# Innovative Compact Vibrational System with Custom GUI for Modulating Trunk Proprioception Using Individualized Vibration Parameters

**Authors:** Debdyuti Mandal, John R. Gilliam, Sheri P. Silfies, Sourav Banerjee

PMC · DOI: 10.3390/bioengineering12101088 · Bioengineering · 2025-10-07

## TL;DR

A new wearable vibrational system with adjustable settings was developed to better modulate trunk proprioception, which is important for postural control and low back pain.

## Contribution

The novel system allows individualized vibration parameters and a custom GUI to modulate trunk proprioception more effectively.

## Key findings

- The system successfully modulated trunk proprioception in five subjects.
- Customizing vibration parameters can maximize proprioceptive deficits in individuals.
- Wearable linear actuators enable flexible and non-restrictive vibration delivery.

## Abstract

Conventional vibrational systems associated with proprioception are mostly equipped with a single standard frequency and amplitude. This feature often fails to show kinesthetic illusion on different subjects, as different individuals respond to different frequencies and amplitudes. Additionally, different muscle groups may also require the flexibility of frequencies and amplitudes. We developed a custom vibrational system that is equipped with flexible frequency and amplitude, adapted to a custom graphical user interface (GUI). Based on the user’s criteria, the proposed vibrational system enables a wide range of frequencies and amplitudes that can be swept under a single platform. In addition, the system uses small linear actuators that are wearable and attach to the subject without the need for restrictive straps. The vibrational system was used to model trunk proprioceptive impairment associated with low back pain. Low back pain is the leading cause of disability worldwide. It is mostly associated with impaired postural control of the trunk. For postural control, the somatosensory system transmits proprioceptive (position sense) information from the sensors in the skin, joints, muscles, and tendons. Proprioceptive studies on trunk muscles have been conducted where the application of vibration at a set amplitude and frequency across all participants resulted in altered proprioception and a kinesthetic illusion, but not in all individuals. To assess the feasibility of the system, we manipulated the trunk proprioception of five subjects, demonstrating that the vibrational system is capable of modulating trunk proprioception and the value of customizing parameters of the system to obtain maximal deficits from individual subjects.

## Full-text entities

- **Diseases:** Proprioception (MESH:D020886), Low back pain (MESH:D017116), disability (MESH:D009069)

## Full text

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## Figures

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## References

51 references — full list in the complete paper: https://tomesphere.com/paper/PMC12561096/full.md

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Source: https://tomesphere.com/paper/PMC12561096