Your search keyword '"Godi M"' showing total 6 results

1. Correspondence: Treadmill walking after stroke.

Author

Godi M, Arcolin I, Corna S, and Giardini M

Subjects

Exercise Test, Humans, Stroke, Walking

Published

2021

2. Intensive cycle ergometer training improves gait speed and endurance in patients with Parkinson's disease: A comparison with treadmill training.

Author

Arcolin I, Pisano F, Delconte C, Godi M, Schieppati M, Mezzani A, Picco D, Grasso M, and Nardone A

Subjects

Aged, Aged, 80 and over, Antiparkinson Agents therapeutic use, Biomechanical Phenomena, Body Mass Index, Comorbidity, Exercise Test, Female, Gait, Humans, Male, Middle Aged, Parkinson Disease epidemiology, Pilot Projects, Postural Balance, Severity of Illness Index, Treatment Outcome, Bicycling, Exercise Therapy methods, Parkinson Disease therapy, Walking

Abstract

Purpose: Cycle ergometer training improves gait in the elderly, but its effect in patients with Parkinson's disease (PD) is not completely known., Methods: Twenty-nine PD inpatients were randomized to treadmill (n = 13, PD-T) or cycle ergometer (n = 16, PD-C) training for 3 weeks, 1 hour/day. Outcome measures were distance travelled during the 6-min walking test (6MWT), spatio-temporal variables of gait assessed by baropodometry, the Timed Up and Go (TUG) duration, the balance score through the Mini-BESTest, and the score of the Unified Parkinson's Disease Rating Scale (UPDRS)., Results: Sex, age, body mass index, disease duration, Hoehn-Yahr staging, comorbidity and medication did not differ between groups. At end of training, ANCOVA showed significant improvement, of similar degree, in both groups for 6MWT, speed, step length and cadence of gait, TUG, Mini-BESTest and UPDRS., Conclusions: This pilot study shows that cycle ergometer training improves walking parameters and reduces clinical signs of PD, as much as treadmill training does. Gait velocity is accompanied by step lengthening, making the gait pattern close to that of healthy subjects. Cycle ergometer is a valid alternative to treadmill for improving gait in short term in patients with PD.

Published

2016

3. The generation of centripetal force when walking in a circle: insight from the distribution of ground reaction forces recorded by plantar insoles.

Author

Turcato AM, Godi M, Giordano A, Schieppati M, and Nardone A

Subjects

Accelerometry, Adult, Biomechanical Phenomena, Female, Functional Laterality physiology, Gait physiology, Heel, Humans, Male, Metatarsal Bones physiology, Prosthesis Design, Thorax physiology, Toes physiology, Young Adult, Foot physiology, Orthotic Devices, Walking physiology

Abstract

Background: Turning involves complex reorientation of the body and is accompanied by asymmetric motion of the lower limbs. We investigated the distribution of the forces under the two feet, and its relation to the trajectory features and body medio-lateral displacement during curved walking., Methods: Twenty-six healthy young participants walked under three different randomized conditions: in a straight line (LIN), in a circular clockwise path and in a circular counter-clockwise path. Both feet were instrumented with Pedar-X insoles. An accelerometer was fixed to the trunk to measure the medio-lateral inclination of the body. We analyzed walking speed, stance duration as a percent of gait cycle (%GC), the vertical component of the ground reaction force (vGRF) of both feet during the entire stance, and trunk inclination., Results: Gait speed was faster during LIN than curved walking, but not affected by the direction of the curved trajectory. Trunk inclination was negligible during LIN, while the trunk was inclined toward the center of the path during curved trajectories. Stance duration of LIN foot and foot inside the curved trajectory (Foot-In) was longer than for foot outside the trajectory (Foot-Out). vGRF at heel strike was larger in LIN than in curved walking. At mid-stance, vGRF for both Foot-In and Foot-Out was higher than for LIN foot. At toe off, vGRF for both Foot-In and Foot-Out was lower than for LIN foot; in addition, Foot-In had lower vGRF than Foot-Out. During curved walking, a greater loading of the lateral heel occurred for Foot-Out than Foot-In and LIN foot. On the contrary, a smaller lateral loading of the heel was found for Foot-In than LIN foot. At the metatarsal heads, an opposite behaviour was seen, since lateral loading decreased for Foot-Out and increased for Foot-In., Conclusions: The lower gait speed during curved walking is shaped by the control of trunk inclination and the production of asymmetric loading of heel and metatarsal heads, hence by the different contribution of the feet in producing the body inclination towards the centre of the trajectory.

Published

2015

4. Curved walking in hemiparetic patients.

Author

Godi M, Nardone A, and Schieppati M

Subjects

Adaptation, Physiological, Aged, Aged, 80 and over, Biomechanical Phenomena, Female, Foot physiopathology, Gait physiology, Humans, Male, Middle Aged, Paresis physiopathology, Posture physiology, Psychomotor Performance physiology, Rotation, Stroke Rehabilitation, Stroke physiopathology, Walking physiology

Abstract

Objective: Curved walking requires complex adaptations, including shift of body weight to counteract the ensuing centrifugal force, and the production of strides of different length between legs. We hypothesized that gait capacities would be more stressed in hemiparetic patients than in healthy subjects when walking along curved, compared with straight, trajectories., Methods: Twenty chronic, stabilized stroke patients and 20 healthy subjects walked along straight or curved trajectories. Mean cadence and gait velocity were off-line computed from video recordings. An electronic walkway detected asymmetry of single support and degree of foot yaw angle at mid-stance. Centre of pressure during standing was recorded by posturography., Results: Compared with linear walking, the velocity of curved walking was not significantly smaller in patients, and was independent of affected body side or direction of rotation. It was inversely correlated with paretic limb weakness, asymmetry of single support, and shift of centre of pressure toward the healthy side. External rotation of the paretic foot relatively favoured curved walking toward the paretic side., Conclusion: Curved locomotion is defective in stabilized stroke patients, but impairment is not dependent on direction of rotation, indicating a shared task between legs or occurrence of effective functional adaptation. These findings advocate rehabilitation exercises targeting complex gait adaptations, including curved walking.

Published

2010

5. Walking along circular trajectories in Parkinson's disease.

Author

Guglielmetti S, Nardone A, De Nunzio AM, Godi M, and Schieppati M

Subjects

Aged, Aged, 80 and over, Antiparkinson Agents therapeutic use, Case-Control Studies, Exercise Therapy methods, Female, Gait drug effects, Gait Disorders, Neurologic drug therapy, Gait Disorders, Neurologic etiology, Gait Disorders, Neurologic rehabilitation, Humans, Levodopa therapeutic use, Male, Middle Aged, Parkinson Disease drug therapy, Parkinson Disease rehabilitation, Postural Balance drug effects, Psychomotor Performance drug effects, Regression Analysis, Severity of Illness Index, Parkinson Disease physiopathology, Postural Balance physiology, Psychomotor Performance physiology, Walking physiology

Abstract

We hypothesized that gait capacities would be more stressed in patients with Parkinson's disease (PD) when walking along curved than straight trajectories, owing to the complex adaptations required for this walking task. Twenty on-phase patients with PD and 20 healthy subjects walked eyes-open along straight and curved trajectories for 1 minute at self-paced cadence and velocity. Step frequency along straight and curved trajectories was computed from video-recordings of the lower limbs. Step frequency was not affected by trajectory shape in either patients with PD or healthy subjects. Distances run by the patients were shorter than normal under both conditions. However, in PD, distances were relatively shorter during curved than straight walking; therefore, decreased distances in PD were connected with decreased mean step length (as the ratio between distance and step number). No correlation was found between the above mentioned variables and the severity or duration of the disease or the frequency of falls. Walking along curved trajectories can highlight impaired gait control in on-phase patients with PD, and can be suitable for the routine evaluation of possible walking disorders when straight walking is not significantly affected.

Published

2009

6. Comparing vertical ground reaction force in patients with Parkinson's disease and healthy subjects walking on a circular path.

Author

Giardini, M., Turcato, A.M., Corna, S., and Godi, M.

Subjects

*PARKINSON'S disease patients, *GROUND reaction forces (Biomechanics), *WALKING

Published

2023