Trials / Completed

CompletedNCT04794114

enGIneering For sporT for All

Summary

hemiplegia is a pathological condition that affects one side of the body which is associated with difficulty in maintaining an upright posture and walking and which is commonly compensated for by using orthoses (AFO). However, the orthoses are inadequate for sports from a design and prescription point of view, which specifies that the goal of the orthosis is to support walking and that any other use compromises its reliability. The main objective therefore provides for an improvement in the involvement of these children in sports activities (both at school and during leisure time) through the development of new generation orthoses.

Detailed description

The main objective therefore provides for an improvement in the involvement of these children in sports activities (both at school and during leisure time) through the development of new generation orthoses. Secondary objective: the second objective involves the verification of the orthosis previously designed and built, ie the device must comply with the project specifications and allow the patient to perform sports activities. Correct functioning will be tested by functional evaluation of the model developed through biomechanical analysis of movement performed indoors (in the laboratory) and outdoors. Notes on the calculation of the sample size: the project foresees the involvement at the moment of 20 children with hemiplegia under treatment at MEDEA to whom an overall improvement of the living conditions is to be guaranteed. Steps: 1-Technology design - "to play together" 2 - Analysis and identification of the guidelines for the prescription of use; 3 - Evaluation of the motor biomechanical situation of subjects wearing orthoses: indoor and outdoor to evaluate the limits of the orthosis used; 4 - identification of indicators for the evaluation of motor performance; 5 - Identification of the technical specifications (functional and clinical, mechanical, structural, geometric, materials, design) of the new generation orthosis-sensor system. 6- Definition of inclusion criteria, recruitment of 20 subjects starting from Medea and contacts with schools and families to which they belong. 7- Validation- "to verify it really runs" WP5.1 - Functional evaluation of the model developed through biomechanical analysis of movement carried out in the laboratory. The I.R.C.C.S E. Medea will appropriately select 20 children with hemiplegia and wearers of orthoses. A biomechanical assessment will be performed through gait analysis to identify the limits of the orthosis used. 8- Two conditions will be evaluated: * walking tests without orthoses; * walking tests with orthoses usually used. From the comparative analysis of the collected data, the criticalities of the device will be defined in order to identify the project specifications of the new generation orthosis. 9-Following the design and construction of the new AFO, a biomechanical evaluation will be performed again by means of gait analysis to validate its correct functioning. 10- Further validation will be performed using virtual reality environments (GRAIL Gait Real time Analysis Interactive Lab). After a rehabilitation process, once a certain degree of confidence has been reached in the use of the new orthosis, the device will be tested using outdoor wearable sensors. By doing so, it will be possible to identify indicators for the evaluation of sports performance.

Conditions

• Cerebral Palsy

Interventions

Timeline

Start date

2020-09-01

Primary completion

2021-11-30

Completion

2021-11-30

First posted

2021-03-11

Last updated

2025-05-01

Locations

1 site across 1 country: Italy

Source: ClinicalTrials.gov record NCT04794114. Inclusion in this directory is not an endorsement.