Stroke Clinical Trial
Official title:
Effects of Combining Donepezil, Intensive Language Rehabilitation and Transcranial Direct Current Stimulation on Language Recovery and Brain Reorganization in Chronic Post-stroke Aphasia
Verified date | November 2020 |
Source | University of Malaga |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
Post-stroke aphasia (PSA), the partial or total loss of the ability to produce and/or understand language associated with stroke, is a highly prevalent and disabling disorder that negatively impacts the personal, social and working life of patients and families. Modern theory-based language therapies (LT) with proved efficacy in chronic PSA are brief (weeks), intensive, and oriented to specific domains (e.g., anomia). However, in order to maximize therapeutic benefits, it becomes essential to implement complementary strategies that boost gains in language, communication and behaviour and also to identify predictors of treatment response (demographics, anatomical) that enable to customize interventions adjusting them to each profile (linguistic deficits, brain structure and connectivity). Our group has repeatedly shown that LT combined with cognitive enhancing drugs (CED) (e.g., Donepezil and Memantine) are safe and promote better outcomes that when these interventions are administered separately. Moreover, non-invasive brain stimulation techniques (NIBS), such as transcranial direct current stimulation (tDCS), are also emerging as a promising treatment option for chronic PSA. However, is still unknown whether or not treatments that combine several biological strategies aid to improve outcomes further. Brain changes induced by these interventions and the premorbid characteristic of a "good responder" are also unknown. The aims of this clinical trial are: (1) Study the efficacy of combined treatments in a sample of patients with chronic PSA (n = 40); (2) Document with multimodal neuroimaging the functional and connectivity changes (neuroplasticity) promoted by these interventions; and (3) Identify linguistic, cognitive and behavioural variables that may predict outcomes for each intervention.
Status | Completed |
Enrollment | 20 |
Est. completion date | October 20, 2020 |
Est. primary completion date | October 20, 2020 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 70 Years |
Eligibility | Inclusion Criteria: - Age between 18 and 70 years - Right handedness (80 point in the Edinburgh Handedness Inventory) - Spanish as native language - Single left-hemisphere stroke - Diagnosis of aphasia established by a score in the Aphasia Quotient of the Spanish version of the Western Aphasia Battery (WAB) < 93.8 points. Exclusion Criteria: - Dysarthria without aphasia - Multiple or bilateral injuries - Increased risk of a new stroke or unstable neurological condition (e.g. transient ischemic attacks) - History of severe psychiatric illness (schizophrenia, major depression, bipolar disorder, anxiety disorders) - Alcohol and substance use or abuse - Coexistence of aphasia with dementia. |
Country | Name | City | State |
---|---|---|---|
Spain | Centro de Investigaciones Medico-Sanitarias. University of Malaga | Málaga |
Lead Sponsor | Collaborator |
---|---|
University of Malaga |
Spain,
Barbancho MA, Berthier ML, Navas-Sánchez P, Dávila G, Green-Heredia C, García-Alberca JM, Ruiz-Cruces R, López-González MV, Dawid-Milner MS, Pulvermüller F, Lara JP. Bilateral brain reorganization with memantine and constraint-induced aphasia therapy in chronic post-stroke aphasia: An ERP study. Brain Lang. 2015 Jun-Jul;145-146:1-10. doi: 10.1016/j.bandl.2015.04.003. Epub 2015 Apr 29. — View Citation
Berthier ML, De-Torres I, Paredes-Pacheco J, Roé-Vellvé N, Thurnhofer-Hemsi K, Torres-Prioris MJ, Alfaro F, Moreno-Torres I, López-Barroso D, Dávila G. Cholinergic Potentiation and Audiovisual Repetition-Imitation Therapy Improve Speech Production and Communication Deficits in a Person with Crossed Aphasia by Inducing Structural Plasticity in White Matter Tracts. Front Hum Neurosci. 2017 Jun 14;11:304. doi: 10.3389/fnhum.2017.00304. eCollection 2017. — View Citation
Berthier ML, García-Casares N, Walsh SF, Nabrozidis A, Ruíz de Mier RJ, Green C, Dávila G, Gutiérrez A, Pulvermüller F. Recovery from post-stroke aphasia: lessons from brain imaging and implications for rehabilitation and biological treatments. Discov Med. 2011 Oct;12(65):275-89. Review. — View Citation
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Berthier ML, Green C, Lara JP, Higueras C, Barbancho MA, Dávila G, Pulvermüller F. Memantine and constraint-induced aphasia therapy in chronic poststroke aphasia. Ann Neurol. 2009 May;65(5):577-85. doi: 10.1002/ana.21597. — View Citation
Berthier ML, Pulvermüller F, Dávila G, Casares NG, Gutiérrez A. Drug therapy of post-stroke aphasia: a review of current evidence. Neuropsychol Rev. 2011 Sep;21(3):302-17. doi: 10.1007/s11065-011-9177-7. Epub 2011 Aug 16. Review. — View Citation
Berthier ML, Pulvermüller F. Neuroscience insights improve neurorehabilitation of poststroke aphasia. Nat Rev Neurol. 2011 Feb;7(2):86-97. doi: 10.1038/nrneurol.2010.201. Review. — View Citation
Berthier ML. Poststroke aphasia : epidemiology, pathophysiology and treatment. Drugs Aging. 2005;22(2):163-82. Review. — View Citation
De-Torres I, Dávila G, Berthier ML, Walsh SF, Moreno-Torres I, Ruiz-Cruces R. Repeating with the right hemisphere: reduced interactions between phonological and lexical-semantic systems in crossed aphasia? Front Hum Neurosci. 2013 Oct 18;7:675. doi: 10.3389/fnhum.2013.00675. eCollection 2013. — View Citation
Mohr B, Stahl B, Berthier ML, Pulvermüller F. Intensive Communicative Therapy Reduces Symptoms of Depression in Chronic Nonfluent Aphasia. Neurorehabil Neural Repair. 2017 Dec;31(12):1053-1062. doi: 10.1177/1545968317744275. Epub 2017 Dec 1. — View Citation
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Torres-Prioris MJ, López-Barroso D, Paredes-Pacheco J, Roé-Vellvé N, Dawid-Milner MS, Berthier ML. Language as a Threat: Multimodal Evaluation and Interventions for Overwhelming Linguistic Anxiety in Severe Aphasia. Front Psychol. 2019 May 8;10:678. doi: 10.3389/fpsyg.2019.00678. eCollection 2019. — View Citation
* Note: There are 12 references in all — Click here to view all references
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Western Aphasia Battery (WAB) | To assess major clinical aspects of language function: information content, fluency, auditory comprehension, repetition and naming.
Changes from Baseline in Western Aphasia Battery scores at 8, 10 and 26 weeks. Minimum and maximum values: 0-100 points. Higher scores mean better outcome. |
Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Primary | Communicative Activity Log (CAL) | To assess communicative behavior in the everyday life of patients. Changes from Baseline in CAL scores at 8, 10 and 26 weeks. Minimum and maximum values: 0-90 points (0-40 points for quality of communication; 0-40 points for amount of communication). Higher values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Primary | Stroke Aphasia Depression Questionnaire (SADQ-10) | To assess depressive symptomatology in persons with post-stroke aphasia. Changes from Baseline in SADQ-10 scores at 8, 10 and 26 weeks. Minimum and maximum scores: 1-30 points. Lower values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Primary | Stroke and Aphasia Quality of Life Scale 39 (SAQOL-39) | To assess Quality of Life in persons with post-stroke aphasia. Changes from Baseline in SAQOL-39 scores at 8, 10 and 26 weeks. Minimum and maximum scores: 1-85 (Physical scale); 1-35 (Communication scale); 1-55 (Psychosocial scale); 1-20 (Vitality scale); 1-5 (Total mean scale).
Higher values mean better outcome. |
Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Mini Mental State Examination (MMSE) | To assess cognitive impairment in persons with post-stroke aphasia. Minimum and maximum scores: 1-30 points. Higher values mean better outcome. | Each participant will be evaluated at week 0 (baseline). | |
Secondary | Trail-Making Test, parts A & B (TMT) | To assess executive functions in individuals affected by post-stroke aphasia. Changes from Baseline in TMT scores at 8, 10 and 26 weeks. The participant has to finish both parts as quickly as possible, with the time taken to complete the test being used as the primary performance metric. Lower completion time means better outcome. | Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Digit Span Test from the Wechsler Adult Intelligence Scale (WAIS) | To assess immediate memory in persons with post-stroke aphasia. Changes from Baseline in Digit scores at 8, 10 and 26 weeks. Minimum and maximum scores: 3-9. Higher values mean better outcome. | Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Attention Network Test (ANT). | To assess three attentional networks: alerting, orienting, and executive control in in persons with post-stroke aphasia.
Changes from Baseline in ANT scores at 8, 10 and 26 weeks. Efficiency of the alerting network is examined by changes in Reaction Time (RT) resulting from a warning signal. Efficiency of orienting is examined by changes in RT that accompany cues indicating where the target will occur. The efficiency of the executive network is examined by requiring the subject to respond by pressing two keys indicating the direction (left or right) of a central arrow surrounded by congruent, incongruent or neutral flankers. Lower reaction time and higher congruent responses mean better outcome. |
Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Raven´s Colored Progressive Matrices (RPM), set A, B & AB | To assess abstract reasoning in persons with post-stroke aphasia. Evaluation at baseline. Minimum and maximum score: 0-36. Higher scores mean better outcome. | Each participant will be evaluated at week 0 (baseline). | |
Secondary | Cognitive Reserve Questionnaire. | To assess the cognitive reserve of persons with post-stroke aphasia. Evaluation at baseline. Minimum and maximum scores: 0-25. Higher values mean better outcome. | Each participant will be evaluated at week 0 (baseline) | |
Secondary | Hospital Anxiety and Depression Scale (HADS). | To assess depressive and anxious symptomatology in persons with post-stroke aphasia.
Changes from Baseline in HADS scores at 8, 10 and 26 weeks. Minimum and maximum scores: 0-21 points (Anxiety scale); 0-21 points (Depression scale). Lower values mean better outcome. |
Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Visual Dynamic Analogue Scale (D-VAMS). | To assess mood in persons with post-stroke aphasia. Changes from Baseline in D-VAMS scores at 8, 10 and 26 weeks. Minimum and maximum score: 0-100 points. Higher values mean better outcome. | Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Neuropsychiatric Inventory (NPI). | To assess neuropsychiatric symptomatology in persons with post-stroke aphasia. Changes from Baseline in NPI scores at 8, 10 and 26 weeks. Minimum and maximum scores: 0-12 points for each subscale. Score obtained by multiplying frequency*severity scores. No total score available. Lower values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Starkstein Apathy Scale (SAS). | To assess apathy in persons with post-stroke aphasia. Changes from Baseline in SAS scores at 8, 10 and 26 weeks. Minimum and maximum scores: 0-42 points. Lower values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Catastrophic Reaction Scale (CRS) | To assess catastrophic reactions in persons with post-stroke aphasia. Changes from Baseline in CRS scores at 8, 10 and 26 weeks. Minimum and maximum scores: 0-33 points. Lower values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Neurobehavioral Change after Aphasia Scale (experimental test). | To assess personality changes in persons with post-stroke. Changes from Baseline scores at 8, 10 and 26 weeks. Minimum and maximum scores: 1-7 points for each subscale. Higher values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Barthel Index (IB) | To assess functional independence in persons with post-stroke aphasia. Changes from Baseline in functional independence scores at 8, 10 and 26 weeks. Minimum and maximum scores: 0-100 points. Higher values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Informant Questionnaire on Cognitive Decline in the Elderly (IQCODE) | To rule out dementia in persons with post-stroke aphasia. Changes from Baseline in functional independence scores at 8, 10 and 26 weeks. Minimum and maximum scores: 26-130 points. Lower values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Visual-analogue test assessing anosognosia for language impairment (VATA-L) | To screen for anosognosia for aphasia in persons with post-stroke aphasia. Changes from Baseline in anosognosia scores at 8,10 and 26 weeks. Minimum and maximum scores: 0-42. Lower values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26 | |
Secondary | Communicative Effectiveness Index (CETI) | To assess functional communication in persons with post-stroke aphasia. Changes from Baseline in functional communication scores at 8, 10 and 26 weeks. Minimum and maximum scores: 0-100. Higher values mean better outcome. | Each participant/ main carer will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | The Apraxia of Speech Rating Scale (ASRS). | To assess and quantify the presence or absence, relative frequency, and severity of To rate apraxia of speech and its main characteristics in persons with post-stroke aphasia.
Minimum and maximum scores: 0-4 points for each subscale. Lower values mean better outcome. |
Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Corsi Block Tapping Test from the Wechsler Adult Intelligence Scale (WAIS) | To assess visuo-spatial working memory in persons with post-stroke aphasia. Changes from Baseline in visual working memory scores at 8,10 and 26 weeks. Minimum and maximum scores: 3-9. Higher values mean better outcome. | Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Batería para la Evaluación de los Trastornos Afásicos (BETA). Battery for the Evaluation of Aphasia Disorders. Subscale 1,2,6,13,14,21 & 26. | To assess linguistic abilities in persons with post-stroke aphasia. Subscales: 1,2,6,13,14,21 & 26 Changes from Baseline in linguistic abilities scores at 8,10 and 26 weeks. Minimum and maximum scores: 1-30. Higher values mean better outcome. | Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Queens List for the Repetition of Stimuli (experimental test) | To assess linguistic abilities (repetition/naming) in individuals affected by post-stroke aphasia.
Changes from Baseline in linguistic abilities scores at 8,10 and 26 weeks. Minimum and maximum scores: 1-48. Higher values mean better outcome. |
Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Repetition of clichés and novel sentences (experimental test) | To assess repetition of clichés and novel sentences in persons with post-stroke aphasia.
Changes from Baseline in linguistic abilities scores at 8,10 and 26 weeks. Minimum and maximum scores: 0-40. Higher values mean better outcome. |
Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Queens List for the Naming of Stimuli (experimental test) | To assess linguistic abilities (repetition/naming) in individuals affected by post-stroke aphasia.
Changes from Baseline in linguistic abilities scores at 8,10 and 26 weeks. Minimum and maximum scores: 1-48. Higher values mean better outcome. |
Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Non-Verbal Oral Apraxia Screening Test (experimental test) | To assess non-verbal oral apraxia in individuals affected by post-stroke aphasia.
Changes from Baseline (week 0) in oral apraxia scores at 8,10 and 26 weeks. Minimum and maximum scores: 0-32. Higher values mean better outcome. |
Each participant will be evaluated at week 0 (baseline), 8, 10 and 26. | |
Secondary | Cognition test for Patients with Aphasia (experimental test) | To assess cognitive impairment in persons with post-stroke aphasia. Minimum and maximum scores: 1-30 points. Higher values mean better outcome. | Each participant will be evaluated at week 0 (baseline). |
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