Clinical Trials Logo

Clinical Trial Summary

Concept of action simulation; It is an internal representation of motor programs that does not involve explicit movement. Motor imagery method (MI) or movement observation (HG) method are considered two separate action simulation methods that activate motor regions in the brain. Both methods remain a popular and effective tool for improving motor learning. Research has shown that clinicians working in rehabilitation settings are aware of the needs of patients, athletes, etc. are recommended as methods that participants can use to improve their motor skills. Motor imagery training is a dynamic mental process in which a movement is mentally visualized without any visible movement or any voluntary motor muscle activation. Movement observation training is a method that involves internal, real-time motor simulation of movements in which the observer visually perceives movements performed by another. Mirror neurons, located primarily in the rostral part of the inferior parietal lobe and the ventral premotor cortex, are activated both when an action is physically performed and when the action is observed being performed by another person. Studies using neuroimaging techniques have provided support for this theory by showing that many areas known to be active during action simulation, such as the dorsal pre-motor cortex, supplementary motor area, superior parietal lobe, and intraparietal sulcus, are indeed active during both HG and MI. There is evidence in the literature that MI and HG also trigger sympathetic nervous system activation. There may be changes in respiration, heart rate and skin temperature, as well as an increase in electrodermal activity. EEG is an inexpensive, noninvasive, and simple examination that can be used to evaluate neurophysiological functions by measuring electrical activity. Understanding the mechanism of beta rhythms is important because they are associated with conscious thinking, logical thinking, memory and problem solving, whereas suppression of beta waves contributes to depression and cognitive decline. This study will investigate the effectiveness of exercising or watching or imagining exercise on brain functions.


Clinical Trial Description

Participants in the study were divided into 3 groups. One group was shown breathing exercises and asked to imagine these exercises(Motor imagery and action observatin). The second group was made to do active exercises(The same exercises used in motor imagery and action observation were actively performed). The third group was not made to do anything. The exercises lasted 10 minutes. Watching and imagining the movement was also organized as a 10-minute program. That's why the control group was not allowed to do anything for 10 minutes. EEG recordings were taken during this 10-minute period in all three groups. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT06099483
Study type Interventional
Source Istanbul Medipol University Hospital
Contact
Status Completed
Phase N/A
Start date August 1, 2023
Completion date September 30, 2023

See also
  Status Clinical Trial Phase
Completed NCT04103138 - EEG Monitoring Under Anaesthesia in Children: Towards Personalized Anaesthesia Care N/A
Completed NCT03643406 - The Effect of Mental Fatigue on Lower Limb Functional Performance Tests and Brain Activity in a Healthy Population N/A
Recruiting NCT05645835 - Dynamic Neural Systems Underlying Social-emotional Functions in Older Adults N/A
Enrolling by invitation NCT05659277 - The Effects of Stress & Irregular Shift Hours on First Responders
Recruiting NCT05706194 - Early Neuroprognostication After OHCA
Recruiting NCT05376696 - Behavioural and Physiological Measures of Young Students With Dyslexia N/A
Recruiting NCT05417542 - Multimodal Analysis of the Young Brain on Rhythm Perception: From Premature Neonates to Infants N/A
Recruiting NCT05818163 - Association of Perioperative Electroencephalography Spectral Analysis With Postoperative Complications
Completed NCT04030390 - The Effect of Physical Fatigue on Different Balance Tests and Brain Activity in a Healthy Population N/A
Enrolling by invitation NCT05892419 - Electrophysiological Signatures of Distinct Working Memory Subprocesses That Predict Long-term Memory Success
Recruiting NCT06203522 - Factors Associated With Successful Completion of MRI in Children Undergoing a Vigil Sedation With Dexmedetomidin
Recruiting NCT04981626 - Interoception in Anorexia Nervosa
Recruiting NCT06241963 - High Definition Transcranial Direct Current Stimulation (HD-tDCS) for Refractory Epilepsy N/A
Recruiting NCT04270734 - Neural Signatures of Processing the Temporal Features of Auditory Events: From Preterm Infancy to Adulthood N/A
Completed NCT03537885 - EEG Analytics to Determine Effectiveness of a tDCS Protocol N/A
Recruiting NCT04539080 - Heart Rate Variability and Electroencephalography Analysis in Laparoscopic Surgery With or Without Transversus Abdominis Plane Block
Completed NCT04345926 - Dose-response Curves Between Propofol and Intraoperative Electroencephalographic Patterns Phase 4
Completed NCT04545294 - Theta tACS During Working Memory Training: A Pilot Study of the Effects on Negative Symptoms of Schizophrenia N/A