OBJECTIVE: To test whether knee stabilization therapy, prior to strength/functional training, may have added value in reducing activity limitations only in patients with knee osteoarthritis who have knee instability and (i) low upper leg muscle strength, (ii) impaired knee proprioception, (iii) high knee laxity, or (iv) frequent episodes of knee instability. DESIGN: Subgroup analyses in a randomized controlled trial comparing 2 exercise programmes (with/without knee stabilization therapy) (STABILITY; NTR1475). PATIENTS: Participants from the STABILITY-trial with clinical knee osteoarthritis and knee instability (n = 159). METHODS: Effect modification by upper leg muscle strength, knee proprioception, knee laxity, and patient-reported knee instability were determined using the interaction terms "treatment group subgroup factor", with the outcome measures WOMAC physical function (primary), numeric rating scale pain and the Get up and Go test (secondary). RESULTS: Effect modification by muscle strength was found for the primary outcome (p = 0.01), indicating that patients with greater muscle strength tend to benefit more from the experimental programme with additional knee stabilization training, while patients with lower muscle strength benefit more from the control programme. CONCLUSION:Knee stabilization therapy may have added value in patients with instability and strong muscles. Thus it may be beneficial if exercises target muscle strength prior to knee stabilization.
RCT Entities:
OBJECTIVE: To test whether knee stabilization therapy, prior to strength/functional training, may have added value in reducing activity limitations only in patients with knee osteoarthritis who have knee instability and (i) low upper leg muscle strength, (ii) impaired knee proprioception, (iii) high knee laxity, or (iv) frequent episodes of knee instability. DESIGN: Subgroup analyses in a randomized controlled trial comparing 2 exercise programmes (with/without knee stabilization therapy) (STABILITY; NTR1475). PATIENTS: Participants from the STABILITY-trial with clinical knee osteoarthritis and knee instability (n = 159). METHODS: Effect modification by upper leg muscle strength, knee proprioception, knee laxity, and patient-reported knee instability were determined using the interaction terms "treatment group subgroup factor", with the outcome measures WOMAC physical function (primary), numeric rating scale pain and the Get up and Go test (secondary). RESULTS: Effect modification by muscle strength was found for the primary outcome (p = 0.01), indicating that patients with greater muscle strength tend to benefit more from the experimental programme with additional knee stabilization training, while patients with lower muscle strength benefit more from the control programme. CONCLUSION: Knee stabilization therapy may have added value in patients with instability and strong muscles. Thus it may be beneficial if exercises target muscle strength prior to knee stabilization.
Authors: Leena Sharma; Joan S Chmiel; Orit Almagor; Kirsten Moisio; Alison H Chang; Laura Belisle; Yunhui Zhang; Karen W Hayes Journal: Arthritis Care Res (Hoboken) Date: 2015-08 Impact factor: 4.794
Authors: Gregory M Freisinger; Laura C Schmitt; Andrea B Wanamaker; Robert A Siston; Ajit M W Chaudhari Journal: J Knee Surg Date: 2016-09-28 Impact factor: 2.757
Authors: Melanie A Holden; Danielle L Burke; Jos Runhaar; Danielle van Der Windt; Richard D Riley; Krysia Dziedzic; Amardeep Legha; Amy L Evans; J Haxby Abbott; Kristin Baker; Jenny Brown; Kim L Bennell; Daniël Bossen; Lucie Brosseau; Kanda Chaipinyo; Robin Christensen; Tom Cochrane; Mariette de Rooij; Michael Doherty; Helen P French; Sheila Hickson; Rana S Hinman; Marijke Hopman-Rock; Michael V Hurley; Carol Ingram; Jesper Knoop; Inga Krauss; Chris McCarthy; Stephen P Messier; Donald L Patrick; Nilay Sahin; Laura A Talbot; Robert Taylor; Carolien H Teirlinck; Marienke van Middelkoop; Christine Walker; Nadine E Foster Journal: BMJ Open Date: 2017-12-22 Impact factor: 2.692