Your search keyword '"Steffan Wittrup McPhee Christensen"' showing total 2 results

1. Long-term consistency of clinical sensory testing measures for pain assessment

Author

Pablo Bellosta-López, Víctor Doménech-García, Thorvaldur Skuli Palsson, Pablo Herrero, and Steffan Wittrup Mcphee Christensen

Subjects

Pain Threshold, Referred, Anesthesiology and Pain Medicine, Hyperalgesia, Sample Size, Humans, Pain, Reproducibility of Results, Pain Perception, Pain Measurement

Abstract

Background: Understanding the stability of quantitative sensory tests (QSTs) over time is important to aid clinicians in selecting a battery of tests for assessing and monitoring patients. This study evaluated the short- and long-term reliability of selected QSTs.Methods: Twenty healthy women participated in three experimental sessions: Baseline, 2 weeks, and 6 months. Measurements included pressure pain thresholds (PPT) in the neck, upper back, and leg; Pressure-cuff pain tolerance around the upper-arm; conditioned pain modulation during a pressure-cuff stimulus; and referred pain following a suprathreshold pressure stimulation. Intraclass correlation coefficients (ICC) and minimum detectable change (MDC) were calculated.Results: Reliability for PPT was excellent for all sites at 2 weeks (ICC, 0.96-0.99; MDC, 22-55 kPa) and from good to excellent at 6 months (ICC, 0.88-0.95; MDC, 47-91 kPa). ICC for pressure-cuff pain tolerance indicated excellent reliability at both times (0.91-0.97). For conditioned pain modulation, reliability was moderate for all sites at 2 weeks (ICC, 0.57-0.74; MDC, 24%-35%), while it was moderate at the neck (ICC, 0.54; MDC, 27%) and poor at the upper back and leg at 6 months. ICC for referred pain areas was excellent at 2 weeks (0.90) and good at 6 months (0.86).Conclusions: PPT, pressure pain tolerance, and pressure-induced referred pain should be considered reliable procedures to assess the pain-sensory profile over time. In contrast, conditioned pain modulation was shown to be unstable. Future studies prospectively analyzing the pain-sensory profile will be able to better calculate appropriate sample sizes. Background: Understanding the stability of quantitative sensory tests (QSTs) over time is important to aid clinicians in selecting a battery of tests for assessing and monitoring patients. This study evaluated the short- and long-term reliability of selected QSTs.Methods: Twenty healthy women participated in three experimental sessions: Baseline, 2 weeks, and 6 months. Measurements included pressure pain thresholds (PPT) in the neck, upper back, and leg; Pressure-cuff pain tolerance around the upper-arm; conditioned pain modulation during a pressure-cuff stimulus; and referred pain following a suprathreshold pressure stimulation. Intraclass correlation coefficients (ICC) and minimum detectable change (MDC) were calculated.Results: Reliability for PPT was excellent for all sites at 2 weeks (ICC, 0.96-0.99; MDC, 22-55 kPa) and from good to excellent at 6 months (ICC, 0.88-0.95; MDC, 47-91 kPa). ICC for pressure-cuff pain tolerance indicated excellent reliability at both times (0.91-0.97). For conditioned pain modulation, reliability was moderate for all sites at 2 weeks (ICC, 0.57-0.74; MDC, 24%-35%), while it was moderate at the neck (ICC, 0.54; MDC, 27%) and poor at the upper back and leg at 6 months. ICC for referred pain areas was excellent at 2 weeks (0.90) and good at 6 months (0.86).Conclusions: PPT, pressure pain tolerance, and pressure-induced referred pain should be considered reliable procedures to assess the pain-sensory profile over time. In contrast, conditioned pain modulation was shown to be unstable. Future studies prospectively analyzing the pain-sensory profile will be able to better calculate appropriate sample sizes.

Published

2023

2. Effect of prolonged experimental neck pain on exercise-induced hypoalgesia

Author

Steffan Wittrup McPhee Christensen, Edith Elgueta-Cancino, Morten Bilde Simonsen, Priscila de Brito Silva, Line Bay Sørensen, Thomas Graven-Nielsen, and Rogerio Pessoto Hirata

Subjects

Pain Threshold, Hypesthesia, Neck Pain, Anesthesiology and Pain Medicine, Nerve growth factor, Neurology, Neck pain, pressure pain thresholds, Humans, Pain Perception, Neurology (clinical), Exercise-induced hypoalgesia, Pain Measurement

Abstract

Neck pain is a common musculoskeletal problem often accompanied by reduced exercise-induced hypoalgesia (EIH) or hyperalgesia compared with an asymptomatic population. This study investigated EIH in a healthy population during experimental neck pain. Forty participants were randomized into this double-blinded parallel-group study. On 4 separate test days (day 0, day 2, day 4, and day 15), participants completed the Neck Disability Index and scored neck pain intensity during head movements on a numerical rating scale. At the end of day 0 and day 2, nerve growth factor (NGF) or isotonic saline (control) was injected into the right splenius capitis muscle. Pressure pain thresholds (PPTs) were recorded bilaterally over splenius capitis (neck), temporalis (head), and tibialis anterior (leg) muscles on all days. On day 0, day 4, and day 15, PPTs were recorded before and after a hand-bike exercise. Exercise-induced hypoalgesia was defined as the PPT increase caused by the exercise. Compared with the control group, the NGF group demonstrated higher Neck Disability Index scores at day 2 and day 4 (P < 0.001, η 2> 0.557) and higher numerical rating scale scores (P < 0.03, η 2> 0.09) along with reduced neck PPTs (P < 0.01, d > 0.44) at day 2 (right: 95% confidence interval [CI] [26.0-54.0]; left: 95% CI [6.8-26.9]), day 4 (right: 95% CI [40.5-67.9]; left: 95% CI [6.9-28.2]), and day 15 (right: 95% CI [5.6-37.2]; left: 95% CI [6.9-34.8]). Across days, the EIH effect was reduced at the neck site in the NGF group compared with the control group (P < 0.001, ηp2 = 0.367, 95% CI [-34.5 to -13.7]). At the head and leg sites, the NGF group showed reduced EIH effect compared with the control group (P < 0.05, d > 0.43) on day 4 (head: 95% CI [-61.4 to -22.9]; leg: 95% CI [-154.7 to -72.4]) and day 15 (head: 95% CI [-54.3 to -7.6]; leg: 95% CI [-122.7 to -34.4]). These results indicate that a few days of clinically comparable neck pain and hyperalgesia might have a negative impact on EIH responses and may help explain why some patients with neck pain do not experience immediate positive effects of exercise.

Published

2022