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14 Articles in Volume 19, Issue #1
Analgesics of the Future: NKTR-181
Antidote to CDC Guideline; Plantar Fasciitis; Patient Input
Assessing and Treating Migraine in Women and Men
Demystifying Opioid-Induced Hyperalgesia
Editorial: Have We Gone Too Far? Can We Get Back?
How to Compel Patients to Complete Home Exercises
Inflammation Targeted Nanomedicine
Intravenous Stem Cell Administration for Ileitis
Invasive Surgery: Effective in Relieving Chronic Pain?
Pain Catastrophizing: What Practitioners Need to Know
Pain Therapy Options for the Home
Regenerative Medicine
The Future of Pain Management: An Experts' Roundtable
Whole Body Vibration: Potential Benefits in the Management of Pain and Physical Function

Pain Therapy Options for the Home

A patient-based outcome review of at-home pain management devices, including the Willow Curve, Quell, and VibraCool
Pages 56-59
Page 1 of 2

This device review focuses on technologies that have emerged over the past few years which aim to benefit patients suffering from persistent pain, as well as infuse some innovation into home-based chronic pain management. The current healthcare economy and milieu in general relies on patients passively receiving clinical services, making the directionality of healthcare provision from the home to the hospital or clinic. With healthcare reform and the anticipated transition from volume- to value-based care, the clinical community will need to give greater thought to filling the post-discharge void regarding pain relief typically associated with on-site services. If reimbursement models change to reflect a greater pay-for-performance model based on outcomes, whereby providers are paid commensurate with clinical effectiveness, this trend may incentivize caregivers/providers to consider improved home-based pain management, including the judicious use of durable medical equipment (DME).

The devices featured represent just a sampling of a much larger trend that may transform healthcare delivery in the near future, including transitions from expensive inpatient settings to less costly outpatient settings, and eventually into the home. In the current complex healthcare ecosystem, having the ability to leverage the right technology for individual patients moving forward will be paramount. In addition, having access to a cohesive evidence-informed home care plan for conservative chronic pain management will be vital to total care coordination when it comes to ensuring positive outcomes. The three technologies highlighted herein are sleek, cleverly designed, and, in the authors’ view, have demonstrated medical-grade pain management at a fraction of the price.

Data Methods & Analysis: Quantifying Patient Improvement

This mixed-methods analysis utilized patient-reported outcomes and provider research with quantitative endpoints. The goal was to determine how each device worked and in which patients it worked best. The authors used a traditional odds ratio (OR) statistic to measure effect size, since ORs do not require intensive computation. In our design, the OR was simply the ratio of two probabilities: the probability of achieving the outcome of interest vs the probability of not achieving the outcome of interest. In a conventional case/control design, the subjects would be chosen based on the presence or absence of disease. In our clinical setting, the subjects were chosen based on the presence or absence of pain. Using classic OR convention, the cases and the controls represent two different groups and differ only by disease status.

When pain intensity is used as the primary endpoint, one may actually have the pain at one point in the day and not have pain in another part of the day (diurnal variation). In this modified OR format, we used the same group of patients as both the cases and the controls, taking advantage of fluctuations in pain status. By doing so, we have avoided many of the confounding factors that require statistical adjustment. However, by not implementing the same level of internal control(s) as a formal clinical trial, the data can only infer association and not causation between outcome and exposure variables.

Product Evaluation

Since the three devices reviewed do not require medical prescription, our primary outcome measure of interest was patient-reported pain intensity reduction using a 10-point visual analog scale (VAS). These three devices were presented to us at different times of the year in 2018. The Willow Curve (phototherapy) and Quell (electrostimulation) devices were tested for 8 and 11 months, respectively, while the VibraCool (vibrational) device was tested over a period of 3 months (received in October 2018). We applied a single subject design (multiple N of 1) that examined the change in pain intensity based on a single treatment session where the patient acted as his or her own control with the desired outcome of interest being a 3-point reduction in a 10 point (10 cm) VAS scale.

As clinicians know, it is important to be reminded that pain intensity is but one characteristic in the total pain experience of any patient and does not necessarily explain co-existing disability. The use of a pain VAS instrument as a surrogate to measure disability is not ideal as it simply measures a single dimension of the pain experience: pain intensity.1,2 However, the VAS has been shown to compare favorably to multi-item scales, showing good concurrent validity (SF-20), responsiveness, and excellent reliability.3 In fact, while common forms of pain intensity assessment have shown excellent test-retest reliability, the VAS has the smallest error associated with its use.4

Product protocols were followed according to device instructions and verified through numerous communications.

Description & Performance of the Devices

Product: Willow Curve
Manufacturer: Physician’s Technology, LLC (Monroe, MI)
Recommended for pain conditions such as: arthralgia (joint pain), neuralgia, and myalgia
Cost: $799
For more info:

The Willow Curve (WC, see Figure 1) is a curvilinear shaped device that fits snugly over the round contour of most joints and emits simultaneous thermal energy (heat) and photonic energy (light) within the infrared spectra, specifically the 500 to 4,000 nm wavelength range. The spectral or emission frequency pattern of WC has been identified to be in the 292 to 4,000 Hz range. This device has been developed with sophisticated technology that combines the benefits of laser, infrared, and LEDs in a therapeutic and engineering conglomerate that culminates into clinical grade pain relief. The mechanisms of action (MOA) are those consistent with a multitude of studies already documented in the low-level laser research literature base.

Courtesy manufacturer

The WC offers a patient-friendly treatment with an ease of use that improves patient compliance. The LED array is both visible (red lights) and sensory (heat), which helps counteract the possibility of “nocebo” effects often seen in the more silent therapies that have no visual or auditory cues. The treatment generally takes under 30 minutes and patients are put in a comfortable position for the duration. The WC performs very well with joint conditions (arthralgia) given its structural configuration, which provides a snug contoured fit around most joints and the cervical spine as well. The WC was trialed on a variety of musculoskeletal (MSK) conditions including the various arthritides (OA/RA/psoriatic/gout), joint injury (sprains/strains), post-surgical pain, and “age-related” (idiopathic) pain and stiffness.

Last updated on: April 12, 2019
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OSKA PEMF Pain Relief Device: A Mini Review Trial
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