Gait and attentional performance in freezers under methylphenidate.

BACKGROUND: Attentional resources appear to be involved in the occurrence of FoG. The Parkgait study recently reported that methylphenidate reduces gait hypokinesia and freezing of gait (FoG) in advanced PD patients receiving STN-DBS in the off-dopaminergic drug condition. Methylphenidate is considered to improve attention. The primary objective of the present ancillary study was to determine whether methylphenidate reduced the interference between a cognitive task and gait in patients with FoG. The study's secondary objective was to compare attentional performance in methylphenidate-treated and placebo-treated patients. METHODS: A total of 24 patients (from two centers) were included in the study. Patients were randomly assigned 1:1 to a three-month course of methylphenidate (1mg/kg/day) or placebo. Patients were assessed after an acute L-dopa challenge. The primary outcome criterion was the stride length ratio ((dual-task stride length minus free gait stride length)/free gait stride length). Trials with FoG episodes were excluded from the analysis. Secondary outcomes included changes in reaction times for computerized attention tasks and FoG severity. RESULTS: When comparing patients receiving methylphenidate with those receiving placebo, we did not observe any significant differences in the interaction between the dual task and gait or in attentional performance. CONCLUSION: As in the main Parkgait study, methylphenidate did not reduce gait hypokinesia in patients receiving dopaminergic treatment. Our present results suggest that the reduction in the number of FoG episodes previously observed in patients on methylphenidate was neither due to interaction between a dual-task and gait nor an increase in attentional performance.

Does overestimation of an object's mass during arm-raising modify postural adjustments?

By using a dummy weight during an arm-raising movement, we sought to determine whether (i) postural adjustments are modified and (ii) the required focal movement can be performed adequately. Standing on a force platform, 30 healthy young adults performed voluntary, arm-raising movements with cube-shaped boxes: a small 1 kg box, a large 4 kg box and a large 1 kg box (i.e. the dummy weight, which looked as if it weighed 4 kg). Postural adjustments were quantified in terms of the latency, intensity and duration of the positive phase of the vertical torque (Tz) and displacements of the center of pressure. Lifting the dummy and lifting the small 1 kg box were associated with similar arm velocity curves. The characteristics of the positive Tz phase for the dummy box were intermediate between those observed for the small 1 kg box and the large 4 kg box. There were no differences between the three box-lifting conditions in terms of the latency and duration of Tz. We conclude that overestimation of the dummy's mass was rapidly corrected by a feedback mechanism. Postural control was modified online as soon as the dummy's true weight was perceived, which therefore enabled the maintenance of balance and adequate execution of the voluntary (focal) movement.

The Functional Reach Test: strategies, performance and the influence of age.

BACKGROUND: The Functional Reach Test (FRT) is a clinical assessment of the risk of falls in elderly or disabled subjects. However, the FRT is complex (involving the leg, hip and trunk joints) and previous studies have shown that several different strategies can be used to complete the test. OBJECTIVES: To describe the strategies used by healthy, adult subjects when performing the FRT and to assess the influence of age on choice of the strategy. METHOD: This was a pilot study in which 29 non-fallers (18 under-50s and 11 over-75s) were asked to perform the FRT on a force platform in a motion analysis laboratory. A total of 18 reflective markers were placed on the body. The main outcome measures were the FRT score, the centre of pressure (CoP) excursion, and kinetic and kinematic test data. The two age groups were compared using a non-parametric, two-sample Mann-Whitney U test. A cluster analysis of the entire population grouped subjects together according to their functional similarities. RESULTS: The older subjects displayed a smaller CoP anteroposterior displacement (P<0.01), greater backwards displacement of the pelvis (P<0.05) and less trunk rotation during the FRT (P=0.024) than the younger subjects. The cluster analysis split the population into two groups, which differed in terms of age, FRT score, pelvis translation, and CoP displacement. CONCLUSION: Our results suggest that at the moment of trunk flexion, elderly subjects use pelvic translation in order to limit forward displacement of the CoP and prevent forward imbalance.

Biomechanical mechanisms and centre of pressure trajectory during planned gait termination.

AIM: Although gait initiation has been extensively studied, gait termination has received less attention. In particular, the trajectory of the centre of pressure (CoP) during gait termination, as well as the trajectory's determinants, has not yet been described. The purpose of the present study was to characterize the kinetic components of planned gait termination (including the CoP trajectory) with respect to the various gait events and centre of mass speed and trajectory. METHODS: Thirty healthy subjects were asked to walk along a test track and stop on a force platform while an optoelectronic system recorded temporal and spatial parameters. A total of 90 trials were analysed. RESULTS: Subjects needed two steps to stop on the force platform. The CoP trajectory during gait termination was composed of three phases. During the first phase, the CoP moved forward under the stance foot, which was in contact with the ground. The ground reaction forces exerted a sagittal braking action. The second phase showed a lateral CoP shift and was correlated with braking; this may correspond to anticipatory postural adjustments for gait termination. The third and last phase might correspond to compensatory adjustments before the stance phase. CONCLUSIONS: CoP trajectory is more complex during gait termination than during gait initiation. Gait termination comprises several specific sequences in the gait-stance transition. A better understanding of the kinetic parameters in gait termination should enable us to identify which kinetic parameters could be considered as risk factors for falls.

Effect of bilateral subthalamic nucleus deep brain stimulation on postural adjustments during arm movement.

OBJECTIVE: Although it is well known that postural adjustment (PA) is impaired in advanced Parkinson's disease (PD), the potentially compensatory effects of bilateral subthalamic nucleus deep brain stimulation (STN DBS) in this respect are less clear. METHODS: While standing on a force platform and in the absence of antiparkinsonian medication, 10 patients performed voluntary, unilateral arm movements before surgery (the 'off stim' condition) and then afterwards (the 'on stim' condition). The patients' PAs were monitored by vertical torque (Tz) and compared with those recorded in control subjects. RESULTS: Patients with STN DBS and control subjects showed similar values for PA amplitude, duration and latency. CONCLUSIONS: STN stimulation may induce better postural control during the movement preparation and execution phases. Our results argue in favour of a positive effect of STN DBS on PA. SIGNIFICANCE: The PA amplitude (provided by Tz) may be a strong marker reflecting the clinical improvement seen in stimulated PD patients.

Externally provoked freezing of gait in open runways in advanced Parkinson's disease results from motor and mental collapse.

Freezing of gait (FOG) in Parkinson's disease (PD) is defined as a sudden inability to maintain effective stepping movements. However, its pathophysiology remains unclear. The objectives are: (1) To assess the contribution of both spatial (walking speed, stride length) and temporal parameters (cadence, stride time) and their coefficients of variation to the genesis of FOG in PD. (2) To evaluate whether and how externally imposed modifications of self-determined gait would elicit FOG. We included ten patients with advanced PD, and with daily off drug FOG episodes. We focused on walking in an open runway. For each subject, we manipulated gait by externally imposing four changes in walking speed and four changes in cadence. FOG episodes, often with a long duration of more than 5-s, were observed mostly under conditions with a high imposed cadence. The steps that immediately preceded these episodes were mainly characterized by an increase in cadence and an increase in stride length variability. The results also underscore that FOG can be elicited in a laboratory setting when patients are placed under considerable strain, at least in advanced stages of PD. Patients were unable to adequately negotiate the extreme imposed cadence condition, and this resulted in frequent FOG episodes, even while walking in an open runway. Placing advanced PD patients into extreme imposed conditions leads to a motor wise and mental collapse response, culminating in FOG. Future work should establish the relevance of these findings for the more common forms of FOG, including brief episodes during turning or gait initiation.

STN-DBS frequency effects on freezing of gait in advanced Parkinson disease.

BACKGROUND: Severe gait disturbances and freezing episodes (frequently resistant to optimal dopaminergic treatment) often appear in advanced Parkinson disease (PD). Even several years after initiation, high-frequency subthalamic nucleus deep brain stimulation (STN-DBS) is still very effective for controlling segmental symptoms. However, there are no long-term data on the management of gait disorders and freezing in STN-DBS. OBJECTIVES: To compare the effects of various STN-DBS parameters on freezing of gait and to determine whether such effects are more related to stimulation energy (usual voltages vs high voltages at 130 Hz) or frequency (130 Hz vs approximately half this frequency: 60 Hz). METHODS: We blindly assessed STN-DBS parameters in 13 PD patients reporting severe gait disorders. We compared the effects on gait of two different voltages (the patient's usual voltage [median 3 volts] and a high voltage [median 3.7 volts]) and two different frequencies (60 and 130 Hz, while maintaining the same total energy delivered) vs "off-stimulation" conditions. RESULTS: The number of freezing episodes was significantly lower at the 60-Hz "high voltage/equivalent energy" and higher at the 130-Hz/high voltage than for "off stimulation." The slight improvement in the Unified Parkinson's Disease Rating Scale motor score observed (at 130 Hz) did not achieve statistical significance. CONCLUSIONS: Our results prompt consideration of a new strategy for two-stage subthalamic nucleus deep brain stimulation (STN-DBS) frequency optimization, with stimulation at 130 Hz and the usual voltage during the initial years of STN-DBS and then at 60 Hz at a high voltage in Parkinson disease patients who develop severe gait disorders.

Anticipatory postural adjustments associated with arm movement in Parkinson's disease: a biomechanical analysis.

OBJECTIVE: To study anticipatory postural adjustments (APAs) in Parkinson's disease (PD) via a biomechanical analysis, including vertical torque (Tz). METHODS: Ten patients with PD (in the "off-drug" condition) and 10 age matched controls were included. While standing on a force platform, the subject performed a right shoulder flexion in order to grasp a handle in front of him/her, under three conditions (all at maximal velocity): movement triggered by a sound signal and loaded/non-loaded, self-paced movement. The anteroposterior coordinates of the centre of pressure (COP) and Tz were calculated. RESULTS: A group effect was observed for Tz and COP in patients with PD (compared with controls): the maximal velocity peak appeared later and the amplitude of the COP backward displacement and the area of the positive phase of Tz were lower, whereas the duration of the positive phase of Tz was greater. Interaction analysis showed that the area of Tz was especially affected in the triggered condition and the loaded, self-paced condition. The onset of the COP backward displacement was delayed in the triggered condition. CONCLUSION: Our biomechanical analysis revealed that patients with PD do indeed perform APAs prior to unilateral arm movement, although there were some abnormalities. The reduced APA magnitude appears to correspond to a strategy for not endangering postural balance.

Gait abnormalities induced by acquired bilateral pallidal lesions: a motion analysis study.

BACKGROUND: Bilateral pallidal lesions induce a range of cognitive and motor disorders, principally a parkinsonian syndrome in which severe disturbances of gait and gait initiation are frequently reported. However, the precise clinical features of these disorders (and the role of the pallidum therein) remain to be established. OBJECTIVES: The goal of this study was to characterise gait and gait initiation disorders within the context of a parkinsonian syndrome in patients with acquired, bilateral, pallidal lesions (PAL patients), to compare these disorders to those seen in Parkinson's disease (PD), and to assess the corresponding physiopathological implications. PATIENTS AND METHODS: By using a video motion analysis system (VICON), we studied gait kinematic parameters in two patients presenting with bilateral, pallidal lesions. Kinematic and kinetic parameters were also determined during gait initiation. The two patients were compared with a group of 17 PD patients and to 20 healthy controls. RESULTS: In both PAL and PD patients, kinematic parameters (gait and gait initiation) and kinetic parameters (gait initiation) were similarly impaired, evidenced by akinesia (difficulty in initiating gait characterized by impairment of anticipatory postural adjustments). Hypokinesia and bradykinesia (respectively reduced stride length and reduced speed during gait) were also noted. CONCLUSION: The gait and gait initiation disorders seen in cases of bilateral pallidal lesions (namely akinesia, hypokinesia and bradykinesia) are similar to those observed in PD. Subject to confirmation in more extensive studies, we hypothesize that bipallidal patients may present higher level gait disorders,with potential mediation by cognitive impairment.