The purpose of this study is to test an innovative combination of direct-attention training and metacognitive training in the treatment of attention impairments in Veterans with moderate-to-severe traumatic brain injury (TBI) who report experiencing attentional problems. Enrolled participants will be randomized to receive either the direct-attention training or metacognitive training first and then will be crossed over to receive the opposite intervention. The study will consist of two treatment periods of 4 weeks and a post-treatment 4 weeks later. In addition to the rehabilitation treatments, participants will also perform measures of complex functional activities (e.g., independent activities of daily living or IADLs) and neurocognitive tests of attention-control functions. Participants will also perform an attentional task that probes the function of three different attentional systems while brain wave activity (i.e., electroencephalography or EEG) is being recorded in order to assess changes in brain function that may be improved by the rehabilitation approach. Planned enrollment will be 36 Veterans.
Attention impairment is ubiquitous in TBI survivors. This is a devastating impairment because attention is the backbone of cognitive systems. Attention is requisite for other cognitive processes that are vital to everyday functioning such as memory, problem solving, language skills, and the cognitive control of behavior. Studies of attention training have shown improved attention on laboratory measures, but limited translation to real-world tasks. Notably, these previously-tested rehabilitation approaches have not included training in the very cognitive processes needed for translation of training to everyday tasks which include internal verbalization and self-monitoring, also called metacognitive strategies. One training method for metacognitive strategies has shown promise, but is lacking in basic attention training. Rehabilitation specialists have recently argued for a rehabilitation approach wherein both basic foundational attention and metacognitive strategies should be synergistically combined. Consequently, the investigators will test an innovative combination of direct-attention training and metacognitive training for which the other compensates disadvantages of each. Because of the promise of each type of training separately, and the potential additive effects of the combination, it is critical to test this combined attention and metacognitive training in Veteran survivors of chronic moderate-to-severe traumatic brain injury (TBI). The investigators will address the following two specific aims: the investigators propose to conduct a pilot study to examine cognitive rehabilitation therapy (CRT) effects in a group of Veterans with chronic moderate to severe TBI (m/sTBI), focused on remediating attention-control impairments using both direct-attention and metacognitive-strategy training approaches in a AB/BA crossover design with 1-month follow-up to address the following two specific aims: 1) Test treatment response to combined direct-attention and metacognitive-strategy training in Veterans with chronic m/sTBI; and 2) identify mechanisms and biomarkers of rehabilitation-related neuroplasticity. Under the first aim the investigators will test for effects of combined direct-attention and metacognitive-strategy training on measures of complex functional activities and neurocognitive tests of attention-control functions. Under the second aim, the investigators will test effects of the their CRT approach on behavioral and brain activity while participants perform a well-validated attentional task that probes the function of three dissociable attentional systems. The approach is innovative because it combines a theoretically motivated and novel approach to address a significant source of disability in Veteran survivors of TBI. The proposed research is significant because findings will form the foundation for a larger-scale trial to enable us to determine the durability of gains and the functional impact of treatment on Veteran's real world activities and to more positively shape healthcare for our Veterans who are suffering from TBI. Outcome measures will include standardized tests of neurocognitive functioning such as attention and other cognitive skills, measures of self care, ability to live independently, social role participation, life satisfaction, TBI-related quality of life, mood/anxiety, and attention-related scalp-recorded brain event-related potentials (ERPs, derived from electroencephalography).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
BrainHQ (by Posit Science Corp.) computerized attention training using the following modules: "Divided attention," "Target tracker," "Double Decision," "Mixed Signals," and "Freeze Frame."
A compensatory metacognitive strategy-based intervention program that teaches strategies for improving attentional control and problem solving.
North Florida/South Georgia Veterans Health System, Gainesville, FL
Gainesville, Florida, United States
Timed Instrumental Activities of Daily Living (TIADL)
The TIADL is a timed, performance-based measure of everyday cognition/instrumental activities of daily living (IADLs) in which participants are presented with common everyday stimuli (e.g., medication labels, transportation schedules, cake-mix ingredients, phone book) and asked to answer questions. The dependent variables are the number of accurate responses and response speed to each accurate item is recorded.
Time frame: Baseline TIADL Reaction Time assessed pretreatment
Timed Instrumental Activities of Daily Living (TIADL)
The TIADL is a timed, performance-based measure of everyday cognition/instrumental activities of daily living (IADLs) in which participants are presented with common everyday stimuli (e.g., medication labels, transportation schedules, cake-mix ingredients, phone book) and asked to answer questions. The dependent variables are the number of accurate responses and response speed to each accurate item is recorded.
Time frame: Change from Baseline in TIADL Reaction Time assessed at 8 weeks
Timed Instrumental Activities of Daily Living (TIADL)
The TIADL is a timed, performance-based measure of everyday cognition/instrumental activities of daily living (IADLs) in which participants are presented with common everyday stimuli (e.g., medication labels, transportation schedules, cake-mix ingredients, phone book) and asked to answer questions. The dependent variables are the number of accurate responses and response speed to each accurate item is recorded.
Time frame: Change from Baseline in TIADL Reaction Time assessed at 12 weeks (1-month post treatment)
Timed Instrumental Activities of Daily Living (TIADL) - Accuracy
The TIADL is a timed, performance-based measure of everyday cognition/instrumental activities of daily living (IADLs) in which participants are presented with common everyday stimuli (e.g., medication labels, transportation schedules, cake-mix ingredients, phone book) and asked to answer questions. The dependent variables are the number of accurate responses and response speed to each accurate item is recorded.
Time frame: Change from Baseline in TIADL Accuracy assessed at 4 weeks
Timed Instrumental Activities of Daily Living (TIADL) - Accuracy
The TIADL is a timed, performance-based measure of everyday cognition/instrumental activities of daily living (IADLs) in which participants are presented with common everyday stimuli (e.g., medication labels, transportation schedules, cake-mix ingredients, phone book) and asked to answer questions. The dependent variables are the number of accurate responses and response speed to each accurate item is recorded.
Time frame: Change from Baseline in TIADL Accuracy assessed at 8 weeks
Timed Instrumental Activities of Daily Living (TIADL) - Accuracy
The TIADL is a timed, performance-based measure of everyday cognition/instrumental activities of daily living (IADLs) in which participants are presented with common everyday stimuli (e.g., medication labels, transportation schedules, cake-mix ingredients, phone book) and asked to answer questions. The dependent variables are the number of accurate responses and response speed to each accurate item is recorded.
Time frame: Change from Baseline in TIADL Accuracy assessed at 12 weeks (1 month post treatment)
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Ability Score
Assesses global outcome, including ability, adjustment and community participation indices.
Time frame: Change from Baseline in MPAI-4 Ability Score assessed at 4 weeks
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Ability Score
Assesses global outcome, including ability, adjustment and community participation indices.
Time frame: Change from Baseline in MPAI-4 Ability Score assessed at 8 weeks
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Ability Score
Assesses global outcome, including ability, adjustment and community participation indices.
Time frame: Change from Baseline in MPAI-4 Ability Score assessed at 12 weeks (1 month post treatment)
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Adjustment Score
Assesses global outcome, including ability, adjustment and community participation indices.
Time frame: Change from Baseline in MPAI-4 Adjustment Score assessed at 4 weeks
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Adjustment Score
Assesses global outcome, including ability, adjustment and community participation indices.
Time frame: Change from Baseline in MPAI-4 Adjustment Score assessed at 8 weeks
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Adjustment Score
Assesses global outcome, including ability, adjustment and community participation indices.
Time frame: Change from Baseline in MPAI-4 Adjustment Score assessed at 12 weeks (1 month post treatment)
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Participation Score
Assesses global outcome, including ability, adjustment and community participation indices.
Time frame: Change from Baseline in MPAI-4 Participation Score assessed at 4 weeks
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Participation Score
Assesses global outcome, including ability, adjustment and community participation indices.
Time frame: Change from Baseline in MPAI-4 Participation Score assessed at 8 weeks
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Participation Score
Assesses global outcome, including ability, adjustment and community participation indices.
Time frame: Change from Baseline in MPAI-4 Participation Score assessed at 12 weeks (1 month post treatment)
Timed Instrumental Activities of Daily Living (TIADL) - Reaction Time score
The TIADL is a timed, performance-based measure of everyday cognition/instrumental activities of daily living (IADLs) in which participants are presented with common everyday stimuli (e.g., medication labels, transportation schedules, cake-mix ingredients, phone book) and asked to answer questions. The dependent variables are the number of accurate responses and response speed to each accurate item is recorded.
Time frame: Baseline (pretreatment) on TIADL - Reaction Time score
Timed Instrumental Activities of Daily Living (TIADL) - Accuracy score
The TIADL is a timed, performance-based measure of everyday cognition/instrumental activities of daily living (IADLs) in which participants are presented with common everyday stimuli (e.g., medication labels, transportation schedules, cake-mix ingredients, phone book) and asked to answer questions. The dependent variables are the number of accurate responses and response speed to each accurate item is recorded.
Time frame: Baseline (pretreatment) on TIADL - Accuracy score
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4)
Assesses global outcome, including ability, adjustment and community participation indices. The MPAI-4 is a 35-item questionnaire-based inventory that will be completed study staff and TBI survivors. It offers three subscales (Ability, Adjustment, and Participation) and has well-documented psychometric properties. MPAI-4 items represent the range of physical, cognitive, emotional, behavioral, and societal problems that TBI survivors often encounter; it also assess major obstacles to community integration.
Time frame: Baseline (pretreatment) MPAI-4 Adjustment score
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4)
Assesses global outcome, including ability, adjustment and community participation indices. The MPAI-4 is a 35-item questionnaire-based inventory that will be completed study staff and TBI survivors. It offers three subscales (Ability, Adjustment, and Participation) and has well-documented psychometric properties. MPAI-4 items represent the range of physical, cognitive, emotional, behavioral, and societal problems that TBI survivors often encounter; it also assess major obstacles to community integration.
Time frame: Baseline (pretreatment) MPAI-4 Participation score
Attention Network Test (ANT) Alerting Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in Altering Reaction Time Score assessed at 4 weeks
Attention Network Test (ANT) Alerting Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in Altering Reaction Time Score assessed at 8 weeks
Attention Network Test (ANT) Alerting Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in Altering Reaction Time Score assessed at 12 weeks (1 month post treatment)
Attention Network Test (ANT) Orient Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Baseline (pretreatment) Orienting Reaction Time score
Attention Network Test (ANT) Orienting Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in Orienting Reaction Time Score assessed at 4 weeks
Attention Network Test (ANT) Orienting Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in Orienting Reaction Time Score assessed at 8 weeks
Attention Network Test (ANT) Orienting Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in Orienting Reaction Time Score assessed at 12 weeks (1 month post treatment)
Attention Network Test (ANT) Executive-Control Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Baseline (pretreatment) Executive-Control Reaction Time score
Attention Network Test (ANT) Executive-Control Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in Executive-Control Reaction Time Score assessed at 4 weeks
Attention Network Test (ANT) Executive-Control Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in Executive-Control Reaction Time Score assessed at 8 weeks
Attention Network Test (ANT) Executive-Control Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in Executive-Control Reaction Time Score assessed at 12 weeks (1 month post treatment)
Attention Network Test (ANT) Alerting Reaction Time score
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Baseline (pretreatment) Alerting Reaction Time score
ANT ERP (N1) Alerting Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Baseline ANT ERP (N1) Alerting Amplitude assessed pretreatment
ANT ERP (N1) Alerting Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in ANT ERP (N1) Alerting Amplitude assessed at 4 weeks
ANT ERP (N1) Alerting Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in ANT ERP (N1) Alerting Amplitude assessed at 8 weeks
ANT ERP (N1) Alerting Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in ANT ERP (N1) Alerting Amplitude assessed at 12 weeks (1 month post treatment)
ANT ERP (N1) Orienting Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Baseline ANT ERP (N1) Orienting Amplitude assessed pretreatment
ANT ERP (N1) Orienting Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in ANT ERP (N1) Orienting Amplitude assessed at 4 weeks
ANT ERP (N1) Orienting Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in ANT ERP (N1) Orienting Amplitude assessed at 8 weeks
ANT ERP (N1) Orienting Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Change from Baseline in ANT ERP (N1) Orienting Amplitude assessed at 12 weeks (1 month post treatment)
ANT ERP (P3) Executive Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Baseline ANT ERP (P3) Executive Amplitude assessed pretreatment
ANT ERP (P3) Executive Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Baseline ANT ERP (P3) Executive Amplitude assessed at 4 weeks
ANT ERP (P3) Executive Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Baseline ANT ERP (P3) Executive Amplitude assessed at 8 weeks
ANT ERP (P3) Executive Amplitude
The ANT combines a covert cueing paradigm with a classic flanker task to behaviorally probe independent but interactive components of attention in a single experimental paradigm. Scalp-recorded electroencephalography (EEG) will be acquired from 64 sensors while participants perform the ANT to derive event-related potentials (ERPs) reflecting alerting, orienting, and executive-control components of attention and enable probing of brain plasticity associated with attention rehabilitation.
Time frame: Baseline ANT ERP (P3) Executive Amplitude assessed at 12 weeks (1 month post treatment)
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Ability Score
Assesses global outcome, including ability, adjustment and community participation indices. The MPAI-4 is a 35-item questionnaire-based inventory that will be completed study staff and TBI survivors. It offers three subscales (Ability, Adjustment, and Participation) and has well-documented psychometric properties. MPAI-4 items represent the range of physical, cognitive, emotional, behavioral, and societal problems that TBI survivors often encounter; it also assess major obstacles to community integration.
Time frame: Baseline MPAI-4 Ability Score assessed pretreatment
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Adjustment Score
Assesses global outcome, including ability, adjustment and community participation indices. The MPAI-4 is a 35-item questionnaire-based inventory that will be completed study staff and TBI survivors. It offers three subscales (Ability, Adjustment, and Participation) and has well-documented psychometric properties. MPAI-4 items represent the range of physical, cognitive, emotional, behavioral, and societal problems that TBI survivors often encounter; it also assess major obstacles to community integration.
Time frame: Baseline MPAI-4 Adjustment Score assessed pretreatment
Mayo-Portland Adaptability Inventory, 4th edition (MPAI-4) - Participation Score
Assesses global outcome, including ability, adjustment and community participation indices. The MPAI-4 is a 35-item questionnaire-based inventory that will be completed study staff and TBI survivors. It offers three subscales (Ability, Adjustment, and Participation) and has well-documented psychometric properties. MPAI-4 items represent the range of physical, cognitive, emotional, behavioral, and societal problems that TBI survivors often encounter; it also assess major obstacles to community integration.
Time frame: Baseline MPAI-4 Participation Score assessed pretreatment
Mindful Attention Awareness Scale-Lapses Only (MAAS-LO)
The MAAS-LO is a 12-item 6-point Likert-type scale designed to measure everyday attentional lapses (infrequent to very frequent).
Time frame: Change from Baseline in MAAS-LO Score assessed at 4 weeks
Mindful Attention Awareness Scale-Lapses Only (MAAS-LO)
The MAAS-LO is a 12-item 6-point Likert-type scale designed to measure everyday attentional lapses (infrequent to very frequent).
Time frame: Change from Baseline in MAAS-LO Score assessed at 8 weeks
Mindful Attention Awareness Scale-Lapses Only (MAAS-LO)
The MAAS-LO is a 12-item 6-point Likert-type scale designed to measure everyday attentional lapses (infrequent to very frequent).
Time frame: Change from Baseline in MAAS-LO Score assessed at 12 weeks (1 month post treatment)
Satisfaction with Life Scale (SWLS)
The SWLS assesses patient's perceived satisfaction with life. It is a 5-item 7-point Likert-type scale with a range from "strongly disagree" to "strongly agree." The total score is used as a measure of satisfaction with life.
Time frame: Baseline SWLS Score assessed pretreatment
Mindful Attention Awareness Scale-Lapses Only (MAAS-LO)
The MAAS-LO is a 12-item 6-point Likert-type scale designed to measure everyday attentional lapses (infrequent to very frequent).
Time frame: Baseline (pretreatment) on MAAS-LO
Satisfaction with Life Scale (SWLS)
The SWLS assesses patient's perceived satisfaction with life. It is a 5-item 7-point Likert-type scale with a range from "strongly disagree" to "strongly agree." The total score is used as a measure of satisfaction with life.
Time frame: Change from Baseline in SWLS Score assessed at 4 weeks
Satisfaction with Life Scale (SWLS)
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The SWLS assesses patient's perceived satisfaction with life. It is a 5-item 7-point Likert-type scale with a range from "strongly disagree" to "strongly agree." The total score is used as a measure of satisfaction with life.
Time frame: Change from Baseline in SWLS Score assessed at 8 weeks
Satisfaction with Life Scale (SWLS)
The SWLS assesses patient's perceived satisfaction with life. It is a 5-item 7-point Likert-type scale with a range from "strongly disagree" to "strongly agree." The total score is used as a measure of satisfaction with life.
Time frame: Change from Baseline in SWLS Score assessed at 12 weeks (1 month post treatment)