Impact of Auditory Environments on Pain in Fibromyalgia: a 4×4 Crossover Trial

Summary

This study examines whether different types of sounds can help reduce pain in people with fibromyalgia, a chronic condition that causes widespread pain and increased sensitivity to sensory experiences. Fibromyalgia affects approximately 2-3% of the global population and has limited treatment options. Recent research suggests that environmental sounds might have the capacity to influence pain perception, but their effects in chronic pain conditions remain largely unexplored. Such research could lead to new, non-invasive, sound-based approaches for managing fibromyalgia pain and inform the design of healthier acoustic environments for people with chronic pain conditions.

The study will compare four different sound environments: natural soundscapes (like birdsong and rainfall), urban soundscapes (like traffic and background conversation), broadband sounds (white or pink noise), and silence (as a neutral/control condition with intended placebo effect). Researchers want to know if these different sound environments can change how people with fibromyalgia experience pain and if some environmental sounds might be more helpful than others.

Each participant will experience all four sound conditions in a random order, with one session per week over four weeks. With this study design, each participant acts as their own control, which reduces differences between individuals and increases the reliability of the results. During each 20-minute session, participants will listen to the assigned sounds through a high-fidelity sound reproduction setup using headphones while lying comfortably on a padded therapy table in a controlled laboratory setting. Before and after each sound exposure, researchers measure pain intensity and sensitivity using standardized assessments to determine whether and how different sound environments, if any, might offer pain relief.

Conditions

• Fibromyalgia Syndrome

Interventions

OTHER

Natural soundscape exposure

Participants receive a standardized 20-minute auditory exposure to curated natural soundscapes via high-fidelity open-back reference headphones powered by a DAC/amplifier and corrected for frequency response using calibration software. Participants are randomly assigned one of 22 recordings. Each includes 10-second fade-in/out effects and is calibrated to 45-55 dB. The stereo recordings (320-kbps MP3, 48 kHz/24-bit) feature biophony (e.g., bird vocalizations) and geophony (e.g., rainfall), free of urban sounds and selected for ecological validity based on predefined criteria: (i) recognizable/context-specific sounds; (ii) culturally neutral; (iii) foreground presence and depth; (iv) no prolonged silence; (v) no technical artifacts. During exposure, they lie supine in a 60° Fowler's position on a therapy table, with sensory input minimized through auditory isolation and controlled ambient conditions. The session involves active listening under continuous researcher supervision.

OTHER

Urban soundscape exposure

Participants receive a standardized 20-minute auditory exposure to curated urban soundscapes, using the same equipment and technical specifications as all other intervention conditions. Each participant is randomly assigned one of 22 recordings, calibrated to 60-70 dB (Leq,20min). The recordings feature anthropophony (e.g., unintelligible background speech) and technophony (e.g., transportation-related sounds), free of natural sounds and selected for ecological validity based on the same predefined criteria as the natural soundscapes. To prevent semantic processing, participants are pre-screened and post-session reconfirmed to ensure they do not understand the languages used. During exposure, participants lie supine in a 60° Fowler's position on a therapy table, with sensory input minimized through auditory isolation and controlled ambient conditions. The session involves active listening and is conducted under continuous researcher supervision.

OTHER

Broadband sound exposure

Participants receive a standardized 20-minute auditory exposure to broadband sounds (i.e., white or pink noise), using the same equipment and technical specifications as all other intervention conditions. Each participant is randomly assigned to one of the two noise types, with equal distribution across conditions. The stimuli are generated using professional audio software and calibrated to 50 dB (Leq,20min). During exposure, participants lie supine in a 60° Fowler's position on a therapy table, with sensory input minimized through auditory isolation and controlled ambient conditions. The session involves active listening and is conducted under continuous researcher supervision.

OTHER

Blank tape attention placebo control

Participants receive a standardized 20-minute exposure to blank audio (silence), using the same equipment and technical specifications as all other intervention conditions. At study onset, participants are informed they will hear a range of environmental sounds, including some that may be inaudible (i.e., present but beyond the range of human hearing). During the placebo condition, a blank recording is played, producing silence, while participants remain unaware of whether they are receiving an active or placebo stimulus. This attention-control condition ensures procedural consistency while delivering no auditory stimulation. During exposure, participants lie supine in a 60° Fowler's position on a therapy table, with sensory input minimized through auditory isolation and controlled ambient conditions. The session involves active listening and is conducted under continuous researcher supervision.

Sponsors & Collaborators

• Universidad de Granada

  lead OTHER

Principal Investigators

• José Manuel Pérez Mármol, PhD · Department of Physiotherapy, Faculty of Health Sciences, University of Granada

Study Design

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

TRIPLE

Model

CROSSOVER

Eligibility

Min Age

18 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2025-08-04

Primary Completion

2025-10-31

Completion

2025-10-31

Countries

• Spain

Study Locations