Louis E. Tremblay

Home-based balance training programme using Wii Fit with balance board for Parkinsons's disease: a pilot study.

OBJECTIVES To evaluate the effects of a home-based balance training programme using visual feedback (Nintendo Wii Fit game with balance board) on balance and functional abilities in subjects with Parkinsons disease, and to compare the effects with a group of paired healthy subjects. SUBJECTS Ten subjects with moderate Parkinsons disease and 8 healthy elderly subjects. METHODS Subjects participated in a 6-week home-based balance training programme using Nintendo Wii Fit and balance board. Baseline measures were taken before training for the Sit-to-Stand test (STST), Timed-Up-and-Go (TUG), Tinetti Performance Oriented Mobility Assessment (POMA), 10-m walk test, Community Balance and Mobility assessment (CBM), Activities-specific Balance and Confidence scale (ABC), unipodal stance duration, and a force platform. All measurements were taken again after 3 and 6 weeks of training. RESULTS The Parkinsons disease group significantly improved their results in TUG, STST, unipodal stance, 10-m walk test, CBM, POMA and force platform at the end of the 6-week training programme. The healthy subjects group significantly improved in TUG, STST, unipodal stance and CBM. CONCLUSION This pilot study suggests that a home-based balance programme using Wii Fit with balance board could improve static and dynamic balance, mobility and functional abilities of people affected by Parkinsons disease.

Cortico-motor excitability of the lower limb motor representation: a comparative study in Parkinson's disease and healthy controls

OBJECTIVE To compare indices of cortico-motor excitability derived from transcranial magnetic stimulation (TMS) of the lower limb motor representation in patients with Parkinsons diseases (PD) and healthy controls. METHODS The cortico-motor excitability of the lower limb motor area was studied both at rest (motor threshold, amplitude of motor evoked potentials (MEPs)) and during active contraction of the quadriceps (Quad) muscle (MEPs facilitation and silent period) in 10 PD patients (11 legs) and 11 healthy controls using single pulse TMS. RESULTS At rest, the motor threshold was found to be significantly lower and the amplitude of MEPs larger in patients than in controls. During active knee contraction, patients produced lower levels of MEP facilitation with respect to baseline values and the silent period was lengthened in comparison to controls. CONCLUSIONS The present results provide further evidence from the lower limb motor area that enhanced cortico-spinal excitability is an important feature in the pathophysiology of PD.

Modulation of corticospinal excitability during imagined knee movements.

In this study, we investigated corticospinal excitability during mental simulation of a leg extension movement with the technique of transcranial magnetic stimulation. Motor evoked potentials were recorded in both knee extensors (quadriceps) and flexors (biceps femoris) in 19 trained participants (healthy volunteers). The amplitude and latency of motor evoked potentials were compared in three conditions: (1) at rest, (2) during motor imagery, and (3) at rest, immediately after motor imagery. The results showed a significant effect (p < 0.001) of conditions on motor evoked potentials amplitude in the quadriceps but not in the biceps femoris. During motor imagery, the size of motor evoked potentials in the quadriceps increased significantly (p < 0.001) compared with rest and post-imagery conditions. Changes in motor evoked potentials latency across conditions were not significant, however. These results are consistent with previous studies in the upper limb and suggest that corticospinal excitability can be enhanced during motor imagery to facilitate responses in specific lower limb muscles.

Corticomotor Excitability in Parkinson's Disease During Observation, Imagery and Imitation of Action: Effects of Rehabilitation Using Wii Fit and Comparison to Healthy Controls

BACKGROUND Parkinsons disease (PD) is responsible for a progressive motor impairment. Wii Fit game represents an innovative treatment modality using external visual cueing, which can be used to help patients with PD in executing motor tasks and improving function. OBJECTIVES The objectives of this study were (1) to compare lower limb corticomotor activation in subjects with and without PD during action observation (OBS), motor imagery (IMAG), and imitation (IMIT), and (2) to evaluate the effects of a 6-week training program using Wii Fit on corticomotor excitability during these 3 conditions. METHODS Using transcranial magnetic stimulation, we assessed motor evoked potentials (MEPs) in Quadriceps Femoris (QF) and Soleus (SOL) muscles in 8 subjects with moderate PD (PD group) and 8 healthy subjects (HS group) before and after 6 weeks of training using Wii Fit during OBS, IMAG and IMIT of a mini-squat action. RESULTS At baseline, PD showed significantly less MEPs in QF during OBS, IMAG and IMIT compared with HS. In SOL, MEPs were reduced in PD only during IMIT. Following training, PD increased QF MEPs during OBS, which was opposite to the decrease in QF MEPs noted in HS. During IMAG, increased MEPs were found only in PD for SOL. During IMIT, both groups significantly reduced MEPs in both QF and SOL. CONCLUSION Subjects with PD may have improved their dual-task ability considering changes observed during OBS and IMIT. Visual cueing training using Wii Fit may provide an interesting rehabilitation method for PD.

Recovery Time of Independent Poststroke Life Habits: Part II

Abstract The purposes of this study were to determine the time of the recovery of poststroke life habits and to identify prognostic indicators associated with recovery time among stroke patients in a rehabilitation program. A sample of 421 stroke patients who were admitted to a rehabilitation center was recruited from medical records available from January 1987 to December 1992. The relation between the achievement of independent life habits including bed mobility, transfers and ambulation, bathing activities, dressing activities, eating activities, home activities, sphincter control, and sleep with the potential covariates associated with recovery time was assessed through the analysis of survival data using the Cox maximum-likelihood proportional hazard models. The poststroke life habits obtained generated mean recovery times ranging from 5.51 to 57.60 days from admission to rehabilitation. The survival analysis revealed that the recovery time of the selected poststroke abilities was significantly influenced (p < .05) by one or several indicators; these included physical ability and neuropsychological and life habit characteristics. With this precious information, stroke rehabilitation specialists may be able to reduce the length of time required to recover independent poststroke life habits by treating the specific neuropsychological, physical, and life habit characteristics identified in this study. A faster poststroke recovery would reduce the socioeconomic impact generated by stroke disability and would also ensure a better quality of life to the stroke survivor.

Recovery Time of Independent Poststroke Abilities: Part I

Abstract The purposes of this study were to determine the time of the recovery of poststroke abilities and to identify prognostic indicators associated with recovery time among stroke patients undergoing a rehabilitation program. A sample of 421 stroke participants admitted to a rehabilitation center was recruited from medical records that were available from January 1987 to December 1992. The mean age was 61.8 years (range, 17-89 years). The relationship between the achievement of independent poststroke abilities and the potential covariates associated with recovery time was assessed through the analysis of survival data. Cox maximum-likelihood proportional hazard models were used for the analysis. Independent poststroke abilities included behavior, cognitive, perceptual, communication, visual, and motor status. The time from rehabilitation admission to complete independence was introduced to the model in relation to the covariates. The mean time of recovery of poststroke abilities ranged from 18.70 to 32.40 days from the rehabilitation admission. The survival analysis revealed that the time of recovery of the selected poststroke abilities was significantly influenced (p < .05) by one or several factors, among these were neuropsychological, physical, and life habits. With this precious information, stroke rehabilitation specialists may be able to reduce the length of time required to recover independent poststroke abilities by treating the specific neuropsychological, physical, and life habit characteristics identified in this study. A faster poststroke recovery will reduce the socioeconomic impact generated by stroke disability and will ensure a better quality of life to the stroke survivor.