BACKGROUND: Neurorehabilitation interventions to improve lower limb function and neuropathic pain have had limited success in people with chronic, incomplete spinal cord injury (iSCI). OBJECTIVE: We hypothesized that intense virtual reality (VR)-augmented training of observed and executed leg movements would improve limb function and neuropathic pain. METHODS: Patients used a VR system with a first-person view of virtual lower limbs, controlled via movement sensors fitted to the patient's own shoes. Four tasks were used to deliver intensive training of individual muscles (tibialis anterior, quadriceps, leg ad-/abductors). The tasks engaged motivation through feedback of task success. Fourteen chronic iSCI patients were treated over 4 weeks in 16 to 20 sessions of 45 minutes. Outcome measures were 10 Meter Walking Test, Berg Balance Scale, Lower Extremity Motor Score, Spinal Cord Independence Measure, Locomotion and Neuropathic Pain Scale (NPS), obtained at the start and at 4 to 6 weeks before intervention. RESULTS: In addition to positive changes reported by the patients (Patients' Global Impression of Change), measures of walking capacity, balance, and strength revealed improvements in lower limb function. Intensity and unpleasantness of neuropathic pain in half of the affected participants were reduced on the NPS test. Overall findings remained stable 12 to 16 weeks after termination of the training. CONCLUSIONS: In a pretest/posttest, uncontrolled design, VR-augmented training was associated with improvements in motor function and neuropathic pain in persons with chronic iSCI, several of which reached the level of a minimal clinically important change. A controlled trial is needed to compare this intervention to active training alone or in combination.
BACKGROUND: Neurorehabilitation interventions to improve lower limb function and neuropathic pain have had limited success in people with chronic, incomplete spinal cord injury (iSCI). OBJECTIVE: We hypothesized that intense virtual reality (VR)-augmented training of observed and executed leg movements would improve limb function and neuropathic pain. METHODS:Patients used a VR system with a first-person view of virtual lower limbs, controlled via movement sensors fitted to the patient's own shoes. Four tasks were used to deliver intensive training of individual muscles (tibialis anterior, quadriceps, leg ad-/abductors). The tasks engaged motivation through feedback of task success. Fourteen chronic iSCI patients were treated over 4 weeks in 16 to 20 sessions of 45 minutes. Outcome measures were 10 Meter Walking Test, Berg Balance Scale, Lower Extremity Motor Score, Spinal Cord Independence Measure, Locomotion and Neuropathic Pain Scale (NPS), obtained at the start and at 4 to 6 weeks before intervention. RESULTS: In addition to positive changes reported by the patients (Patients' Global Impression of Change), measures of walking capacity, balance, and strength revealed improvements in lower limb function. Intensity and unpleasantness of neuropathic pain in half of the affected participants were reduced on the NPS test. Overall findings remained stable 12 to 16 weeks after termination of the training. CONCLUSIONS: In a pretest/posttest, uncontrolled design, VR-augmented training was associated with improvements in motor function and neuropathic pain in persons with chronic iSCI, several of which reached the level of a minimal clinically important change. A controlled trial is needed to compare this intervention to active training alone or in combination.
Authors: Janelle Unger; Katherine Chan; Carol Y Scovil; B Catharine Craven; Avril Mansfield; Kei Masani; Kristin E Musselman Journal: Phys Ther Date: 2019-04-01
Authors: Gianluca Castelnuovo; Emanuele M Giusti; Gian Mauro Manzoni; Donatella Saviola; Arianna Gatti; Samantha Gabrielli; Marco Lacerenza; Giada Pietrabissa; Roberto Cattivelli; Chiara A M Spatola; Stefania Corti; Margherita Novelli; Valentina Villa; Andrea Cottini; Carlo Lai; Francesco Pagnini; Lorys Castelli; Mario Tavola; Riccardo Torta; Marco Arreghini; Loredana Zanini; Amelia Brunani; Paolo Capodaglio; Guido E D'Aniello; Federica Scarpina; Andrea Brioschi; Lorenzo Priano; Alessandro Mauro; Giuseppe Riva; Claudia Repetto; Camillo Regalia; Enrico Molinari; Paolo Notaro; Stefano Paolucci; Giorgio Sandrini; Susan G Simpson; Brenda Wiederhold; Stefano Tamburin Journal: Front Psychol Date: 2016-02-19
Authors: Nadine S Matthie; Nicholas A Giordano; Coretta M Jenerette; Gayenell S Magwood; Sharon L Leslie; Emily E Northey; Caitlin I Webster; Soumitri Sil Journal: Pain Manag Date: 2022-09-13
Authors: Catherine R Jutzeler; Eveline Huber; Martina F Callaghan; Roger Luechinger; Armin Curt; John L K Kramer; Patrick Freund Journal: Sci Rep Date: 2016-01-06 Impact factor: 4.379