The Effect of Transcranial Direct Current Stimulation (tDCS) on Dyspnoea Perception, Pulmonary Function and Functional Level During COPD Exacerbation

Summary

Chronic obstructive pulmonary disease (COPD) is a treatable disease characterized by irreversible and progressive airflow limitation, which is a cause of high morbidity and mortality. Dyspnea is an important component of COPD exacerbations that changes functional level and prognosis and limits the patient's quality of life and activities of daily living. Since COPD patients complain a lot of dyspnea associated with reduced exercise capacity and worsening lung function, there is a great need to develop effective physiologically based rehabilitation techniques to restore the dysfunctional respiratory motor system. Evidence supporting the importance of task-specific training based on neural plasticity also applies to pulmonary rehabilitation for COPD. Alterations in neuroplasticity and cortical excitability, tDCS is a promising technique for modulating brain activity. As a painless, easy-to-use and noninvasive technique, tDCS has shown efficacy in relieving pain, which shares the same neural substrates as dyspnea. Similarities have been established between the pathophysiology of dyspnea and pain. Close or even overlapping activation zones of brain structures involved in the integration of pain and dyspnea have been emphasized. Therefore, it is hypothesized that tDCS stimulation of areas where one or more of these cerebral structures are activated in pain may also have an effect on dyspnea. In light of this information, researchers believe that relieving dyspnea with tDCS will have an impact on the prognosis of patients during COPD exacerbations. In this context, researchers will evaluate the effects of tDCS on dyspnea perception, lung function, and functional level in patients with COPD exacerbation. When the literature was reviewed, no study on the use of tDCS in COPD patients was found. The use of tDCS as a non-invasive and easy-to-use effective treatment method with neuro-modulation to combat dyspnea and functional level in COPD patients constitutes the originality of the study.

Forty patients who were hospitalized in the Chest Diseases Service due to COPD exacerbation and met the inclusion criteria will be included in the study. The evaluation parameters included symptom assessment, breathlessness perception questionnaire, COPD assessment test, peripheral muscle strength assessment, grip strength assessment, pulmonary function test, Montreal cognitive assessment test, London chest activities of daily living scale, timed up and go test, hospital anxiety and depression scale, respiratory muscle strength, fNIRS and capnography. Assessments will take place before and after treatment. Sham (n:20) group will receive conventional physiotherapy and sham tDCS, while the Study (n:20) group will receive tDCS and conventional physiotherapy. For anodal tDCS, the anode electrode will be placed over the left primary motor cortex and the cathode will be placed over the right supraorbital region. For the study group, tDCS application will be applied with a current of 2 mA for 30 minutes on 3 consecutive days. In the sham group, tDCS application will be increased to 2 mA for the first 30 seconds and then decreased to 0 mA within 30 seconds after receiving current for 15 seconds. The electrodes will remain on the patient's head for the rest of the time (30 minutes in total).

In conclusion, the effects of tDCS on dyspnea perception, pulmonary function and functional level in COPD exacerbation period patients will be investigated. At the same time, the advantages of tDCS administration in COPD patients will be evaluated by examining its effects on cerebrovascular responses, tissue oxygenation, muscle strength, cognitive level, activity of daily living, anxiety and depression. It will provide different perspectives to clinicians and researchers who will create evaluation, treatment and study plans for COPD exacerbation period patients with limited treatment options and will be a guide for new research.

Conditions

• COPD
• Dyspnea
• tDCS

Interventions

DEVICE

tDCS

tDCS will be applied to the dorsalateral prefrontal cortex with a current of 2 mA for 30 minutes on 3 consecutive days.

DEVICE

Sham tDCS

The tDCS application will be increased to 2 mA for the first 30 seconds and will be reduced to 0 mA within 30 seconds after receiving current for 15 seconds. The electrodes will remain on the patient's head for the rest of the time (30 min in total).

OTHER

Conventional physiotherapy

Within the scope of conventional physiotherapy, respiratory control training, diaphragmatic breathing exercise, puckered lip breathing, relaxation exercises will be started 10 minutes after the start of tDCS or sham tDCS application. While tDCS or sham tDCS application continues, 10 repetitions will be performed in order and with time for rest between exercises.

Sponsors & Collaborators

• Istinye University

  collaborator OTHER

• Okan University

  lead OTHER

Study Design

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

QUADRUPLE

Model

PARALLEL

Eligibility

Min Age

18 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2025-04-08

Primary Completion

2025-08-08

Completion

2025-09-10

Countries

• Turkey (Türkiye)

Study Locations