Changes of biomechanics induced by Equistasi® in Parkinson’s disease: coupling between balance and lower limb joints kinematics

[1] Deng H(2018)The genetics of Parkinson disease Ageing Res Rev 42 72-85

[2] Wang P(2010)Standing out with Parkinson disease: evidence-based physical therapy for gait disorders Phys Ther 90 280-288

[3] Jankovic J(2016)Effect of underwater gait training on Parkinson's disease: assessment through 3D underwater and on land gait analysis Gait Posture 49 S25-S26

[4] Morris ME(2020)Motor-cognitive approach and aerobic training: a synergism for rehabilitative intervention in Parkinson's disease Neurodegener Dis Manag 10 41-55

[5] Martin CL(2019)Motor learning deficits in Parkinson's disease (PD) and their effect on training response in gait and balance: a narrative review Front Neurol 10 62-230

[6] Schenkman ML(2015)TMS enhances retention of a motor skill in Parkinson's disease Brain Stimul 8 224-51

[7] Volpe D(2018)Comprehensive statistical analysis of the gait parameters in neurodegenerative disease Neurophysiology. 50 38-247

[8] Pavan D(2010)Alternate rhythmic vibratory stimulation of trunk muscles affects walking cadence and velocity in Parkinson’s disease Clin Neurophysiol 121 240-274

[9] Guiotto A(2019)Focal vibration training (Equistasi®) to improve posture stability. A retrospective study in Parkinson’s disease Sensors 19 2101-442

[10] Fichera F(2015)Acute effects of high-frequency microfocal vibratory stimulation on the H reflex of the soleus muscle. A double-blind study in health subjects Funct Neurol 30 269-198

[1] Deng H(2018)The genetics of Parkinson disease Ageing Res Rev 42 72-85

[2] Wang P(2010)Standing out with Parkinson disease: evidence-based physical therapy for gait disorders Phys Ther 90 280-288

[3] Jankovic J(2016)Effect of underwater gait training on Parkinson's disease: assessment through 3D underwater and on land gait analysis Gait Posture 49 S25-S26

[4] Morris ME(2020)Motor-cognitive approach and aerobic training: a synergism for rehabilitative intervention in Parkinson's disease Neurodegener Dis Manag 10 41-55

[5] Martin CL(2019)Motor learning deficits in Parkinson's disease (PD) and their effect on training response in gait and balance: a narrative review Front Neurol 10 62-230

[6] Schenkman ML(2015)TMS enhances retention of a motor skill in Parkinson's disease Brain Stimul 8 224-51

[7] Volpe D(2018)Comprehensive statistical analysis of the gait parameters in neurodegenerative disease Neurophysiology. 50 38-247

[8] Pavan D(2010)Alternate rhythmic vibratory stimulation of trunk muscles affects walking cadence and velocity in Parkinson’s disease Clin Neurophysiol 121 240-274

[9] Guiotto A(2019)Focal vibration training (Equistasi®) to improve posture stability. A retrospective study in Parkinson’s disease Sensors 19 2101-442

[10] Fichera F(2015)Acute effects of high-frequency microfocal vibratory stimulation on the H reflex of the soleus muscle. A double-blind study in health subjects Funct Neurol 30 269-198