Feng Pan1, Karl Smith Byrne2, Rema Ramakrishnan3, Manuela Ferreira4, Terence Dwyer5, Graeme Jones6. 1. Menzies Institute for Medical Research, University of Tasmania, Australia. Electronic address: Feng.Pan@utas.edu.au. 2. Genetic Epidemiology Group, International Agency for Research on Cancer, France. 3. George Institute for Global Health, University of Oxford, UK. 4. Institute of Bone and Joint Research, The Kolling Institute, Sydney Medical School, The University of Sydney, Australia. 5. Menzies Institute for Medical Research, University of Tasmania, Australia; George Institute for Global Health, University of Oxford, UK. 6. Menzies Institute for Medical Research, University of Tasmania, Australia.
Abstract
OBJECTIVES: To describe the cross-sectional association between musculoskeletal pain at multiple sites and physical work capacity (PWC) and objectively measured physical activity (PA). DESIGN: Observational study. METHODS: Data from a subsample of the UK Biobank were utilised (n=9856; mean age 58.5 years, mean body mass index 30.2kg/m2, 62% female). PWC was measured by a bicycle ergometer and PA by an accelerometer. Pain experienced in hip, knee, back and neck/shoulder was collected by questionnaire. Linear regression modelling was used with adjustment for potential confounders to estimate the association between pain and PWC and PA. RESULTS: Increase in number of painful sites was associated with lower PWC, moderate and vigorous PA and increased low intensity PA in a dose-response relationship (all p-values for trend ≤0.001) before and after adjustment for confounders. In site specific analyses, hip pain was associated with an increased low intensity PA (β 52.8min/week, 95% CI 2.3-103.2) and reduced moderate PA (β -50.1min/week, 95% CI -98.5 to -1.8). Knee pain was only associated with vigorous PA (β -5.7min/week, 95% CI -10.0 to -1.3). Pain at neck/shoulder pain and back were not independently associated with PWC and PA. CONCLUSIONS: Greater number of painful sites is consistently associated with poorer PWC, increased low intensity PA and reduced moderate to vigorous PA. Clinicians should address the critical role of being physically active in managing chronic musculoskeletal pain and interventions targeting musculoskeletal pain may be needed to increase PA levels.
OBJECTIVES: To describe the cross-sectional association between musculoskeletal pain at multiple sites and physical work capacity (PWC) and objectively measured physical activity (PA). DESIGN: Observational study. METHODS: Data from a subsample of the UK Biobank were utilised (n=9856; mean age 58.5 years, mean body mass index 30.2kg/m2, 62% female). PWC was measured by a bicycle ergometer and PA by an accelerometer. Pain experienced in hip, knee, back and neck/shoulder was collected by questionnaire. Linear regression modelling was used with adjustment for potential confounders to estimate the association between pain and PWC and PA. RESULTS: Increase in number of painful sites was associated with lower PWC, moderate and vigorous PA and increased low intensity PA in a dose-response relationship (all p-values for trend ≤0.001) before and after adjustment for confounders. In site specific analyses, hip pain was associated with an increased low intensity PA (β 52.8min/week, 95% CI 2.3-103.2) and reduced moderate PA (β -50.1min/week, 95% CI -98.5 to -1.8). Knee pain was only associated with vigorous PA (β -5.7min/week, 95% CI -10.0 to -1.3). Pain at neck/shoulder pain and back were not independently associated with PWC and PA. CONCLUSIONS: Greater number of painful sites is consistently associated with poorer PWC, increased low intensity PA and reduced moderate to vigorous PA. Clinicians should address the critical role of being physically active in managing chronic musculoskeletal pain and interventions targeting musculoskeletal pain may be needed to increase PA levels.
Authors: Subas Neupane; Kristina Karstad; David M Hallman; Reiner Rugulies; Andreas Holtermann Journal: Int Arch Occup Environ Health Date: 2019-11-23 Impact factor: 3.015