Clinical Trials Directory

Trials / Completed

CompletedNCT04099004

Neural Correlates of Knee Sensorimotor Control in Patients With Patellofemoral Pain Syndrome

Status
Completed
Phase
N/A
Study type
Interventional
Enrollment
15 (actual)
Sponsor
Emory University · Academic / Other
Sex
Female
Age
7 Years – 40 Years
Healthy volunteers
Not accepted

Summary

This study aims to determine the neural correlates of knee motor control in young females with patellofemoral pain (PFP). Each participant will attend a single study visit which may last up to 3 hours.

Detailed description

Patellofemoral pain (PFP) is one of the most common reported knee conditions in adolescents and young adults. PFP can affect nearly 30% of young adults and most frequently affect those who participate in athletic activities involving running, jumping, and cutting. Pain during movement also adversely influences patellofemoral joint loading as evidenced by increased frontal and transverse plane hip motion during activities of daily living. While the biomechanical and anatomical components contributing to knee pain have been well established, the underlying neural mechanisms are less understood. For adults with chronic pain (e.g., osteoarthritis), patients often exhibit greater 'pain network (e.g., anterior cingulate cortex, thalamus)' activation during sensory testing relative to healthy controls, possibly due to long term peripheral receptor activation resulting in hypersensitivity. Further, inducing pain (e.g., pressing on a thumbnail) results in similar neural activation of the pain network for those who have chronic pain symptoms. While these studies have been imperative to the understanding of pain on neural functioning, they are limited to those specific populations (e.g., fibromyalgia, osteoarthritis) and do not adequately replicate the pain experienced during daily activities. Traditional approaches consisting of bracing and physical therapy focused on strengthening the knee extensors have been unsuccessful in reducing pain. Further, interventions consisting of exercise therapy have not been effective for all patients with PFP, and other pain-reduction techniques, such as direct electrical stimulation of the motor cortex, have failed to produce improved motor function or long-lasting pain relief. The researchers of this study hypothesize that this is due to the failure to appropriately challenge the full sensorimotor network involved in processing sensory and cognitive stimuli for motor control. To effectively treat pain and manage this condition, the neural correlates of pain and sensorimotor knee control in those with PFP is needed. To appropriately assess the pain network for those with PFP, replicating knee and hip motion while neural function is measured is needed. The research team has successfully developed a combined knee and hip extension and flexion task that can be used safely with functional magnetic resonance imaging (fMRI). The researchers hypothesize that those with PFP will display depressed sensorimotor activity and increased pain network activity during the knee and hip flexion and extension task relative to previously collected data. The study visit will consist of one magnetic resonance imaging (MRI) session using a GE SIGNA™ Premier 3.0 Tesla MR scanner. The MRI portion of the study visit will be completed in 75 minutes or less, and the entire visit will last up to 3 hours.

Conditions

Interventions

TypeNameDescription
OTHERNeural ImagingDuring the acquisition of magnetic resonance (MR) images, the study participants will lie on the scanner table. For most portions of MR acquisition, the study participants will be instructed to lie still. For other parts of the acquisition, study participants will be asked to complete a combined knee and hip flexion/extension movement and a quadriceps contraction task in which they will be asked to 'squeeze' their quadriceps while keeping the rest of their body still. For the last 15 minutes of MR acquisition, the researcher will place one hand above the participants' knee and apply intermittent pressure to their quadriceps and medial aspect of the patella. Pain scales will be administered after every fMRI task to assess subjective perceptions of pain. Peripheral pulse oximetry and respiration waveforms will be collected for data analysis in order to minimize the potential confounding effect from the physiological changes.

Timeline

Start date
2017-11-16
Primary completion
2023-12-31
Completion
2023-12-31
First posted
2019-09-23
Last updated
2024-02-13

Locations

2 sites across 1 country: United States

Source: ClinicalTrials.gov record NCT04099004. Inclusion in this directory is not an endorsement.