Kinesthetic Brain Exercise in Hemiplegic Individuals With Stroke

April 25, 2024 updated by: Betül Taşpınar, Izmir Democracy University

Investigation of the Effect of Kinesthetic Brain Exercise on Fall Risk, Balance and Quality of Life in Hemiplegic Individuals With Stroke

The success of conventional physical therapy in the rehabilitation of stroke patients is demonstrated in the light of studies. In this study, the effects of kinesthetic brain exercises, which is a new exercise approach to be applied together with conventional physiotherapy and rehabilitation, on fall risk, balance, and quality of life will be investigated in hemiplegic individuals who have had a stroke. Thus, it is thought that the effectiveness of kinesthetic brain exercises applied together with conventional physiotherapy and rehabilitation will contribute to the literature for the creation of rehabilitation programs.

Study Overview

Status

Recruiting

Conditions

Intervention / Treatment

Detailed Description

Stroke is a clinically defined syndrome characterized by rapidly developing symptoms or signs of cerebral dysfunction with no apparent cause other than vascular causes. Symptoms last more than 24 hours and can lead to death. Findings after stroke; upper and lower extremity motor dysfunctions, spasticity, loss of balance and coordination, walking, swallowing, vision, and communication problems. It has been reported that the disability rate ranges from 13-66% and the disability rate varies between 12-64% due to these functional losses that occur after stroke.

In stroke patients, hemiplegic picture occurs depending on the size and location of the damage in the brain. hemiplegia: It is a paralysis that affects the upper and lower extremities of one side of the body. A decrease in muscle strength, loss of sensation and dysfunction occur on the affected side.

After stroke, the lower extremities are severely affected in hemiplegic individuals. Instability of ankle and knee joints is seen in hemiplegic lower extremities. However, due to instability, the center of gravity shifts towards the unaffected side, which causes balance and coordination disorders. Balance and coordination disorders in hemiplegic individuals cause poor performance in activities and an increased incidence of falls.

Kinesthetic brain exercises: Studies investigating the effects of movement, physical activity and exercises on learning and cognitive development have shown that increased attention span, better focus, better behavioral method, and physical activity that contributes to better learning are supported. Conceptually, brain exercises are expressed by the formula: Physical activity + Brain Activity = Better cognitive function.

Neuroplasticity is the basis of kinesthetic brain exercises. In the light of research, it has been found that the brain is in a state of re-activating the activity that cannot be done by using other ways. In rehabilitation sessions, it is aimed to reconstruct these pathways by transforming daily activities into purposeful exercises. According to Dennison, the founder of kinesthetic brain exercises, brain exercises; It is a combination of physical and mental training with a series of physical movements that activate the whole body in turn, improving the neural connections between the two cerebral hemispheres to enhance learning. Kinesthetic brain training consists of twenty-six simple movements combined with deep breathing. Most of these movements are done diagonally. These diagonal movements result in stimulation and integration of different parts of the brain, especially the corpus callosum, which enables faster and more integrated communication between the two hemispheres in the long run. It is claimed that this situation supports the formation of new neural connections between the two hemispheres of the brain. Drabben et al. In their study, they suggest that brain exercises may be considered a useful physical therapy strategy for older adults, as they can have a positive effect on brain functioning.

The aim of this study is to investigate the effects of kinesthetic brain exercises on lower extremity coordination and balance in hemiplegic individuals who have had a stroke. Thus, it is thought that the effectiveness of kinesthetic brain exercises applied together with conventional physiotherapy and rehabilitation will contribute to the literature for the creation of rehabilitation programs.

Study Hypothesis as follows; Kinesthetic brain exercises have an effect on fall risk, balance and quality of life in hemiplegic individuals who have had a stroke.

Study Type

Interventional

Enrollment (Estimated)

20

Phase

  • Not Applicable

Contacts and Locations

This section provides the contact details for those conducting the study, and information on where this study is being conducted.

Study Contact

  • Name: Betul Taspinar, Prof. Dr.
  • Phone Number: +90 506 680 44 26
  • Email: ptbetul@gmail.com

Study Contact Backup

Study Locations

  • Turkey
      • İzmir, Turkey, 35290
        • Recruiting
        • Izmir Democracy University
        • Contact:
        • Contact:
        • Sub-Investigator:
          • Hatice Resorlu, Assoc. Prof.
        • Sub-Investigator:
          • Ferruh Taspinar, Prof. Dr.

Participation Criteria

Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.

Eligibility Criteria

Ages Eligible for Study

  • Adult

Accepts Healthy Volunteers

No

Description

Inclusion Criteria:

  • Being in the 30-60 age range
  • Being in the subacute/chronic period (6 months and above).
  • Having unsupported sitting balance.
  • Having the ability to ambulate with and without support
  • Not having botox application for the lower extremities in the last 6 months
  • Being at least 3 and above according to the Functional Ambulation Scale
  • At least level 3 or higher according to Bruunstrom Lower Extremity Motor Staging.

Exclusion Criteria:

  • Having a rheumatological, orthopedic or cardiopulmonary disease that prevents participation in exercises
  • Having secondary diseases (MS, Parkinson's, spinal cord injuries, contractures, and post-fracture deformities, etc.)
  • Having cognitive, visual, and auditory problems that prevent communication
  • Having vestibular system disorders.

Study Plan

This section provides details of the study plan, including how the study is designed and what the study is measuring.

How is the study designed?

Design Details

  • Primary Purpose: Treatment
  • Allocation: Randomized
  • Interventional Model: Parallel Assignment
  • Masking: Single

Arms and Interventions

Participant Group / Arm
Intervention / Treatment
Experimental: KB Exercises plus Conventional Rehabilitation Group

While the participants in the study group will continue the conventional rehabilitation program described below for 3 weeks, lasting 45 minutes on average, 5 sessions a week, they will participate in a total of 9 sessions of kinesthetic brain exercises, 3 sessions a week lasting 30 minutes on average.

Kinesthetic Brain Exercises Program; The kinesthetic brain exercises program basically consists of 3 phases: warm-up phase, exercise phase and cool-down phase.
Other: KB Exercises Program

Kinesthetic Brain Exercises will carried out for 3 weeks, lasting 45 minutes on average, 5 sessions a week, they will participate in a total of 9 sessions of kinesthetic brain exercises, 3 sessions a week lasting 30 minutes on average.

Kinesthetic Brain Exercises Program; The kinesthetic brain exercises program basically consists of 3 phases: warm-up phase, exercise phase and cool-down phase.

Other Names:
  • KINESTHETIC BRAIN EXERCISES
Other: Conventional Rehabilitation program
Conventional Rehabilitation program; strengthening exercises, balance/gait training, Proprioceptive Neuromuscular Facilitation techniques, neuromuscular electrical stimulation.
Other: Conventional Rehabilitation Group
Control Group; Conventional Rehabilitation program; strengthening exercises, balance/gait training, Proprioceptive Neuromuscular Facilitation techniques, neuromuscular electrical stimulation.
Other: Conventional Rehabilitation program
Conventional Rehabilitation program; strengthening exercises, balance/gait training, Proprioceptive Neuromuscular Facilitation techniques, neuromuscular electrical stimulation.

What is the study measuring?

Primary Outcome Measures

Outcome Measure
Measure Description
Time Frame
Evaluation of Spasticity
Time Frame: Change from Baseline at 3 weeks
Upper and lower extremity spasticity status will be evaluated according to the modified Ashworth scale. Spasticity score will be calculated by adding upper extremity spasticity scores of fingers, wrist, elbow and shoulder spasticity scores for upper extremity, and spasticity scores for lower extremity by adding toes, ankle, knee and hip spasticity scores. Higher scores indicate high spasticity.
Change from Baseline at 3 weeks
Brunnstrom Motor Staging
Time Frame: Change from Baseline at 3 weeks
The Brunnstrom motor assessment is used to evaluate motor function of the hemiplegic side, upper-lower extremities, and hand. According to Brunnstrom, the healing process consists of 6 stages. While the 1st stage is the flaccid stage without isolated movement, the 6th stage is the isolated voluntary movement stage. Only the lower extremity section will be used in this study.
Change from Baseline at 3 weeks
Functional Ambulation Classification (FAS)
Time Frame: Change from Baseline at 3 weeks
The Functional Ambulation Classification is a widely used ambulation scale that evaluates gait. It is scored between 0 and 5 according to the amount of support the patients receive during walking and consists of 6 categories in total. A score of 0 indicates fully dependent ambulation, while a score of 5 indicates completely independent ambulation.
Change from Baseline at 3 weeks
Activity-Specific Balance Confidence Scale
Time Frame: Change from Baseline at 3 weeks
It is a self-report form that asks people to evaluate their balance performance during 16 activities determined in the home and outdoor environment. The scale consists of 16 different activities and each item is scored between 0-100. A score of 0 indicates no confidence, and a score of 100 indicates full confidence. The total score is obtained by summing each item score and dividing it by the number of items. A score below 50 indicates a low level, a score between 50-80 indicates a moderate level, and a score above 80 indicates a high level of physical activity.
Change from Baseline at 3 weeks
Timed Sit to Stand Test
Time Frame: Change from Baseline at 3 weeks
It is a test used to evaluate lower extremity performance and fall risk in stroke patients. During the test, the patient sits on the arm support chair with her back straight and is asked to get up and sit 5 times in quick succession, with her arms crossed on her chest. The elapsed time is recorded in seconds. The patient who cannot stand up unassisted is allowed to get support from the chair and is noted as such. The test is repeated 3 times and the average time is taken. The discrimination cut-off value of this test in stroke individuals is accepted as 12 seconds. If the test takes 15 seconds or more, it is accepted as a risk of repeated falls in elderly individuals.
Change from Baseline at 3 weeks
Timed Up and Go Test
Time Frame: Change from Baseline at 3 weeks
It is a clinical evaluation test used to evaluate fall risk and dynamic balance in individuals. Patients are asked to sit in an upright position on a chair with an upright back, and with the start command, they are asked to walk 3 meters and return to sit on the chair again. The elapsed time is recorded in seconds. If the patient is walking with an assistive device, he is allowed to walk with an assistive device. The test is repeated 3 times and the average time is recorded. If the test takes more than 14 seconds, it indicates an increased risk of falling in stroke patients.
Change from Baseline at 3 weeks
One Leg Standing Test
Time Frame: Change from Baseline at 3 weeks
The one leg standing test is used to evaluate static balance and postural control. Patients are asked to stand on one leg. The test is finished when the patient touches the ground when he/she stands up or when he/she stands on one leg for 30 seconds. Both legs are repeated 3 times and the average elapsed time is recorded.
Change from Baseline at 3 weeks
Berg Balance Scale
Time Frame: Change from Baseline at 3 weeks
Berg balance scale is used to evaluate postural control and fall risk. Berg balance scale consists of 14 items. Each item is scored from 0-4 by observing the performance of the individual. A score of 0 indicates that the patient could not do the activity, and 4 points indicate that she completed the activity independently. According to the Berg balance scale, the highest score that can be obtained is 56, and a score below 45 indicates the risk of falling. A score of 0-20 indicates balance disorder, an acceptable balance between 21-40, and a good balance of 41-56 points.
Change from Baseline at 3 weeks
Assessment of Fall Risk
Time Frame: Change from Baseline at 3 weeks
This scale consists of 2 sections and 19 risk factors. Major risk factors are given 5 points and minor risk factors are given 1 point. Patients with a score of 5 or more on the scale are considered to have a high risk of falling, and patients with a score of less than 5 are considered to have a low risk of falling.
Change from Baseline at 3 weeks
Stroke-Specific Quality of Life Scale
Time Frame: Change from Baseline at 3 weeks
This scale consists of 12 fields containing 49 items. These areas are; mobility (6 items), energy (3 items), upper extremity function (5 items), work/production (3 items), temperament (5 items), self-care (5 items), social role (5 items), family role ( It consists of 3 items), vision (3 items), language (5 items), thinking (3 items), and personality traits (3 items). Each fields has a maximum score of 5 and higher scores indicate better quality of life.
Change from Baseline at 3 weeks

Collaborators and Investigators

This is where you will find people and organizations involved with this study.

Sponsor

Izmir Democracy University

Investigators

  • Study Chair: Hatice Resorlu, Assoc. Prof., Çanakkale 18 March University
  • Study Chair: Ferruh Taspinar, Prof. Dr., Izmir Democracy University

Study record dates

These dates track the progress of study record and summary results submissions to ClinicalTrials.gov. Study records and reported results are reviewed by the National Library of Medicine (NLM) to make sure they meet specific quality control standards before being posted on the public website.

Study Major Dates

Study Start (Actual)

September 4, 2023

Primary Completion (Estimated)

April 25, 2024

Study Completion (Estimated)

May 22, 2024

Study Registration Dates

First Submitted

July 27, 2023

First Submitted That Met QC Criteria

August 11, 2023

First Posted (Actual)

August 15, 2023

Study Record Updates

Last Update Posted (Actual)

April 26, 2024

Last Update Submitted That Met QC Criteria

April 25, 2024

Last Verified

April 1, 2024

More Information

Terms related to this study

Keywords

Additional Relevant MeSH Terms

Other Study ID Numbers

  • STROKE-KBE-35

Plan for Individual participant data (IPD)

Plan to Share Individual Participant Data (IPD)?

NO

Drug and device information, study documents

Studies a U.S. FDA-regulated drug product

No

Studies a U.S. FDA-regulated device product

No

This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.

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