The investigators want to compare the effects of upper versus lower body moderate aerobic exercise on the experience of pain in individuals with chronic knee pain. Participants will attend the laboratory on 4 separate occasions to complete a series of exercise tests and experimental pain tests.
Pain has a multifaceted nature encompassing peripheral drivers (i.e. loading), peripheral and central nervous systems (peripheral and central sensitisation) and cognition (i.e. fear). Most recently, evidence supports that chronic pain in OA may cause alterations to the peripheral and central nervous systems. Despite this, current research has mainly targeted peripheral drivers (usually weight reduction) and cognition (educational programmes) with results highlighting that such methods are not always effective in reducing pain. It would be useful to provide a wider range of choice when prescribing exercise for OA for those which the current prescription is ineffective or un-desirable. Acutely, both localised and generalised exercise involving the knee joint in individuals with KOA is known to increase symptomatic pain in some. However, research suggests that diverting exercise away from the affected joint may improve pain perception and pain experience in a subset of individuals by targeting cognition (attention away from the joint) and alleviating peripheral drivers of pain (reduced loading) while still presenting systemic physiological benefits that come with acute aerobic exercise which target peripheral and central sensitisation. Currently, there is only one study (Burrows et al, 2014) which has compared the effects of acute upper vs. lower body exercise on pain perception in KOA patients and this was employing resistance exercise. Although this study found positive effects of upper body exercise on pain, this pain was experimentally induced, and symptomatic pain was not measured. The investigators aim is to determine the effects of a single bout of upper body aerobic exercise on experimentally induced and symptomatic pain in individuals with chronic knee pain in comparison with lower body aerobic exercise.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
19
Participants will perform 30 minutes of continuous exercise on the arm-crank ergometer.
Participants will perform 30 minutes of continuous exercise on the cycle ergometer.
University of Bath
Bath, United Kingdom
Acute Symptomatic Pain
Change in symptomatic pain measured via Visual Analogue Scale (VAS) from pre- to post-exercise on a 0-10 scale where 0 is no pain at all and 10 is the worst pain imaginable
Time frame: Immediately pre and immediately-post exercise
Acute Experimental Pain
Change in experimental pain via Pressure pain threshold and Mechanical detection threshold from pre- to post- exercise
Time frame: Immediately pre and immediately-post exercise
Follow up Symptomatic Pain
Average symptomatic pain in the 7 days following each trial visit measured on a 0-10 Visual Analogue Scale (VAS) where 0 indicates no pain at all and 10 indicates worst pain imaginable
Time frame: 1-7 days post exercise
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