Commentary

Clinical observations of adolescent chronic pain with coordination difficulties: Physical and psychosocial implications

Heidi Kempert, Lauren Nelson, and Rachel Heines

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Introduction

Chronic pain is prevalent in 5% to 38% of the pediatric population (Martin & Zeltzer, 2018) costing $19.5 billion annually in the US (Groenewald et al., 2014). The chronic pain experience is impacted, or exacerbated, by biological, psychological, individual, social, and environmental factors (Carter & Threlkeld, 2012). A biopsychosocial model is recommended to understand and guide treatment of chronic pain. At this time, little research has documented the effects of physical comorbidities associated with chronic pain, such as developmental coordination disorder (DCD). A review of the literature suggests many similar traits impacting both those with chronic pain and those with DCD (see Table 1). The aim of this commentary is to provide a brief overview of coordination disorders, explore their potential relevance to and overlap with chronic pain, and present potential research questions to further investigate how these conditions may relate.

Table 1
Similar traits impacting chronic pain and Developmental Coordination Disorder

Developmental coordination disorder and chronic pain

Developmental coordination disorder (DCD) is the most common diagnosis used to describe children with motor difficulties (Gibbs et al., 2007). DCD affects 2% to 6% of the population (Crane, et al., 2017; Harrowell et al., 2017) and 6% to 10% of all school-aged children (Dewey et al., 2002; Timler et al., 2016). It is a chronic neurological disorder affecting movement planning and coordination due to brain messages being inaccurately transmitted to the body. Adolescents with DCD struggle to perform everyday motor-based tasks at an age-expected level, and deficits persist despite opportunities to acquire and develop the skills (Campbell et al., 2012). DSM-V now classifies DCD not just as a learning disorder, but a neurodevelopmental disorder, with onset of symptoms during early childhood development (American Psychiatric Association, 2013). Criteria for DCD compares individuals to their peer group in the following areas:

• Below average acquisition and execution of motor coordination skills.
• Functional limitation in activities of daily living (ADL), academics, leisure, and play.
• Motor deficits that are not related to intellectual disability, visual impairment, or neurological disorders.

Many adolescents demonstrate a wide range of coordination deficits that impact movement and function; however, most do not fully meet the criteria for a formal diagnosis of DCD, or the available assessments are not sensitive enough to detect the impairments for those with suspected DCD. In these cases, it is common that further difficulties develop or appear later in adolescence or young adulthood causing functional issues (i.e. impairments in ADLs, school participation, social interactions, and leisure activities). Adolescents with DCD or features of DCD have been found to have significantly poorer scores on attention and learning, higher levels of social problems, and higher levels of somatic complaints (e.g. general aches and pains, reports of headache, nausea, or stomachache, fatigue). Similarly, adolescents with chronic pain tend to have these types of comorbidities (Tegethoff et al., 2015), and the addition of DCD may further exacerbate their chronic pain or pain-related disability.

Assessments

Ideally, a simple and consistent means to identify a wide range of coordination issues via standardized assessments for adolescents would exist; however, at this time there is an absence of a gold standard (Crawford et al., 2001; Hands et al., 2015). Currently, few coordination assessments exist specifically for the adolescent population that effectively capture the DCD diagnosis, especially at the mild end of the diagnostic continuum. Current assessments commonly utilized by physical and/or occupational therapists can be found in Table 2. Although a number of assessments exist for younger children, each has limitations based on age, abilities covered, time required, or areas of focus.

Table 2
Physical and occupational therapy coordination assessments

Clinical observations and associated implications

Adolescents with chronic pain struggle to participate in daily activities including functional mobility, school attendance, and participation in social and leisure skills. These difficulties are believed to be caused by pain and deconditioning and also could be exacerbated by coordination deficits. Anecdotally, the authors — a physical therapist (RH), a physical therapy assistant (HK), and an occupational therapist (LN) - have noticed that a number of adolescents with chronic pain in their care also demonstrate coordination deficits that impact performance of therapeutic activities and program participation. These deficits include poor proprioception, poor motor planning, decreased organizational skills and awareness, and limited body awareness. Psychologically it also seems that they report less social interaction and poor self-esteem regarding abilities. Case examples to highlight clinical observations can be viewed in Appendix A. Following the biopsychosocial model of pain, our observations and associated implications can be broken down into physical factors, psychological and emotional factors, and school and social factors (see Table 1).

Physical factors

Adolescents with chronic pain present with physical symptoms that limit function including variable and widespread pain, decreased physical functioning, sedentary lifestyle, decreased physical and leisure activity, deconditioning, decreased body awareness, and obesity (Wilson et al., 2010; Ferreira-Valente et al., 2014; Clauw et al., 2019; Kichline et al., 2019). Similarly, adolescents with DCD present with physical factors including widespread pain, heightened pain level perception, higher muscle tone, sensory deficits, decreased motor planning and body awareness, and deconditioning (Fong et al., 2011; Campbell et al., 2012; Stray et al., 2013; Timler et al., 2016; Crane, 2017). Many commonalities exist in the physical presentations of adolescents with chronic pain and DCD. When trialing various standardized assessments (as seen in Table 2) to evaluate adolescents suffering from DCD or chronic pain, the scores are typically unremarkable as the tests are designed to detect impairments in those with the most severe coordination deficits. Despite unremarkable performance on the assessments, they often demonstrate difficulty with motor planning and coordination tasks during therapy sessions (e.g. floor ladder, bilateral coordination skills, picking up of new physical activities they have not learned prior). Therapists working with youth with comorbid chronic pain and developmental coordination issues observe difficulty with motor planning, increased time and cuing required to master a task compared to peers, changes in pace or technique, and visible frustration with tasks.

Psychological and emotional factors

Adolescents with chronic pain also have been found to have significant psychological and emotional factors that impact function including psychosocial issues, internalized problems, mood impairments, adjustment issues, and decreased social support (Youssef et al., 2008; Carter & Threlkeld, 2012; Ferreira-Valente et al., 2014; Clauw et al., 2019). Psychosocial factors may negatively or positively impact function and pain in children and adolescents with chronic pain. Common symptoms include frequent catastrophizing cognitions, poor coping response, beliefs of disability, and poor social support (Jensen et al., 2011). Similarly, adolescents with DCD have been identified as being at risk of social, emotional, and behavioral problems (Piek et al., 2006). Adolescents with DCD report lower perceptions of scholastic competence, athletic competence, physical appearance, behavioral conduct, and have poorer social and emotional outcomes (Dewey et al., 2002; Harrowell et al., 2017). As part of the associated emotional difficulties, adolescents with DCD report lower self-perception and self-esteem in comparison with adolescents without DCD. They also report feeling that they have reduced competency, or ability, and higher levels of anxiety than their peers (Skinner & Piek, 2001). Literature has revealed a link between psychosocial issues and poor motor skills, specifically, a link between internalizing problems (anxiety, depression, and problematic behaviors) and motor skills. Adolescents with DCD demonstrate less enjoyment in daily activities, less social support and social skills (i.e. social isolation), and victimization (Cairney et al., 2013; Mancini et al., 2016).

School and social factors factors

Finally, chronic pain contributes to impaired school functioning in multiple domains. Adolescents with chronic pain struggle with school-related function as noted by poor school attendance, decreased socialization, poor academic performance, poor concentration, low self-esteem, reported lower school self-concept, and mood and behavior concerns (Turk et al., 2016; Jastrowski Mano, 2017; Logan et al., 2017). Similar concerns are noted with the DCD population. A study by Dewey and colleagues (2002) identified that those with movement problems are at risk for future problems (as adolescents) with school functioning including attention, learning, and psychosocial adjustment. The mechanisms that lead to worsened mental health outcomes are not well understood; however, it seems that DCD can be a primary stressor, especially in a school environment, and leads to multiple secondary stressors (e.g. negative peer relationships, bullying, low self-esteem). In addition, those with poor motor coordination demonstrated more impulsivity, poorer social communication, lower self-esteem, lower IQ, and lower reports of friendship or social supports (Harrowell et al., 2017).

Discussion and conclusion

Those with chronic pain and DCD demonstrate similar characteristics and difficulties regarding physical factors, psychological and emotional factors and school and social factors. If left unaddressed, there is potential for worse long-term functioning. In addition, while the implications of each condition alone are similar, the comorbidity of both diagnoses may lead to a more challenging treatment course. It is important to understand and address the contributions of each of these factors to overall function. From clinical observations, we hypothesize that many adolescents with chronic pain may have demonstrated prior coordination deficits that act as a primary stressor in the biological component of the biopsychosocial model. If the coordination deficits are not properly addressed, we believe patients may experience exacerbation of pain and reduced function. This hypothesis falls in line with the environmental stress hypothesis that primary stressors can cause adversity in childhood and adolescence which leads to psychological distress (Cairney et al., 2013; Mancini et al., 2016). For example, an adolescent with coordination issues may develop abdominal pain secondary to stress when, compared to peers with appropriate motor skills, they cannot keep up with more advanced activities in gym class or at sports practice. An adolescent with chronic pain and poor body awareness/motor planning abilities may be at higher risk for psychosocial issues and may experience increased difficulty returning to age appropriate functioning. In addition, without appropriate services to manage the underlying issues, an adolescent with DCD may be at a higher risk to sustain a mild acute injury, such as pulling a muscle or spraining a limb, which can perpetuate the cycle of chronic pain and poor functioning. It is also our experience that when adolescents with chronic pain experience an acute injury it tends to result in more significant symptoms and a longer than anticipated healing process. It is necessary to find new ways for home providers, schools, families, and clinicians to identify these problems and address them early before these adolescents experience worsening of symptoms across all domains of the biopsychosocial model and fall into a refractory cycle of poor functioning.

Lastly, because treatment of complex chronic pain is recommended to be provided by intensive interdisciplinary pain treatment (IIPT) services it is important to note that DCD as a comorbid condition may negatively impact active participation in treatment of chronic pain. Age appropriate cognition and focus, organizational skills, body awareness, and motor planning are all necessary skills for participation in a comprehensive pain management service such as IIPT. Clinically, it seems that adolescents in our program, who may also have DCD or suspected DCD, struggle with overall participation without additional cuing and prompting from staff. These factors are also important from a physical and occupational therapy perspective in understanding how challenging therapeutic activities may exacerbate stress, therefore increasing pain or impacting overall functioning during the program.

This commentary leaves us with some ongoing questions: (1) How can we best identify and treat adolescents with coordination difficulties more thoroughly and consistently? (2) How can we more specifically treat psychosocial variables secondary to both chronic pain and coordination disorders to prevent exacerbation of chronic pain in various settings? (3) What other assessments should/could we use to address both the physical and psychosocial aspects of coordination difficulties/disorders associated with chronic pain? (4) How could disciplines better collaborate when working with adolescents identified with chronic pain and various coordination issues earlier on to prevent long-term internalization problems, poor function, and worsening of chronic pain?

Cite as: Kempert H, Nelson L, Heines R. Clinical observations of adolescent chronic pain with coordination difficulties: Physical and psychosocial implications. Pediatric Pain Letter 2019;21(3):40-48. www.childpain.org/ppl 

Note: In both cases, when provided with a new, less familiar, or more challenging physical task we see difficulty with accuracy of the task, an increase in pain complaints, decreased engagement, more avoidance behaviors (e.g. asking extra questions, needing additional breaks), and a decrease in functioning following more stressful activities.

References

American Psychiatric Association. Diagnostic and statistical manual of mental disorders (5th ed.). Arlington, VA: American Psychiatric Association, 2013. Link

Brantner S, Piek JP, Smith LM. Evaluation of the validity of the MAND in assessing motor impairment in young children. Rehabil Psychol 2009 Nov;54:413-421. PubMed Abstract

Brown T, Lalor A. The Movement Assessment Battery for Children—Second Edition (MABC-2): a review and critique. Phys Occup Ther Pediatr 2009;29:86-103. PubMed Abstract

Cairney J, Rigoli D, Piek J. Developmental coordination disorder and internalizing problems in children: the environmental stress hypothesis elaborated. Dev Rev 2013;33:224-238.

Campbell WN, Missiuna C, Vaillancourt T. Peer victimization and depression in children with and without motor coordination difficulties. Psychol Sch 2012;49:328-342.

Carter BD, Threlkeld BM. Psychosocial perspectives in the treatment of pediatric chronic pain. Pediatr Rheumatol Online J 2012 Jun 7;10:15. PubMed Abstract

Clauw DJ, Essex MN, Pitman V, Jones KD. Reframing chronic pain as a disease, not a symptom: rationale and implications for pain management. Postgrad Med 2019;131:185-198. PubMed Abstract

Crane L, Sumner E, Hill EL. Emotional and behavioural problems in children with Developmental Coordination Disorder: exploring parent and teacher reports. Res Dev Disabil 2017;70:67-74. PubMed Abstract

Crawford SG, Wilson BN, Dewey D. Identifying Developmental Coordination Disorder: consistency between tests. Phys Occup Ther Pediatr 2001;20:29-50. PubMed Abstract

Deitz JC, Kartin D, Kopp K. Review of the Bruininks-Oseretsky Test of Motor Proficiency, Second Edition (BOT-2). Phys Occup Ther Pediatr 2007;27:87-102. PubMed Abstract

Dewey D, Kaplan BJ, Crawford SG, Wilson BN. Developmental Coordination Disorder: associated problems in attention, learning, and psychosocial adjustment. Hum Mov Sci 2002;21:905-918. PubMed Abstract

Ferreira-Valente MA, Pais-Ribeiro JL, Jensen MP. Associations between psychosocial factors and pain intensity, physical functioning, and psychological functioning in patients with chronic pain: a cross-cultural comparison. Clin J Pain 2014;30:713-23. PubMed Abstract

Fong SS, Lee VY, Pang MY. Sensory organization of balance control in children with developmental coordination disorder. Res Dev Disabil 2011;32:2376-2382. PubMed Abstract

Gans BM, Haley SM, Hallenborg SC, Mann N, Inacio CA, Fass RM. Description and interobserver reliability of the Tufts Assessment of Motor Performance. Am JPhys Med Rehabil 1988;67,202-210. PubMed Abstract

Gibbs J, Appleton J, Appleton R. Dyspraxia or developmental coordination disorder? unravelling the enigma. Arch Dis Child 2007;92:534-539. PubMed Abstract

Goodman R. Psychometric properties of the Strengths and Difficulties Questionnaire. J Am Acad Child Adolesc Psychiatry 2001;40:1337-1345. PubMed Abstract

Groenewald CB, Essner BS, Wright D, Fesinmeyer MD, Palermo TM. The economic costs of chronic pain among a cohort of treatment-seeking adolescents in the United States. J Pain 2014;15:925-933. PubMed Abstract

Hands B, Licari M, Piek J. A review of five tests to identify motor coordination difficulties in young adults. Res Dev Disabil 2015;41-42:40-51. PubMed Abstract

Harrowell I, Hollén L, Lingam R, Emond A. Mental health outcomes of developmental coordination disorder in late adolescence. Dev Med Child Neurol 2017;59:973-979. PubMed Abstract

Jastrowski Mano KE, School anxiety in children and adolescents with chronic pain. Pain Res Manag 2017;2017:8328174. PubMed Abstract

Jensen MP, Moore MR, Bockow TB, Ehde D, Engel J. Psychosocial factors and adjustment to chronic pain in persons with physical disabilities: a systematic review. Arch Phys Med Rehabil 2011;92:146-160. PubMed Abstract

Kichline T, Cushing CC, Ortega A, Friesen C, Schurman JV. Associations between physical activity and chronic pain severity in youth with chronic abdominal pain. Clin J Pain 2019;35:618-624. PubMed Abstract

Kirby A, Edwards L, Sugden D, Rosenblum S. The development and standardization of the Adult Developmental Co-ordination Disorders/Dyspraxia Checklist (ADC). Res Dev Disabil 2010;31:131-139.  PubMed Abstract

Largo RH, Caflisch JA, Hug F, Muggli K, Molnar AA, Molinari L, et al. Neuromotor development from 5 to 18 years. Part 1: timed performance. Dev Med Child Neurol 2001;43:436-443. PubMed Abstract

Logan DE, Gray LS, Iversen CN, Kim S. School self-concept in adolescents with chronic pain. J Pediatr Psychol 2017;42:892-901. PubMed Abstract

Mailloux Z. An overview of Sensory Integration and Praxis Tests. Am J Occup Ther 1990;44:589-94. PubMed Abstract

Mancini VO, Rigoli D, Cairney J, Roberts LD, Piek JP. The elaborated environmental stress hypothesis as a framework for understanding the association between motor skills and internalizing problems: a mini-review. Front Psychol 2016;7:239. PubMed Abstract

Martin SR, Zeltzer LK. Prioritizing pediatric chronic pain and comprehensive pain treatment in the context of the opioid epidemic. Pain Manag 2018;8:67-70.

Martini R, Carter MJ, Yoxon E, Cumming J, Ste-Marie DM. Development and validation of the Movement Imagery Questionnaire for Children (MIQ-C). Psychol Sport Exerc 2016;22:190-201.

Piek JP, Baynam GB, Barrett NC. The relationship between fine and gross motor ability, self-perceptions and self-worth in children and adolescents. Hum Mov Sci 2006;25:65-75. PubMed Abstract

Skinner R, Piek J. Psychosocial implication of poor motor coordination in children and adolescents. Hum Mov Sci 2001;20:73-94. PubMed Abstract

Stray LL, Kristensen Ø, Lomeland M, Skorstad M, Stray T, Tønnessen FE. Motor regulation problems and pain in adults diagnosed with ADHD. Behav Brain Funct 2013;9:18. PubMed Abstract

Tegethoff M, Belardi A, Stalujanis E, Meinlschmidt G. Comorbidity of mental disorders and chronic pain: chronology of onset in adolescents of a national representative cohort. J Pain 2015;16:1054-1064. PubMed Abstract

Timler A, McIntyre F, Cantell M, Crawford S, Hands B. Development and evaluation of the psychometric properties of the Adolescent Motor Competence Questionnaire (AMCQ) for Adolescents. Res Dev Disabil 2016;59:127-137. PubMed Abstract

Turk DC, Fillingim RB, Ohrbach R, Patel KV. Assessment of psychosocial and functional impact of chronic pain. J Pain 2016;17(9 Suppl):T21-T49. PubMed Abstract

Wilson AC, Samuelson B, Palermo T. Obesity in children and adolescents with chronic pain: associations with pain and activity limitations. Clin J Pain 2010;26:705-711. PubMed Abstract

Wilson BN, Kaplan BJ, Crawford SG, Campbell A, Dewey D. Reliability and validity of a parent questionnaire on childhood motor skills. Am J Occup Ther 2000;54:484-493. PubMed Abstract

Wilson B, Pollock N, Kaplan BJ, Law M, Faris P. Reliability and construct validity of the clinical observations of motor and postural skills. Am J Occup Ther 1992;46:775-783. PubMed Abstract

Youssef NN, Atienza K, Langseder AL, Strauss RS. Chronic abdominal pain and depressive symptoms: analysis of the national longitudinal study of adolescent health. Clin Gastroenterol Hepatol 2008;6:329-332. PubMed Abstract