Although there is evidence that speech-language therapy may improve speech in language disorders following left hemisphere stroke there is still a lack of evidence for which types of therapy are effective. Furthermore, in Sweden, as well as in several other countries, access to speech-language therapy is limited. The purpose of this clinical trial is to compare outcome from Verb Network Strengthening Treatment (VNeST) provided as In-Clinic therapy (I-CT) or as synchronous telepractice therapy (TP-T).
Every year thousands of persons in Sweden suffer from brain damage resulting in anomia, that is, word finding difficulties affecting their ability to talk to other people. Anomia is one of the most common and persistent symptoms of aphasia following a left hemisphere stroke, but it is also common in in progressive neurological diseases such as Parkinson's disease or multiple sclerosis (MS). There is evidence that more intensive speech language therapy may improve speech even in a chronic (\> six month post stroke) phase of aphasia. However, access to the necessary amount of speech language therapy is limited due to lack of financial resources as well as to limitations to service providers in more rural areas. It has been suggested that telepractice may increase the access to speech-language therapy for more people but there is a lack of knowledge of whether there is a difference in outcome from interventions provided as In-Clinic therapy (I-CT) or as telepractice therapy (TP-T). Verb Network Strengthening Treatment (VNeST) is an anomia therapy focused on the production of short phrases. The participants generate thematically related verbs and nouns to strengthen the neural connections between the action (verb) and related thematic roles (agents and patients). From orally and written stimuli, the participants are asked to tell whom (subject) may do something (verb) with what (object) and then to do short expansions from this basic phrase. So far, results from single-case experimental design studies performed by Edmonds and colleagues are promising, showing generalization of outcomes to untrained items. Moreover, improvement in word finding was observed in other tasks like object and verb naming as well as sentence production and partly to connected speech. The present project explores the effectiveness of VNeST, first in a small pilot study, then in a clinical trial including 80 participants. Participants with left hemisphere aphasia will be randomized to either an in-clinic therapy (I-CT) group or a telepractice therapy (TP-T) group and provided VNeST following the same treatment protocol based on Edmonds (2014). Outcome measure include measures of naming ability on word- and phrase levels as well as in discourse. Measures of participant reported perceptions of functional communication and communicative participation as well as health related quality of life (PROMs) are also included.
Participants are presented with a verb (representing an activity, for example, driving) orally and in writing. The participants are first asked to name someone who may perform the given activity (an agent, for example, a chauffeur), then to name an object which the given activity may be performed with (a patient, for example, a limousine). Several types of semantic clues and assistance are provided if the participant is having difficulties finding adequate nouns. This procedure is repeated for three different agents and objects related to the given verb. The participants are then asked to choose one of the three phrases participants have created and expand on it by telling where, when and why the agent is performing the activity. After this the participant are given sentences (with several foils) including the activity as well as agents and patients, and are asked to indicate whether the sentences are correct or not.
University of Gothenburg, Västra Götalandsregionen
Gothenburg, Västra Götaland County, Sweden
Change from baseline in naming ability of trained items at week 10.
Naming of ten trained phrases including an agent (subject), verb and a patient (object) with moving picture stimuli. Possible score ranges from 0 (worst) to 40 (best).
Time frame: Baseline, 10 weeks.
Change from baseline in naming ability of trained items at week 20.
Naming of ten trained phrases including an agent (subject), verb and a patient (object) with moving picture stimuli. Possible score ranges from 0 (worst) to 40 (best).
Time frame: Baseline, 20 weeks.
Change from baseline in naming ability of untrained items at week 10.
A measure of generalization of treatment effects to naming of ten untrained phrases including an agent (subject), verb and a patient (object) with moving picture stimuli. Possible score ranges from 0 (worst) to 40 (best).
Time frame: Baseline, 10 weeks.
Change from baseline in naming ability of untrained items at week 20.
A measure of generalization of treatment effects to naming of ten untrained phrases including an agent (subject), verb and a patient (object) with moving picture stimuli. Possible score ranges from 0 (worst) to 40 (best).
Time frame: Baseline, 20 weeks.
Change from baseline in confrontation naming of single words (objects and actions) at week 10.
The Object \& Action Naming Battery (Masterson \& Druks, 1998) is a measure of change in ability to name forty pictures consisting of simple black and white drawings of objects and actions. Possible score range: 0 (worst) to 40 (best).
Time frame: Baseline, 10 weeks.
Change from baseline in confrontation naming of single words (objects and actions) at week 20.
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Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
2
The Object \& Action Naming Battery (Masterson \& Druks, 1998) is a measure of change in ability to name forty pictures consisting of simple black and white drawings of objects and actions. Possible score range: 0 (worst) to 40 (best).
Time frame: Baseline, 20 weeks.
Change from baseline in confrontation naming of single words (objects) at week 10.
The Boston naming test (Goodglass et al, 1983) is a measure of change in ability to name sixty simple black and white drawings of objects. Possible score range 0 (worst) to 60 (best).
Time frame: Baseline, 10 weeks.
Change from baseline in confrontation naming of single words (objects) week 20.
The Boston naming test (Goodglass et al, 1983) is a measure of change in ability to name sixty simple black and white drawings of objects. Possible score range 0 (worst) to 60 (best).
Time frame: Baseline, 20 weeks.
Change from baseline in connected speech at week 10.
Connected speech tasks (Nicholas \& Brookshire, 1993) measures of change in ability to retrieve words in a picture description tasks, a procedural information task and in sharing personal information tasks. The speech produced in each task is analysed and number of words and adequate information units produced is calculated and related to time taken to produce the information. Higher numbers are better results.
Time frame: Baseline, 10 weeks.
Change from baseline in connected speech at week 20.
Connected speech tasks (Nicholas \& Brookshire, 1993) measures of change in ability to retrieve words in a picture description tasks, a procedural information task and in sharing personal information tasks. The speech produced in each task is analysed and number of words and adequate information units produced is calculated and related to time taken to produce the information. Higher numbers are better results.
Time frame: Baseline, 20 weeks.
Change from baseline in self reported communicative participation in everyday life at week 10.
The Communicative Participation Item Bank (CPIB; Baylor et al 2013) is a validated measure of change in participants' perceptions of their communicative participation in everyday life activities. A short form of the item bank with ten items are used. The scoring of each item will be summarized into a total score with the range 0 (worse) to 30 (best).
Time frame: Baseline, 10 weeks.
Change from baseline in self reported communicative participation in everyday life at week 20.
The Communicative Participation Item Bank (CPIB; Baylor et al 2013) is a validated measure of change in participants' perceptions of their communicative participation in everyday life activities. A short form of the item bank with ten items are used. The scoring of each item will be summarized into a total score with the range 0 (worse) to 30 (best).
Time frame: Baseline, 20 weeks.
Change from baseline in self reported quality of life at week 10.
The Stroke Aphasia Quality of Life (SAQOL-39, Hilari et al 2009) is a validated measure of change in participant reported health related quality of life in a questionnaire with 39 items where participants evaluate of their everyday functioning in three domains: physical, psychosocial and communication. Scoring in each domain will be summarized and averaged and presented separately as well as in a compound averaged score. Possible score range is 1 (worse) to 5 (best).
Time frame: Baseline, 10 weeks.
Change from baseline in self reported quality of life at week 20.
The Stroke Aphasia Quality of Life (SAQOL-39, Hilari et al 2009) is a validated measure of change in participant reported health related quality of life in a questionnaire with 39 items where participants evaluate of their everyday functioning in three domains: physical, psychosocial and communication. Scoring in each domain will be summarized and averaged and presented separately as well as in a compound averaged score. Possible score range is 1 (worse) to 5 (best).
Time frame: Baseline, 20 weeks.