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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT05778474
Other study ID # 24C901_2019
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date May 27, 2020
Est. completion date December 2024

Study information

Verified date March 2024
Source Istituto Auxologico Italiano
Contact Luigi Tesio, MD
Phone +39 02619116151
Email l.tesio@auxologico.it
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

It is unclear why humans typically swing their arms during gait. To date, the debate on how to arm swing comes about (i.e. whether it is caused by accelerations of the shoulder girdle or muscular activity) is still going on. There needs to be consensus on whether the arm swing is actively controlled or merely passive and on why humans swing their arms during walking (i.e. what the purpose of arm swing is, if any). Suggested reasons include minimising energy consumption, optimising stability, and optimising neural control. Pathologies such as hemiplegia after stroke, Parkinson's disease, Cerebral Palsy, Spinal Cord Injury, and Multiple Sclerosis may directly affect arm swing during gait. Emerging evidence indicates that including arm movements in gait rehabilitation may be beneficial in restoring interlimb coordination and decreasing energy expenditure. This project hypothesises that the arms swing, at least at low and intermediate walking speeds, reflects the body's Center of Mass (CoM) accelerations. Arm swing may thus depend mainly upon the system's intrinsic mechanical properties (e.g., gravity and inertia). In this perspective, the CoM is seen as moving relative to the upper limbs rather than the other way around. The contribution of major lower limb joints, in terms of power injected into the body motion, will be simultaneously explored. The study aims to investigate the mechanism and functions of arm swinging during walking on a force treadmill. To simulate asymmetric walking, healthy subjects will be asked to walk with a toes-up orthosis to induce claudication and asymmetry in ankle power. In this way, it will be possible to highlight the correlation among arm swinging, ankle power, and the acceleration of the CoM in a 3D framework. In addition, subjects affected by unilateral motor impairments will be asked to walk on the force treadmill to test the experimental model and highlight significant differences in the kinematic parameters of the upper limbs. The question of whether arm swing is actively controlled or merely passive and the relationship between arm swinging and the total mechanical energy of the CoM will be faced. Asymmetric oscillations of the upper limb will be related to dynamic asymmetries of the COM motion, and of the motion of lower limbs. In addition, cause-effect relationships will be hypothesized. Finally, the dynamic correlates of upper limb oscillations will make the clinical observation an interpretable clinical sign applicable to rehabilitation medicine. Results from the present study will also foster the identification of practical rehabilitation exercises on gait asymmetries in many human nervous diseases.


Recruitment information / eligibility

Status Recruiting
Enrollment 25
Est. completion date December 2024
Est. primary completion date December 2024
Accepts healthy volunteers No
Gender All
Age group 18 Years to 80 Years
Eligibility Inclusion Criteria: - presence of claudication (spatiotemporal asymmetry between subsequent steps), at visual inspection; - unilateral motor impairments of one lower limb as a consequence of various pathologic conditions, such as (not not limited to): poststroke hemiparesis (ischemic or hemorrhagic), Parkinson's disease, multiple sclerosis, unilateral amputation with prosthetic correction, surgical orthopedic interventions; - ability to walk for at least 100 meters without support; prostheses or orthoses admitted. - ability to wittingly sign the informed consent form Exclusion Criteria: - drug therapy underway up to three months before recruitment, with impact on balance and gait; - systemic pathologies or other sensory or neurological pathologies with impact on balance and gait; - Mini Mental State (MMSE) score < 24/30; - alterations in the passive mobility of upper limbs; - painful syndrome which could alter the locomotion; - pregnancy

Study Design


Intervention

Other:
Healthy subjects
Participants' ground spontaneous speed overground will be tested by means of the 10-meter walking test. Participants will be tested for their foot dominance by means of the Waterloo footedness questionnaire-revised. Participants will walk on a treadmill mounted on force sensors. The test sequence will be the following: Familiarization. Participants will walk on the treadmill with the belt running at increasing velocities up to their spontaneous walking velocity . Speed will be increased of 0.2 m s-1 every 30 s. A brief pause of around 1 minute will follow. Walking. Participants will walk at 0.4 m s-1 and 1.2 m s-1 for at least 30 seconds. Walking with a rigid ankle-foot orthosis. Participants will walk at 0.4 m s-1 and 1.2 m s-1 for at least 30 seconds with an ankle-foot orthosis on the dominant lower limb. Participants will repeat the last point (n°3) with the ankle-foot orthosis on the non-dominant lower limb. A 3-min pause will follow each section.
Pathologic group
Participants will walk on a treadmill mounted on force sensors. They will walk freely, under tight supervision, but without hanging to any support. The test sequence will be the following: 4. Familiarization. Participants will walk on the treadmill with the belt running at increasing velocities up to their spontaneous walking velocity . Speed will be increased of 0.1 m s-1 every 30 s. A brief pause of around 1 minute will follow. 5. Walking. Participants will walk at 0.4 m s-1 for at least 30 seconds. Participants will be informed a few seconds before the changes in belts' velocities with a verbal warning.

Locations

Country Name City State
Italy Istituto Auxologico Italiano Milan

Sponsors (1)

Lead Sponsor Collaborator
Istituto Auxologico Italiano

Country where clinical trial is conducted

Italy, 

Outcome

Type Measure Description Time frame Safety issue
Other Time parameters Single Stance Time: for each lower limb, the time interval during which the limb determines vertical ground reactions equal to or exceeding 30 N.
Double Stance Time: the time interval during which, under both lower limbs, vertical ground reactions equal or exceed 30 N.
Time parameters are measured in seconds [s].
Day 1
Other The trajectory of the center of mass the trajectory of the centre of mass will be studied in the sagittal and frontal planes during the strides. will be measured in meters [m]. Day 1
Primary Ankle joint power Joint kinematics will be recorded through an optoelectronic method as per the Davis anthropometric model. The 3D displacement of the markers will be captured using 10 near-infrared stroboscopic cameras. Joint power will be computed through the spatiotemporal synchronization of ground reaction force vectors and the joint centers of rotation. The sagittal plane will be only considered for the analysis. Joint power will be computed as the product of joint torque and joint rotation speed. Power will be defined as positive or generated when the joint moment and rotation speed shared the same directions (i. e., when agonist muscles are contracting while shortening), as negative or absorbed otherwise. Positive work will be computed as the integral of the generated (positive) power over time. Day 1
Secondary Spatio parameter Step length: the sagittal distance between the markers put on the lateral malleolus of the posterior and anterior feet at the ground strike of the anterior foot.
The Step length is measured in meters [m].
Day 1
Secondary Shoulder and elbow joint angles on the sagittal plane Shoulder flexion-extension angle, Elbow flexion-extension angle. Angle is measured in degrees (deg.) Day 1
Secondary Energy of the center of mass The changes in kinetic energy due to the forward (Ekf), lateral (Ekl) and vertical (Ekv) velocity; the changes of gravitational potential energy (Ep); the changes of the mechanical energy due to the vertical motion, Ev = Ekv+Ep; the changes of the total mechanical energy (Etot = Ekf+Ekl +Ev). Amounts of energy are measured in Joule/Kg. Day 1
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