Chronic widespread pain (CWP) is a common chronic pain condition in youth and often associated with significant pain-related and psychosocial impairment. Understanding the neurobiological mechanisms that may underlie pediatric chronic pain and pain-related impairment can inform future treatments to ameliorate patients' suffering, making it a critical area of empirical investigation.
Pediatric chronic widespread pain (CWP) is a serious public health problem resulting in high levels of healthcare utilization and disability. Youth with CWP also frequently report exposure to adverse childhood experiences (ACEs; abuse/neglect, violent/conflictual home environment, etc.) and a significant subset continue to experience physical and psychosocial impairment long-term. Certain mind-body interventions such as mindfulness-based stress reduction (MBSR) or meditation may be particularly appropriate for youth with CWP as they have been shown to modulate stress-induced maladaptation of the HPA-axis, autonomic nervous system, cardiovascular system, and brain structure (e.g., hippocampus). However, it is currently unknown if these targets are affected in youth with CWP. Preliminary research indicates that allostatic load (AL), or "wear and tear" on the nervous system due to stress, may contribute to pain chronicity. Similarly, evidence suggests that the hippocampus, a brain structure that is among the most deleteriously affected by stress, plays a role in pain perception. However, no study to-date has examined AL and hippocampal functioning in relation to stress exposure in youth with CWP. Mind-body interventions such as MBSR or meditation are an important and safe therapy option for both pain and stress reduction in youth with CWP and may modulate the negative impact of ACEs, so there is a critical need to know if these mechanisms are engaged in this population. The current study utilizes multifactorial physiological and neuroimaging measurement techniques to enhance our understanding of the potential role of these mechanisms in pain-related impairment and responsiveness to mind-body interventions over time. The aims of this study are to better characterize AL, assessed via a multifactorial composite, and hippocampal functioning via fMRI in pediatric CWP as specific targets for mind-body interventions that can lead to treatment optimization and improved compliance.
Study Type
INTERVENTIONAL
Allocation
NA
Participants will undergo a one hour fMRI scan with pain-induction using heat-based QST protocol.
All participants will be asked to provide saliva samples to measure cortisol response over time and dehydroepiandrosterone (DHEA) in addition to physiological measurements such as blood pressure/pulse, height/weight, and waist-hip ratio. Measurements will be taken at baseline and 4-month follow-up.
Boston Children's Hospital
Boston, Massachusetts, United States
Hippocampal Functioning
measured via fMRI
Time frame: baseline
Change in Morning Cortisol
measured via 2 samples of saliva taken via passive drool over the course of two days. After analysis, morning cortisol will be dichotomously coded with participants receiving a "1" if they score over one standard deviation above the mean. Coding will them be combined to formulate an allostatic load risk ratio, with higher scores indicating greater risk for allostatic load.
Time frame: baseline and 4-month follow-up
Change in Dehydroepiandrosterone (DHEA)
measured via 2 samples of saliva taken via passive drool over the course of two days. After analysis, DHEA will be dichotomously coded with participants receiving a "1" if they score over one standard deviation above the mean. Coding will them be combined to formulate an allostatic load risk ratio, with higher scores indicating greater risk for allostatic load.
Time frame: baseline and 4-month follow-up
Change in Flattened Cortisol
measured via 10 samples of saliva taken via passive drool over the course of two days. After analysis, the presence of cortisol will be dichotomously coded with participants receiving a "1" if the change in cortisol levels across the day fell at or below one standard deviation below the mean. Coding will them be combined to formulate an allostatic load risk ratio, with higher scores indicating greater risk for allostatic load.
Time frame: baseline and 4-month follow-up
Change in Blood Pressure
measured via blood pressure cuff by trained nurse. Results will be coded to capture levels that fall in the "normal", "prehypertension" and "hypertension" range with individuals scoring in the latter two ranges receiving a coding of "1" to be included in the allostatic load risk composite measure. Scoring of blood pressure ranges will be done using ezbmi- calculates deviation from expected BP/BMI by age/gender.
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Purpose
TREATMENT
Masking
NONE
Enrollment
70
Time frame: baseline and 4-month follow-up
Change in Body-Mass Index (BMI)
measured via height and weight (in cm and kg) by a trained nurse. Results will be coded to capture individuals that score in the "underweight", "normal", "overweight" and "obese" ranges with individuals falling in all categories but "normal" receiving a coding of "1" to be included in the allostatic load risk ratio. Scoring of BMI ranges will be done using ezbmi- calculates deviation from expected BP/BMI by age/gender.
Time frame: baseline and 4-month follow-up
Change in Waist-Hip Ratio (WHR)
measured via tape measure around the smallest part of the waist and the widest part of the hips by a trained research coordinator. Results (waist measurement/hip measurement) will be coded dichotomously with individuals scoring a "1" whose WHR falls greater than or equal to one standard deviation above the mean of the sample. This scoring will also be included in the larger allostatic load risk ratio.
Time frame: baseline and 4-month follow-up
Change in Heart Rate (HR)
measured via pulse taken by a trained nurse. Results will be coded dichotomously with individuals scoring a "1" whose HR falls greater than or equal to one standard deviation above the mean of the sample. This scoring will also be included in the larger allostatic load risk ratio.
Time frame: baseline and 4-month follow-up
Change in Pain Intensity
measured via numeric rating scale (range: 0-10). Higher rating indicates more intense pain.
Time frame: baseline and 4-month follow-up
Change in Functional Disability
measured via self-report Functional Disability Inventory (range: 0-60). Higher rating indicates greater functional disability.
Time frame: baseline and 4-month follow-up
Change in Sleep
measured via Patient Reported Outcome Measurement Information System (PROMIS) sleep disturbance scale short-form (8a). Raw scores are converted to T-scores (range: 0-100). Higher rating indicates greater impairment in sleep.
Time frame: baseline and 4-month follow-up