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The Role of Circadian Factors in Regulation of Neuroplasticity in Ischemic Stroke (Interventional)

Sponsor
Federal State Budgetary Institution, V. A. Almazov Federal North-West Medical Research Centre, of the Ministry of Health (Other)
Overall Status
Recruiting
CT.gov ID
NCT05247125
Collaborator
(none)
80
Enrollment
1
Location
4
Arms
29
Anticipated Duration (Months)
2.8
Patients Per Site Per Month

Study Details

Study Description

Brief Summary

There is a lack of complex studies which could establish the association between genetic circadian factors with the features and short-term outcomes of ischemic stroke, as well as the effects of various auxiliary therapies for circadian rhythm modulation for neuroplasticity enhancement and improvement of short-term outcomes in ischemic stroke.

The main research hypothesis is that circadian factors influence the recovery from ischemic stroke via sleep-mediated regulation of synaptic plasticity.

The project aims at the investigation of the influence of combined melatonin therapy and blue light exposure on molecular circadian biomarkers, sleep characteristics, neuroplasticity markers and stroke outcome in acute stroke patients.

This study is a prospective, interventional, randomized placebo-controlled trial.

Condition or Disease Intervention/Treatment Phase
  • Combination Product: Blue light exposure + Melatonin treatment
  • Drug: Melatonin treatment
  • Device: Blue light exposure
  • Combination Product: Placebo
 Phase 4

Detailed Description

The study will investigate the influence of combined blue light exposure and melatonin therapy on molecular biomarkers of circadian rhythms, sleep characteristics and stroke outcome in acute stroke patients This study is designed as a prospective study in acute stroke patients (approx 80 patients) admitted to the Stroke Unit. After initial assessment, the participants will be randomly assigned in 4 groups (the treatment or control) with approx.20 participants in each group.

In all participants, the following parameters will be assessed: medical records, stroke characteristics, sleep characteristics, cardiovascular circadian rhythms and blood samples for the evaluation of circadian molecular biomarkers at baseline and 14 days after inclusion. Stroke outcomes will be reassessed at 3-month follow-up.

The following associations will be assessed:

  • the role of blue light exposure and melatonin treatment for stroke outcome

  • the role of blue light exposure and melatonin treatment in the modulation of sleep parameters in acute stroke

  • the association of molecular biomarkers of circadian rhythms with stroke outcome (the difference in neurological and functional deficit from admission to 14 and 90 days after study inclusion), with stroke characteristics (stroke subtype and neuroimaging stroke parameters, routine protocol) and with sleep characteristics.

  • the association of sleep characteristics with stroke outcome (the difference in neurological and functional deficit from admission to 14 and 90 days after stroke) and with stroke characteristics (stroke subtype and neuroimaging stroke parameters, routine protocol).

Study Design

Study Type:
Interventional
Anticipated Enrollment :
80 participants
Allocation:
Randomized
Intervention Model:
Parallel Assignment
Intervention Model Description:
patients will be randomized into 4 parallel groupspatients will be randomized into 4 parallel groups
Masking:
Double (Participant, Outcomes Assessor)
Primary Purpose:
Treatment
Official Title:
The Role of Circadian Factors in Regulation of Neuroplasticity in Ischemic Stroke (Interventional)
Actual Study Start Date :
Mar 1, 2022
Anticipated Primary Completion Date :
May 30, 2024
Anticipated Study Completion Date :
Jul 31, 2024

Arms and Interventions

Arm Intervention/Treatment
Experimental: Blue light exposure + Melatonin treatment

The participants will receive the combination of blue light exposure according to the protocol described by Killgore et al. (2020) and 3 mg of melatonin 1 hour before going to sleep (approximately at 20:00) (Ramos et al 2020) for 14 days

Combination Product: Blue light exposure + Melatonin treatment
3 mg Melatonin pill will be given 1 hour before going to bed. Blue light exposure will be performed during 30-minute sessions with the use of the lamps (Lumie/Vitamin L) in the morning.
Experimental: Melatonin treatment

The participants will receive 3 mg of melatonin 1 hour before going to sleep (approximately at 20:00) (Ramos et al 2020) and the morning placebo-light exposure according to the protocol described by Killgore et al. (2020) for 14 days

Drug: Melatonin treatment
3 mg Melatonin pill will be given 1 hour before going to bed.
Other Names:
  • Melaxen

    		•
    Experimental: Blue light exposure

    The participants will receive the morning blue light exposure according to the protocol described by Killgore et al. (2020) for 14 days and placebo pill 1 hour before going to sleep (approximately at 20:00)

    Device: Blue light exposure
    Blue light exposure will be performed during 30-minute sessions with the use of the lamps (Lumie/Vitamin L) in the morning.
    Other Names:
  • Lamps Lumie/Vitamin L

    		•
    Placebo Comparator: Placebo group

    The participants will receive placebo light exposure in the morning (lamp turned off) and placebo pill treatment in the evening for 14 days

    Combination Product: Placebo
    Placebo light exposure will be performed by using lamp turned off; and placebo pill will be given in the evening

    Outcome Measures

    Primary Outcome Measures

    1. Change in the value of National Institutes of Health Stroke Scale from baseline to 14 days after inclusion [From baseline to 14 days after treatment initiation]

      National Institutes of Health Stroke Scale (NIHSS) is a tool used to objectively quantify the impairment caused by a stroke, 0-42 scores, higher scores characterize worse impairment

    2. Stroke-related disability assessed by the change in modified Rankin scale from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      values of modified Rankin scale (scale for measuring the degree of disability or dependence in the daily activities of people who have suffered a stroke, from 0 (no symptoms) to 6 (dead) points)

    3. Stroke-related disability assessed by the change in Rivermead Mobility Index from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      Rivermead Mobility Index (a standardized scale used to assess mobility in patients with neurological deficits, a maximum of 15 points is possible; higher scores indicate better mobility performance)

    4. Stroke-related disability assessed by the change in Barthel Index from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      Barthel Index (a common scale used to measure performance in activities of daily living, 0-100 scores, higher scores define better performance)

    Secondary Outcome Measures

    1. Change in Psychomotor vigilance task (mean reaction time) from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      The psychomotor vigilance task is a sustained-attention, reaction-timed task that measures the speed with which subjects respond to a visual stimulus, the outcome (mean reaction time) is measured in msec

    2. Change in Psychomotor vigilance task (mean reaction time) from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      The psychomotor vigilance task is a sustained-attention, reaction-timed task that measures the speed with which subjects respond to a visual stimulus, the outcome (mean reaction time) is measured in msec

    3. Change in Kraepelin test from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      Kraepelin test is the test in which the examinee performs a simple single-digit addition. The outcome is the number of correct and incorrect addition operations per each 30 sec and during the whole task, performance index (number of correct addition operations during second part of task / number of correct addition operations during first part of task)

    4. Change in Kraepelin test from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      Kraepelin test is the test in which the examinee performs a simple single-digit addition. The outcome is the number of correct and incorrect addition operations per each 30 sec and during the whole task, performance index (number of correct addition operations during second part of task / number of correct addition operations during first part of task)

    5. Change in Trail Making test from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      Trails Making Test (Trails) is a neuropsychological test of visual attention and task switching. It can provide information about visual search speed, scanning, speed of processing, mental flexibility, as well as executive functioning

    6. Change in Trail Making test from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      Trails Making Test (Trails) is a neuropsychological test of visual attention and task switching. It can provide information about visual search speed, scanning, speed of processing, mental flexibility, as well as executive functioning. Execution time will be assessed (in msec)

    7. Change in Victoria Stroop test from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      Victoria Stroop is a neuropsychological test extensively used to assess the ability to inhibit cognitive interference. Execution time will be measured. (in msec)

    8. Change in Victoria Stroop test from baseline to 90 days after inclusion [From baseline to 90±7 day after inclusion]

      Victoria Stroop is a neuropsychological test extensively used to assess the ability to inhibit cognitive interference. Execution time will be measured. (in msec)

    9. Change in Hopkins Verbal Learning Test (Revised) from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      Hopkins Verbal Learning Test - Revised brief assessment of immediate recall, delayed recall and delayed recognition. The number of words recalled will be assessed.

    10. Change in Hopkins Verbal Learning Test (Revised) from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      Hopkins Verbal Learning Test - Revised brief assessment of immediate recall, delayed recall and delayed recognition. The number of words recalled will be assessed.

    11. Change in Brief Visuospatial Memory Test (Revised) from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      Brief Visuospatial Memory Test (Revised)is a commonly used, commercialized, assessment tool to measure visuospatial learning and memory abilities across research and clinical settings. The number of figures will be assessed.

    12. Change in Brief Visuospatial Memory Test (Revised) from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      Brief Visuospatial Memory Test (Revised)is a commonly used, commercialized, assessment tool to measure visuospatial learning and memory abilities across research and clinical settings. The number of figures will be assessed.

    13. Change in Wechsler Memory Scale (Revised) from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      Wechsler Memory Scale - Revised is a neuropsychological test designed to measure different memory functions in a person. A composite score will be assessed.

    14. Change in Wechsler Memory Scale (Revised) from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      Wechsler Memory Scale - Revised is a neuropsychological test designed to measure different memory functions in a person. A composite score will be assessed.

    15. Change in Corsi block-tapping test from baseline to 14 days after treatment initiation [From baseline to 14 days after treatment initiation]

      The Corsi block-tapping test is a psychological test that assesses visuo-spatial short term working memory. The visual span raw score will be assessed.

    16. Change in Corsi block-tapping test from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      The Corsi block-tapping test is a psychological test that assesses visuo-spatial short term working memory. The visual span raw score will be assessed.

    17. Change from baseline in objective sleep duration assessed by polysomnography [From baseline to 14 days after treatment initiation]

      Sleep duration (minutes)

    18. Change from baseline in objective sleep efficiency assessed by polysomnography [From baseline to 14 days after treatment initiation]

      sleep efficiency (%)

    19. Change from baseline in objective sleep latency assessed by polysomnography [From baseline to 14 days after treatment initiation]

      sleep latency (minutes)

    20. Change from baseline in sleep S1 stage duration assessed by polysomnography [From baseline to 14 days after treatment initiation]

      S1 sleep stage percentage of total sleep time (%)

    21. Change from baseline in sleep S2 stage duration assessed by polysomnography [From baseline to 14 days after treatment initiation]

      S2 sleep stage percentage of total sleep time (%)

    22. Change from baseline in sleep S3 stage duration assessed by polysomnography [From baseline to 14 days after treatment initiation]

      S3 sleep stage percentage of total sleep time (%)

    23. Change from baseline in rapid eye movement (REM) sleep stage duration assessed by polysomnography [From baseline to 14 days after treatment initiation]

      Rapid eye movement (REM) sleep stage percentage of total sleep time (%)

    24. Change from baseline in wake-after-sleep-onset time assessed by polysomnography [From baseline to 14 days after treatment initiation]

      wake after sleep onset time (minutes)

    25. Change from baseline in arousal index assessed by polysomnography [From baseline to 14 days after treatment initiation]

      Arousal index (episodes/hour of sleep)

    26. Change in emotional outcome assessed by Hospital anxiety and depression scale from baseline to 90 days after inclusion [from baseline to 14 days after treatment initiation]

      Hospital anxiety and depression scale is used to determine the levels of anxiety and depression. It is a 14-item scale; Each item on the questionnaire is scored from 0-3 and this means that a person can score between 0 and 21 for either anxiety or depression, higher scores indicate worse situation

    27. Change in emotional outcome assessed by Hospital anxiety and depression scale from baseline to 14 days after treatment initiation [From baseline to 90±7 days after inclusion]

      Hospital anxiety and depression scale is used to determine the levels of anxiety and depression. It is a 14-item scale; Each item on the questionnaire is scored from 0-3 and this means that a person can score between 0 and 21 for either anxiety or depression, higher scores indicate worse situation

    28. Assessment of mood by change in Visual Analogue Mood Scale from baseline to 14 days after treatment initiation [from baseline to 14 days after treatment initiation]

      Visual Analogue Mood Scale is a reliable and valid measure of eight specific mood states: Afraid, Confused, Sad, Angry, Energetic, Tired, Happy, and Tense. The score for each mood ranges from 0 to 100 (100 mm vertical line), with 100 representing a maximal level of that mood and zero representing a minimal level (or absence) of that mood

    29. Assessment of mood by change in Visual Analogue Mood Scale from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      Visual Analogue Mood Scale is a reliable and valid measure of eight specific mood states: Afraid, Confused, Sad, Angry, Energetic, Tired, Happy, and Tense. The score for each mood ranges from 0 to 100 (100 mm vertical line), with 100 representing a maximal level of that mood and zero representing a minimal level (or absence) of that mood

    30. Change in the value of National Institutes of Health Stroke Scale from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      National Institutes of Health Stroke Scale (NIHSS) is a tool used to objectively quantify the impairment caused by a stroke, 0-42 scores, higher scores characterize worse impairment

    31. Change in modified Rankin scale from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      values of modified Rankin scale (scale for measuring the degree of disability or dependence in the daily activities of people who have suffered a stroke, from 0 (no symptoms) to 6 (dead) points)

    32. Change in Rivermead Mobility Index from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      Rivermead Mobility Index (a standardized scale used to assess mobility in patients with neurological deficits, a maximum of 15 points is possible; higher scores indicate better mobility performance)

    33. Change in Barthel Index from baseline to 90 days after inclusion [From baseline to 90±7 days after inclusion]

      Barthel Index (a common scale used to measure performance in activities of daily living, 0-100 scores, higher scores define better performance)

    Other Outcome Measures

    1. Change from baseline in time in bed assessed by actigraphy [from baseline to 14 days after treatment initiation]

      time in bed (minutes)

    2. Change from baseline in total sleep time assessed by actigraphy [from baseline to 14 days after treatment initiation]

      total sleep time (minutes)

    3. Change from baseline in sleep efficiency assessed by actigraphy [from baseline to 14 days after treatment initiation]

      sleep efficiency (%)

    4. Change from baseline in sleep onset latency assessed by actigraphy [from baseline to 14 days after treatment initiation]

      sleep onset latency (min)

    5. Change from baseline in number of awakenings assessed by actigraphy [from baseline to 14 days after treatment initiation]

      number of awakenings

    6. Change from baseline in mean motor activity assessed by actigraphy [from baseline to 14 days after treatment initiation]

      mean motor activity (units)

    7. Change from baseline in Sleep Quality Score assessed by questionnaire Pittsburgh Sleep Quality Index [from baseline to 14 days after treatment initiation]

      Pittsburgh Sleep Quality Index is a self-rated questionnaire which assesses subjective sleep quality and disturbances over a 1-month time interval, Each of the sleep components yields a score ranging from 0 to 3, with 3 indicating the greatest dysfunction. The sleep component scores are summed to yield a total score ranging from 0 to 21 with the higher total score indicating worse sleep quality

    8. Change from baseline in daytime sleepiness assessed by Epworth Sleepiness Scale [from baseline to 14 days after treatment initiation]

      Epworth Sleepiness Scale is a common tool to assess sleepiness; 0-24 points, higher score indicate greater sleepiness

    9. Change from baseline in fatigue severity assessed by Fatigue severity Scale [from baseline to 14 days after treatment initiation]

      Fatigue severity Scale is a common 9-item tool used to determine and quantify fatigue as subjective feeling of exhaustion, persisting lack of energy and rapid inanition, 9-63 points, higher score indicates more severe fatigue

    10. Change from baseline in Insomnia severity index [from baseline to 14 days after treatment initiation]

      Insomnia severity index is a 7-item tool to assess the severity of insomnia, 0-5 points per each item, higher score indicates more severe insomnia

    11. Change from baseline in sensorimotor assessment of upper limbs [from baseline to 14 days after treatment initiation]

      Sensorimotor assessment of upper limbs by Fugl-Meyer is a stroke-specific, performance-based impairment index. The total possible scale score is 226

    12. Change from baseline in melatonin curve secretion [from baseline to 14 days after treatment initiation]

      salivary melatonin levels samples collected every 3 hours for 24 hours at study inclusion and at 14 days after study inclusion

    13. Change from baseline in cortisol curve secretion [from baseline to 14 days after treatment initiation]

      salivary cortisol sampled every 3 hours for 24 hours at study inclusion and at 14 days after study inclusion

    14. Change from baseline in circadian brain-derived neurotrophic factor messenger ribonucleic acid (mRNA) expression [from baseline to 14 days after treatment initiation]

      Brain-derived neurotrophic factor messenger ribonucleic acid (mRNA) expression will be measured in blood samples taken every 4 hours for 24 hours at study inclusion and at 14 days after study inclusion

    15. Change from baseline in circadian clock gene CLOCK messenger ribonucleic acid (mRNA) expression [from baseline to 14 days after treatment initiation]

      clock gene CLOCK messenger ribonucleic acid (mRNA) expression will be measured in blood samples taken every 4 hours for 24 hours at study inclusion and at 14 days after study inclusion

    16. Change from baseline in circadian clock gene Bmal1 messenger ribonucleic acid (mRNA) expression [from baseline to 14 days after treatment initiation]

      clock gene Bmal1 messenger ribonucleic acid (mRNA) expression will be measured in blood samples taken every 4 hours for 24 hours at study inclusion and at 14 days after study inclusion

    17. Change from baseline in circadian Melatonin receptor messenger ribonucleic acid (mRNA) expression [from baseline to 14 days after treatment initiation]

      Melatonin receptor messenger ribonucleic acid (mRNA) expression will be measured in blood samples taken every 4 hours for 24 hours at study inclusion and at 14 days after study inclusion

    18. Change in psychophysiological state: heart rate variability assessed by biofeedback method from baseline to 14 days [from baseline to 14 days after treatment initiation]

      heart rate variability assessed by electrocardiogram (maximum heart rate - minimum heart rate, beats per minute)

    19. Change in psychophysiological state: heart rate variability assessed by biofeedback method from baseline to 90 days after inclusion [from baseline to 90±7 days after inclusion]

      heart rate variability assessed by electrocardiogram (maximum heart rate - minimum heart rate, beats per minute)

    20. Change in psychophysiological state: respiratory movement amplitude assessed by biofeedback method - from baseline to 14 days [from baseline to 90±7 days after treatment initiation]

      respiratory movement amplitude assessed by respiratory rate abdominal and thoracic sensors (units)

    21. Change in psychophysiological state: respiratory movement amplitude assessed by biofeedback method- from baseline to 90 days [from baseline to 90±7 days after inclusion]

      respiratory movement amplitude assessed by respiratory rate abdominal and thoracic sensors (units)

    22. Change in psychophysiological state: alpha-rhythm index assessed by biofeedback method - from baseline to 14 days after treatment initiation [from baseline to 14 days after treatment initiation]

      alpha rhythm index (%) assessed by electroencephalogram

    23. Change in psychophysiological state: beta-rhythm index assessed by biofeedback method - from baseline to 14 days after treatment initiation [from baseline to 14 days after treatment initiation]

      beta rhythm index (%) assessed by electroencephalogram

    24. Change in psychophysiological state: alpha-rhythm index assessed by biofeedback method - from baseline to 90 days after inclusion [from baseline to 90±7 days after inclusion]

      alpha rhythm index (%) assessed by electroencephalogram

    25. Change in psychophysiological state: beta-rhythm index assessed by biofeedback method - from baseline to 90 days after inclusion [from baseline to 90±7 days after inclusion]

      beta rhythm index (%) assessed by electroencephalogram

    26. Number of participants with treatment-related adverse events assessed according to the protocol-specified adverse effects [14 days after treatment initiation]

      Number of participants with treatment-related adverse events assessed according to the Toronto Side Effects Scale

    Eligibility Criteria

    Criteria

    Ages Eligible for Study:
    18 Years to 80 Years
    Sexes Eligible for Study:
    All
    Accepts Healthy Volunteers:
    No
    Inclusion Criteria:

    • acute (symptom onset to admission <1 days) ischemic stroke

    • ischemic stroke affecting the branches of anterior cerebral artery, middle cerebral artery and posterior cerebral artery

    • age 18-80 years

    • moderate or severe stroke (National Institutes of Health Stroke Scale, NIHSS>=5)

    • intravascular stroke treatment with thrombolysis or thrombectomy leading to satisfactory reperfusion (if applicable)

    • informed consent

    Exclusion Criteria:

    • secondary parenchymal hemorrhage (>hemorrhage index (HI)-2)

    • clinically unstable or life-threatening conditions

    • previous stroke in the last 6 months

    • known progressive neurological diseases

    • known psychiatric diseases

    • concomitant benzodiazepine medication

    • drug or alcohol abuse

    • pregnancy

    • inability to participate in the study

    • severe sensory aphasia

    • melatonin intake at/before admission

    • light therapy use at/before admission

    • blindness

    • severe sleep-disordered breathing (apnea-hypopnea index >=30/h)

    • contraindications to light therapy (severe retinopathy, epilepsy, porphyria, intake of drugs with photosensitizing effects)

    • contraindications to melatonin intake (severe bronchial asthma, severe autoimmune disorders, chronic kidney disease 3b stage and higher, leukosis)

    • congestive heart failure with reduced ejection fraction (<=45%) or New York Heart Association (NYHA) classification III-IV functional class.

    Contacts and Locations

    Locations

    Site City State Country Postal Code
    1 Almazov National Medical Research Centre St Petersburg Russian Federation 197341

    Sponsors and Collaborators

    • Federal State Budgetary Institution, V. A. Almazov Federal North-West Medical Research Centre, of the Ministry of Health

    Investigators

    • Principal Investigator: Lyudmila Korostovtseva, Almazov National Medical Research Centre

    Study Documents (Full-Text)

    None provided.

    More Information

    Publications

    Responsible Party:
    Lyudmila Korostovtseva, Senior Researcher, Department for Hypertension, Federal State Budgetary Institution, V. A. Almazov Federal North-West Medical Research Centre, of the Ministry of Health
    ClinicalTrials.gov Identifier:
    NCT05247125
    Other Study ID Numbers:
    • 21-75-10173-1 (interventional)
    First Posted:
    Feb 18, 2022
    Last Update Posted:
    Aug 3, 2022
    Last Verified:
    Aug 1, 2022
    Individual Participant Data (IPD) Sharing Statement:
    No
    Plan to Share IPD:
    No
    Studies a U.S. FDA-regulated Drug Product:
    No
    Studies a U.S. FDA-regulated Device Product:
    No
    Keywords provided by Lyudmila Korostovtseva, Senior Researcher, Department for Hypertension, Federal State Budgetary Institution, V. A. Almazov Federal North-West Medical Research Centre, of the Ministry of Health
    circadian misalignment
    neuroplasticity
    melatonin
    light therapy
    circadian disorder
    Additional relevant MeSH terms:
    Stroke
    Ischemic Stroke
    Cerebral Infarction
    Sleep Wake Disorders
    Sleep Disorders, Circadian Rhythm
    Ischemia
    Melatonin

    Study Results

    No Results Posted as of Aug 3, 2022