunk muscle guarding, and respiratory patterns. Individuals are questioned regarding their beliefs, feelings, body perceptions, and pain responses while performing these tasks. This approach facilitates assessment of the individual's sensitivity profile (ie, pain responses to palpation, posture, movement, and load).

These observations then form the basis of a series of guided behavioral experiments. These guided experiments explicitly seek to reduce sympathetic responses and abolish safety and communicative behaviors (via relaxed diaphragmatic breathing, body relaxation, awareness, and control), prior to and while gradually exposing individuals to their feared, avoided, and painful tasks. Exposure in individuals who are highly fearful may include visualization before performance of the actual task. This approach is assisted with the use of visual feedback (eg, mirrors, video, and clinician demonstration) and clinician-directed, hands-on feedback using key points for body control and/or relaxation (eg, the legs, pelvis, thorax, and head). Consideration is also given to a person's directional pain responses to movement in order to facilitate exposure of valued and avoided activities in a less pain-provoking manner, when possible (cases 1 and 2). During this process, pain reduction is commonly reported.

During these guided behavioral experiments, attention is brought to discrepancies between pain expectations and actual pain experiences in order to disconfirm the individual's belief that movement is threatening and should be avoided. This approach powerfully demonstrates to the individual that moving and loading the spine without protection and avoidance is safe and that pain responses are controllable. It also provides an opportunity to reflect on the resilience and strength of the spine, and highlights a pathway for achieving valued goals. These experiments provide a powerful experiential learning opportunity for the individual and clear directions for management. Care is taken not to cause undue escalation of pain, emotional distress, or sympathetic responses in this process, so as not to reinforce the belief that pain escalation and functional activation are coupled and uncontrollable.

The process can elicit strong emotional responses, anxiety, and occasionally panic. It is important for the clinician in these situations to remain calm and empathetic, acknowledge the individual's distress, reflect on its origin, and reinforce the safety of the individual.

Table 1 illustrates how the examination process was adapted in 3 individuals with different clinical presentations.

CFT for the Management of Disabling LBP

On the basis of the examination, both nonmodifiable and modifiable factors that contribute to the individual's pain, distress, and disability are identified. Some of these factors may act as barriers to recovery, necessitating interdisciplinary care in conjunction with CFT.⁶⁸ Four examples are pain management, including pharmacology, when pain levels are distressing, uncontrollable, and disrupting sleep; medical management in the presence of health comorbidities (eg, diabetes and sleep apnea); psychiatric and/or psychological management of major depressive disorders, posttraumatic stress disorder, or high levels of social stress; and dietary and psychological support when morbid obesity is present.

CFT Intervention

The primary aims of CFT are to enable the treating clinician to take individuals on an individualized journey to:

1. Help them “make sense of their pain” from a multidimensional perspective and within the context of their own story.

2. Develop effective pain control strategies by challenging negative cognitions and emotional responses to pain and modifying how they physically perform tasks (via body relaxation and extinction of safety behaviors) in order to achieve valued goals.

3. Adopt healthy lifestyle behaviors.

This clinical journey is adapted to the individual's multidimensional profile (illustrated in Tab. 1 and Figs. 3 and 4). The following broadly outlines the various components of CFT.

Making sense of pain

The process of making sense of pain is reflective and uses individuals’ own story, words, and metaphors combined with their experiences during the guided behavioral experiments to disconfirm their previously held beliefs and provide a new understanding of their pain. This process outlines—in a nonjudgmental way—how contextual factors, negative pain beliefs, and unhelpful emotional and behavioral responses set up a vicious cycle of pain, distress and disability. This vicious cycle in turn acts as a barrier to achieving valued goals. This information is written down and discussed in a collaborative and reflective manner. During this process, different aspects of the schema are discussed while reinforcing the structural integrity of the spine and the meaning of radiological imaging.⁶⁹ The individuals are then asked to reflect on what they could do to break this vicious cycle in order to reach their valued goals. Through this process, clear and realistic self-motivated strategies for behavioral change directed to their personally relevant goals are identified. Online resources^70,71 and patient stories⁷² are also provided to facilitate this learning process.

Exposure with control

Exposure with control is a process of behavioral change through experiential learning, in which sympathetic responses and safety behaviors that manifest during painful, feared, or avoided functional tasks are explicitly targeted and controlled.⁶² This approach enables individuals to gradually return to their valued functional activities without pain escalation and associated distress. This process is underpinned by the guided behavioral experiments from the examination, and with consideration of the individual's levels of distress, tissue sensitivity profile (eg, with exaggerated pain responses to minor mechanical stimuli, this process is more gradual), and levels of conditioning. This process powerfully disconfirms fear-avoidance beliefs while reinforcing that valued activities can be safely confronted when performed without safety behaviors and reduced pain vigilance.

For example, prior to exposure, when pain is constant and associated with high levels of emotional distress and sympathetic responses, some strategies that are implemented include targeted body relaxation, slow diaphragmatic breathing and body scanning (Tab. 1: case 3). Once body relaxation and emotional regulation have been achieved, the individual is gradually exposed to movements or activities that they nominated are painful, feared, or avoided. During this process, body control is focused away from pain and toward key points, such as the lower limbs, pelvis, thorax, and head. Pain reduction is frequently reported during this process, disconfirming previously held beliefs that functional activation will result in pain escalation, functional loss, and harm (Tab. 1: cases 1 and 2). Targeted functional conditioning is provided when there are deficits in muscle strength and endurance that act as barriers to achieving personally relevant goals (Tab. 1: case 1). When pain control is not achievable during this process, the focus is placed away from pain and toward body relaxation, replacing safety behaviors while achieving personally relevant functional and lifestyle goals.

These new functional strategies are immediately integrated into activities of daily living in order to generalize the learning and build self-efficacy during these tasks. These are gradually progressed on the basis of the individual's personally relevant goals, level of conditioning, and perceived control over pain. Individuals are initially seen weekly for 2 or 3 sessions, after which sessions are extended to every 2 or 3 weeks in order to build confidence to self-manage over a 12-week period.^62–64 During this process, pain flares are seen as an opportunity for reinforcing new ways to respond to pain without safety behaviors and avoidance. An exacerbation plan is provided on discharge in order to positively orientate the individual's emotional and behavioral responses to pain, and booster sessions may be required beyond this time if pain again becomes uncontrollable, distressing and/or disabling.

Rather than being prescriptive, CFT is reflective, in that the individual is encouraged to find new strategies to respond to pain and perform valued activities with confidence and without pain vigilance. Feedback is central to this process. Reinforcement is provided through clear and simple verbal and written explanations and clinician demonstrations. Visual feedback using mirrors and video is used to highlight discrepancies between the actual versus perceived body. Hands-on feedback is used to validate individuals’ pain experience; challenge beliefs that their spine is structurally vulnerable; provide feedback regarding tissue sensitivity, sympathetic responses, and protective muscle guarding; and decrease fear of pain and movement. However, hands-on feedback is never used to promote passive dependence or unhelpful structural beliefs.¹⁰ The emphasis of hands-on feedback should be a minimal part of sessions, as it could dilute the effect of more active approaches or reduce the priority people place on active self-management.

Lifestyle change

Unhelpful lifestyle factors, discussed as part of making sense of pain, form a central part of CFT when relevant. Individually designing^73,74 of the exercise program—such that physical activity is based on preference, linked to personally relevant goals, includes home exercise^73,74 and considers cost, accessibility issues, and social engagement to encourage enduring behavior change—is implemented. When the person is highly sensitized and has difficulties in self-regulation, this approach may be directed in a graduated, time-contingent manner. If safety behaviors are present during these activities (eg, muscle guarding and/or movement avoidance) a focus is placed on relaxed “normalization” of movement. When an activity is still associated with a distressing escalation of pain, a less provocative activity may first be selected and gradually progressed toward the activity of preference. For those with high levels of sedentary behaviors, activity scheduling is explored. When boom-bust patterns of overactivity and underactivity are present, activity diaries may be beneficial. All individuals are informed of the health-enhancing systemic effects in line with their story (eg, effect of mood and sleep).

Sleep deficits and disturbance may be addressed in a variety of ways on the basis of how they affect people's pain experience, as identified during the interview and examination (eg, poor sleep hygiene, worries about their back and/or life, postural beliefs, pain with rolling, and comorbid sleep apnea). For example, in the case of poor sleep hygiene, ways of engaging in healthful sleep habits are explored (eg, establishing a daily routine and reducing use of electronics in bed). Sleep disturbance due to pain, worry, or stress may be addressed with exploring the influence of body relaxation, breathing regulation, guided meditation techniques, and engaging in physical activity. When sleep is affected by postures and movement in bed, specific training of rolling and posturing in bed in a relaxed manner is explored (Tab. 1 and Fig. 3: cases 1 and 2).

Efficacy of CFT

Different aspects of this multidimensional clinical reasoning framework have shown substantial reproducibility between trained clinicians.^75,76 CFT has shown long-term superior efficacy to physical therapist–led exercise and manual therapy in a randomized trial.⁷⁵ Further research is under way to assess CFT in different geographical settings and to compare it to different interventions.⁷⁷

Qualitative data and case studies support that people benefiting from CFT report that they have a changed mind-set toward a more multidimensional understanding of their pain, experience increased pain controllability and enhanced self-efficacy about achieving functional and lifestyle goals.⁷⁸ Although the mediators of change are not yet known, they are likely to be multidimensional reflecting both central and peripheral processes.

Skills Required to Implement CFT

CFT requires specific skills across a number of domains (Fig. 4) as well as a contextual understanding of foundational behavioral psychology and neuroscience. These requirements can seem daunting for clinicians trained to primarily consider physical and pathoanatomical factors and provide passive treatments for the management of disabling LBP.⁷⁹ Communication skills are required to sensitively explore across the multiple domains and facilitate a strong therapeutic alliance, build self-efficacy, and promote behavior change. Clinical reasoning skills are required to triage the individual patient and synthesize multidimensional data. Observational skills are needed to analyze functional and safety behaviors. Hands-on feedback and movement reeducation skills are required to perform guided behavioral experiments and effectively teach functional behavior change strategies. Confidence is required to discourage safety behaviors, while reintroducing the individual to threatening movements or activities. Understanding that LBP is a common protective response influenced by multidimensional factors rather than a sign of damage, that the spine is a resilient structure, that hurt does not equal harm, that movement and activity are helpful, and that pain and associated behaviors are commonly modifiable, is central to this process. Barriers for clinicians adopting this approach relate to their sense of competence and confidence to deal with psychosocial factors,⁷⁹ time constraints within their clinical setting, privacy for sensitive conversations, and a shift away from providing passive therapies to treat pain. Although it is common that clinicians feel that people with disabling LBP expect passive therapies, at long-term follow-up a greater proportion of people who received CFT were highly satisfied with care than those who received traditional manual therapy and exercise approaches.⁶³ The barriers for clinicians are similar to those for people with disabling LBP, highlighting that a mind-set shift is also needed in public attitudes and understanding of disabling LBP outside the clinic, such as in the media, schools, sporting clubs, and work environments.

Physical therapists who have been trained to broaden their skill set toward a multidimensional approach to pain report positive changes to their clinical practice and greater confidence to deal with psychosocial factors and complex cases.⁸⁰ Although an average of 100 hours of training, including supervised clinical sessions was reported in the Norwegian trial,⁶³ ongoing research is investigating the level of training required to be effective.

Conclusion

CFT is a flexible integrated behavioral approach for individualizing care for people with disabling LBP. It is based on a multidimensional clinical reasoning framework designed to identify and target modifiable factors that drive pain, pain-related distress, and disability. CFT takes individuals with disabling LBP on a clinical journey that provides a multidimensional understanding of their pain within the context of their own story. In addition, pain and behavioral control strategies are used to allow individuals to return to valued functional activities and healthful lifestyle behaviors. The aim of this process is to build self-efficacy to break the cycle of pain-related distress and disability. CFT can be integrated with interdisciplinary care when indicated. We consider that this approach is also applicable across a range of other painful musculoskeletal disorders.

Author Contributions

Concept/idea/research design: P. O’Sullivan, J.P. Caneiro, M. O’Keeffe, A. Smith, W. Dankaerts, K. Fersum, K. O’Sullivan

Writing: P. O’Sullivan, JP. Caneiro, M. O’Keeffe, A. Smith, W. Dankaerts, K. Fersum, K. O’Sullivan

Consultation (including review of manuscript before submitting): P. O’Sullivan, JP. Caneiro, M. O’Keeffe, K. O’Sullivan

Disclosures

The authors completed the ICMJE Form for Disclosure of Potential Conflicts of Interest and reported no conflicts of interest. P. O’Sullivan, JP Caneiro, W. Dankaerts, K. Fersum and K. O’Sullivan reported payment made to them for lectures including service on speakers bureaus for running workshops on cognitive functional therapy (CFT).

References