The Effect of Ankle Foot Orthesis on Task-oriented Treatment in Stroke

Summary

A stroke is a neurological condition and a major cause of disability in adults. It occurs suddenly and causes specific brain function problems, leading to noticeable symptoms that last for more than 24 hours.Stroke commonly causes impairments in sensory, motor, and cognitive functions. Approximately 80% of patients experience motor deficits in the lower extremities, often accompanied by balance disturbance (3). Traditionally, neurodevelopmental treatments aimed at restoring normal movement patterns have been used in stroke rehabilitation. However, research on both animals and humans has shown that this approach alone is insufficient. These studies have shown that task-oriented functional exercise training can induce changes in activation patterns in a large portion of the damaged brain areas, leading to restoration of function (4, 5). Engaging in meaningful and repetitive goal-directed functional tasks can effectively enhance neuroplasticity and facilitate recovery.

Task-oriented training is an exercise therapy designed for stroke patients, based on motor learning theory, which emphasizes the repetition of motor skills and aims to enhance performance through meaningful tasks . Lord et al. were the first researchers to conceptually apply task-oriented training, using a total of 19 different functional exercises in their study. They found that both deficiency-based and task-oriented training showed similar results in terms of improving walking and balance skills. However, more recent studies have shown that task-specific, task-oriented treatment programs are superior to traditional facilitation-based therapeutic approaches. Another study comparing conventional physiotherapy, task-oriented group training, and individual task-oriented training, with the aim of assessing the effects of exercises, demonstrated that task-oriented group training led to better outcomes in tasks such as sitting, standing, overcoming obstacles, circular walking, and carrying objects.

Two others found that the foot was more dorsiflexed at higher stiffnesses during initial contact in patients post- stroke An Ankle-Foot Orthosis (AFO) plays a crucial role in individuals with paralysis during walking, particularly in the heel strike and loading phases, by restraining plantar flexion and assisting the impaired function of the dorsiflexors. In individuals with paralysis, dorsiflexion, the upward movement of the ankle, is often weakened or lost. The AFO helps address this issue by maintaining the desired position of the ankle joint, contributing to the preservation of normal gait during walking.

Additionally, during the swing phase (when the leg moves forward), the AFO helps maintain the ankle joint position, supporting toe-off. This enhances walking efficiency and provides stability during the step. Thus, the AFO not only offers support but also significantly contributes to functional improvement, greatly enhancing the walking ability of individuals with paralysis.

Combined use of task-oriented training and orthoses are typically focused on the upper extremity functions rather than the lower extremity functions in patients with stroke. Therefore, in this study, it was aimed to investigate the effects of task-oriented training with and without an ankle-foot orthosis (AFO) on lower extremity function in individuals with stroke. It was hypothesized that task-oriented training with an AFO would lead to greater improvements in lower extremity function such as balance, walking, and stability and quality of life in stroke patients.

The study included 40 individuals with stroke. The inclusion criteria of the study were as follows: aged 18 and older, who had experienced their first stroke, Brunnstrom lower extremity score of ≥3, a Functional Ambulation Classification score of ≥2, at least 3 months post-stroke, and having no other neurological disorders. The individuals will be diagnosed at the Physical Therapy and Rehabilitation outpatient clinic of Balıkesir Atatürk City Hospital by the same neurologist and received treatment at the hospital's rehabilitation department.All patients participated in an intensive physical therapy program for 1 hour per day, 5 days a week, over a period of 4 weeks. For GoPT, a 7-station exercise protocol designed, consisting of motor activities progressing from easy to difficult, with the goal of transforming these activities into permanent skills through meaningful tasks. Participants randomly divided into two groups: the task-oriented physical therapy group (GoPT) (n=19), the task-oriented program plus plastic static ankle-foot orthosis group (GoPT+AFO) (n=20). All participants in the groups were evaluated by a physiotherapist before treatment and after the 4-week intervention period.Six-Minute Walk Test, 10-Meter Walk Test,Timed Up and Go Test,Berg Balance Scale, Functional Reach Test,Stroke Impact Scale were evaluated.

Conditions

• Stroke

Interventions

PROCEDURE

Exercise

7-station exercise protocol was designed, consisting of motor activities progressing from easy to difficult, with the goal of transforming these activities into permanent skills through meaningful tasks. Each station aimed to gradually improve the patient's motor abilities. Patients were allowed to rest between tasks, and the difficulty of the tasks progressively increased based on each patient's capacity. This 7-station protocol was designed for the first time by our own research team

PROCEDURE

Exercise

In addition to the task-oriented training program, the group using plastic static ankle-foot orthoses performed the same 7-station exercise protocol as the task oriented training group. However, participants in this group were required to wear custom-made plastic static ankle-foot orthoses while completing the exercises.

Sponsors & Collaborators

• Balikesir Ataturk City Hospital

  collaborator OTHER_GOV

• Ankara Medipol University

  lead OTHER

Principal Investigators

• sezen dincer, asst prof · ankara medipol univercity

Study Design

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

SINGLE

Model

PARALLEL

Eligibility

Min Age

18 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2020-02-02

Primary Completion

2024-05-01

Completion

2024-12-01

Countries

• Turkey (Türkiye)

Study Locations