Safety and Performance of Agilik in CP

Cerebral Palsy Clinical Trial

— Agilik  

Official title:

Post-market Study to Demonstrate the Safety and Performance of an Extension Assist Knee Ankle Foot Orthosis (Agilik) to Improve Gait in Children With Cerebral Palsy

Clinical Trial Details — Status: Recruiting

Administrative data

• NCT number: NCT05746871
• Other study ID #: GIP1030
• Status: Recruiting
• Phase: N/A
• Start date: March 2, 2023
• Est. completion date: March 2026

Study information

• Verified date: September 2023
• Source: IRCCS Eugenio Medea
• Contact: Emilia Biffi, PhD
• Phone: 0039031877862
• Email: emilia.biffi[@]lanostrafamiglia.it
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

The purpose of this post market study is to demonstrate the safety and performance of a powered extension assist (EA) knee ankle foot orthosis (KAFO), or EA-KAFO, in individuals with knee extension deficiency due to cerebral palsy (CP). The EA-KAFO tested in this investigation, whose commercial name is Agilik™, is registered as a Class 1 medical device in the European (EU) Medical Device Regulation (MDR) and with the United States (US) Food and Drugs Administration (FDA). The study will take place in Astrolab at the Istituto Scientifico E. MEDEA - La Nostra Famiglia (IRCCS Medea hereafter). The duration of the investigation will be 36 months. The duration of the study for a single subject will be approximately 10 weeks. The primary purpose of this study is to demonstrate the safety and performance of a powered extension assist knee ankle foot orthosis (Agilik) in individuals with knee extension deficiency due to cerebral palsy. The focus is on the improvement of anti-gravity knee extension during stance in patients with CP with crouch gait. Therefore, the primary aim is to compare the knee and range of motion (ROM) at baseline and after 10 sessions of Agilik training while wearing Agilik itself. Secondary aim is to compare knee ROM before and after the training with Agilik without wearing Agilik. The changes in lower extremity functions, kinematics and muscle activity during walking with Agilik compared to baseline conditions will be examined. Furthermore, the performance of Agilik during uphill and downhill walking over the GRAIL platform will be investigated. Hypotheses when using Agilik: - Improve knee extension during stance and swing gait phases - Increase step length, walking distance and speed

Recruitment information / eligibility

• Status: Recruiting
• Enrollment: 20
• Est. completion date: March 2026
• Est. primary completion date: February 2026
• Accepts healthy volunteers: No
• Gender: All
• Age group: 5 Years to 17 Years

Eligibility

Inclusion Criteria:

• Provision of signed and dated informed consent form.
• Stated willingness to comply with all study procedures and availability for the duration of the study, or alternatively, ability to do so based on parent report and physician observation during history and physical examination.
• Age between 5 and 17
• Maximum weight of 70 Kg
• Volunteer who have a gait pathology involving the knee joint, from a diagnosis of CP
• Knee flexion retraction assessed in supine position by less than 10°. Hamstring contracture as assessed by straight leg raising test does not limit ability to participate in the study.
• Subjects must not have had a tibio-tarsal arthrodesis. In addition, they must have at least 10° of passive dorsi-flexion of the ankle.
• Able to walk at least 3 m without stopping with or without a walking aid.
• Able to understand and follow simple directions based on parent report and physician observation during history and physical examination.
• GMFCS level I, II and III
• MAS score = 2

Exclusion Criteria:

• Any neurological, musculoskeletal or cardiorespiratory injury, health condition, or diagnosis other than cerebral palsy that would affect the ability to walk as directed for short periods of time.
• A history of uncontrolled seizure in the past year
• Severe spasticity

Related Conditions & MeSH terms

• Cerebral Palsy

Intervention

Device:
• Agilik
The Agilik is a powered orthosis system that can assist or resist motion independently in each gait phase. It is used as a pair of knee-ankle-foot orthosis (KAFO), one for each leg. The device applies up to 12 Nm across the knee in the direction of either flexion or extension. The system consists of an orthosis for each leg integrated with an electro-mechanical actuator, a battery, a carry pack, cabling and application software running on a computer. A foot pressure sensor is embedded in the footbed of the KAFO and connected to the actuator. The foot sensor and angular velocity are used to detect the gait phase of the patient and communicate with the motor controller to provide a unique torque for each gait phase. The torque ramp and intensity can be modified through the Agilik App to cater towards individual patients by assisting or resisting motion during their gait. This allows for the clinician working with the patient to adjust the settings of the device for the patient's needs.

Other:
• standard care
Subjects will continue with their standard care for 5 weeks

Locations

Country	Name	City	State
Italy	IRCCS Medea	Bosisio Parini

Sponsors (2)

Lead Sponsor	Collaborator
IRCCS Eugenio Medea	Ro+Ten srl

Country where clinical trial is conducted

Italy, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	change of range of motion of the knee overground	the range of motion of the knee will be measured by means of BTS Bioengineering S.p.A. optoelectronic system during the overground gait analysis assessment with Agilik	6 weeks
Primary	change of range of motion of the knee uphill/downhill	the range of motion of the knee will be measured by means of the GRAILoptoelectronic system that is equipped with a motion platform and that will simulate uphill and downhill walking while performing gait analysis assessment with Agilik	6 weeks
Primary	change in endurance	The endurance will be measured by means of the 6 minute walking test (6MWT) with Agilik	6 weeks
Primary	change in gait speed	the gait speed will be measured by means of the 10 meters walking test (10mWT) with Agilik	6 weeks
Primary	change in spasticity	The level of spasticity in the lower limbs will be measured by means of the Ashworth scale (MAS level, Modified Ashworth scale level) with Agilik	6 weeks
Primary	change in muscle lengths	Joint and muscle lengths examination will be performed manually	6 weeks
Primary	change in centre of pressure oscillations	Centre of pressure (COP) oscillations will be assessed by means of the force plates embedded in the GRAIL system, during 1 minute of still standing	6 weeks
Primary	change in centre of mass oscillations	Centre of mass (COM) oscillations will be measured during 1 minute of standing by means of the G-Sensor, a wearable three axial accelerometer and gyroscope	6 weeks
Primary	satisfaction using Agilik	the children's satisfaction with Agilik will be evaluated with the Quebec User Evaluation of Satisfaction adapted to children (QUEST 2.1).	6 weeks
Secondary	change of range of motion of the knee overground without Agilik	the range of motion of the knee will be measured by means of BTS Bioengineering S.p.A. optoelectronic system during the overground gait analysis assessment without Agilik	6 weeks
Secondary	change of range of motion of the knee uphill/downhill without Agilik	the range of motion of the knee will be measured by means of the GRAILoptoelectronic system that is equipped with a motion platform and that will simulate uphill and downhill walking while performing gait analysis assessment without Agilik	6 weeks
Secondary	change in endurance without Agilik	The endurance will be measured by means of the 6 minute walking test (6MWT) without Agilik	6 weeks
Secondary	change in gait speed without Agilik	the gait speed will be measured by means of the 10 meters walking test (10mWT) without Agilik	6 weeks
Secondary	change in centre of pressure oscillations without Agilik	Centre of pressure (COP) oscillations will be assessed by means of the force plates embedded in the GRAIL system, during 1 minute of still standing without Agilik	6 weeks
Secondary	change in centre of mass oscillations without Agilik	Centre of mass (COM) oscillations will be measured during 1 minute of standing without Agilik by means of the G-Sensor, a wearable three axial accelerometer and gyroscope	6 weeks