Accepted for/Published in: JMIR Formative Research
Date Submitted: Jun 24, 2025
Date Accepted: Jan 14, 2026
Smartphone-based Ecological Momentary Assessment of Pain in Older Adults Undergoing Auricular Point Acupressure for Chronic Low Back Pain: A Secondary Analysis of a Randomized Controlled Trial
ABSTRACT
Background:
Chronic low back pain (cLBP) is a prevalent and disabling condition in older adults. Auricular Point Acupressure (APA), a nonpharmacologic intervention, has shown promise in managing cLBP. However, its impact on daily symptom fluctuations remains unclear. Ecological Momentary Assessment (EMA), which collects real-time data, offers a method to capture these fluctuations.
Objective:
This secondary analysis evaluated the effects of APA on EMA-reported pain intensity and pain interference among older adults with cLBP and examined associations among APA practice patterns, recall-based assessments, and EMA engagement.
Methods:
Data were drawn from a published three-arm randomized controlled trial (NCT03589703) of 272 adults aged ≥60 years with cLBP, randomized to targeted APA (T-APA), non-targeted APA (NT-APA), or education control. For this analysis, only participants who completed at least one EMA entry during the 4-week intervention were included. Sixty-one participants were excluded due to missing EMA data, resulting in a final analytic sample of 211 (T-APA: 72; NT-APA: 74; control: 65). EMA-reported pain intensity and interference were collected using a smartphone app three times daily over 29 days. Linear mixed-effects models assessed the effects of group assignment and APA practice behaviors on EMA outcomes, adjusting for demographics, smoking, opioid use, and baseline recall-based pain. Spearman correlations assessed associations between EMA and 7-day recall measures.
Results:
EMA compliance averaged 44.8%, with an attrition rate of 54%. There were no significant differences in compliance or attrition across treatment groups. Older participants showed significantly lower compliance, though attrition was not associated with age. Pain intensity reported via EMA was significantly lower than recall-based pain, while EMA-reported pain interference was higher. EMA and 7-day recall pain outcomes were strongly correlated (Spearman r = 0.53–0.95, P < .001). Both T-APA and NT-APA significantly reduced EMA-reported pain and interference compared to control. T-APA reduced worst pain (β = -0.98, SE = 0.33, P < .001), average pain (β = -0.93, SE = 0.30, P < .001), and current pain (β = -1.01, SE = 0.36, P = .006). NT-APA also reduced worst (β = -0.74, SE = 0.12, P < .001), average (β = -1.02, SE = 0.30, P = .001), and current pain (β = -1.26, SE = 0.37, P = .001). For interference, T-APA significantly reduced interference with enjoyment of life (β = -1.72, SE = 0.37, P < .001) and daily activity (β = -1.41, SE = 0.34, P = .001), with similar reductions seen in NT-APA.
Conclusions:
APA significantly reduced daily pain and interference among older adults with cLBP. EMA provided valuable insights into treatment response and symptom variability. Future research should enhance EMA adherence and explore sustained APA use for self-management. Clinical Trial: ClinicalTrials.gov NCT03589703
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