Executive Dysfunction Clinical Trial
Official title:
Cognitive Rehabilitation in Patients With Spina Bifida: Effects on Executive Functions, Psychological and Health Related Factors
This study will examine the effects of a theoretically grounded and manualized cognitive rehabilitation program on patients with Spina Bifida (SB). SB is often associated with deficit in higher order control over cognition, emotion and behaviour; which is typically referred to as executive functions. The present study will examine the efficacy of Goal Management Training (GMT) in patients with SB that experience executive difficulties. It is expected that GMT will have a favourable effect on cognitive executive functioning, psychological and health related factors.
INTRODUCTION:
Rationale and purpose:
Rehabilitation of impaired cognitive processes has come to be a standard component of
medical care after traumatic brain injury (TBI) or stroke (Cicerone, Dahlberg, Malec,
Langenbahn, Felicitti, Kneipp, et al., 2005), and sometimes for patients with infections of
the brain, hypoxic brain damage, and progressive conditions (Wilson, 2008).
The objective of this study is to determine the effects of a recently developed cognitive
rehabilitation program; Goal Management Training (GMT) on the executive functioning in
people with SB that have cognitive complaints. To date, research efforts have only focused
on categorizing cognitive impairments in SB with no research directed towards rehabilitation
for these impairments. Given the extent, nature, and ramifications of cognitive impairments
in SB, studies on compensatory-based cognitive rehabilitation that teaches management
strategies such as GMT may be beneficial for this population. The research questions in this
study are (1) What effect does GMT have on cognitive executive functions? Furthermore, what
effect does GMT have on subjective and informant evaluation of executive functioning? (2)
What effect does GMT have on mental health and quality of life? (3) What effect does GMT
have on coping strategies? There will be a 6 months follow-up with regard to the research
questions. It is expected that GMT will have a favourable effect on executive functioning,
psychological and health related factors in patients with SB.
BACKGROUND:
Medical and cognitive aspects in Spina bifida (SB):
SB is a birth defect caused by incomplete neural tube development, resulting in a protrusion
of spinal cord, meninges, and nerve roots through an opening in the spine. SB is a disorder
associated with a variety of brain abnormalities, usually including a congenital
malformation of the cerebellum and hindbrain (Chiari II) and in about half the cases,
partial dysgenesis of the corpus callosum (Barkovich, 2000). Hydrocephalus occurs in 95% of
children with this disorder, with 80-90% requiring shunting (Fletcher et al., 2005). SB
represents a complicated series of neural insults that begins prior to birth, with
persisting effects on development, including problems in the orthopaedic, cognitive, and
behavioural domains (Barkovich, 2000; Dicianno, Kurowski, Yang, et al., 2008).
Executive dysfunction:
Executive functions are higher level cognitive operations involved in the control and
direction of lower level functions. Patients with executive dysfunction may experience,
problems in dealing with novel situations, problems forming a reasonable plan that takes
into account the relevant details, problems inhibiting habitual responses to situations when
these are inappropriate, increased distractibility, problems in sustaining attention to task
over time and keeping goals on-line, impaired monitoring and error-correction of behavioural
output, low motivation, lack of foresight regarding the effects of one's behaviour,
difficulty in regulating emotional state, and poor insight into one's difficulties (Levine,
Stuss, Winocur, Binns, et al., 2007). Executive dysfunction will be examined in the present
study because of the major implications deficits in this cognitive domain have for patients.
Although executive dysfunction is often associated with frontal lobe damage, it can also
result from damage to other brain areas. Damage to the frontal-subcortical white matter
circuits, which commonly occurs in SB, can disrupt communication between the prefrontal
cortex and other areas of the brain (Dennis et al., 2006).
Cognitive rehabilitation:
Cognitive rehabilitation can be defined as a process whereby people with brain injury work
together with professional staff and others to remediate or alleviate cognitive deficits
arising from a neurological insult (Wilson, 2008). Treatment goals may vary, but the major
goal of cognitive rehabilitation is to enable people with disabilities to function as
adequately as possible in their own environments (Wilson, 2008). The effectiveness of
cognitive rehabilitation is well documented within some domains for patients with stroke and
TBI (e.g., Cicerone et al., 2000, 2005; Wilson, 2008; Rees et al., 2007).
The cognitive domain in focus of the present study will be executive functioning.
Interventions within this domain, such as Goal Management Training (GMT), include those
explicitly directed towards bridging the gap between intention and action, a deficit
described as "goal neglect" with interventions targeted towards re-establishing endogenous
control of behaviour.
Goal Management Training (GMT):
The present study has translated, and will use an intervention protocol that was originally
developed to teach patients with brain injury a strategy to improve their ability to plan
activities and to structure intentions; GMT. GMT aims to increase participants'
understanding of their own goal management problems, to give them a vocabulary to describe
the problems, and to give them a set of techniques to compensate for them.
GMT has been evaluated in 30 patients with mild to severe brain injury, who were randomly
assigned to groups who received GMT or motor skill training. Participants who followed the
GMT showed significant gains on everyday paper-and-pencil tasks designed to mimic tasks that
are problematic for patients with deficits in executive functioning (Levine, Robertson,
Clare, Carter, Hong, & Wilson, et al., 2000). Furthermore, Levine et al. (2007) have also
applied a version of this protocol in a sample of 49 elderly with subjective cognitive
complaints where results indicated improvements in simulated real-life tasks and self-rated
executive deficits. These gains where maintained at long-term follow-up. Moreover, in a
Dutch study (van Hooren et al., 2007) involving 37 older adults with executive difficulties,
the participants in the intervention group were significantly less annoyed by their
cognitive failures, were better able to manage their executive failures and reported less
anxiety symptoms than those in the waiting list control group after receiving GMT.
METHODS:
The study is an experimental repeated measures design with one treatment group (n=24) and
one control group (n=14), total (n=38).
Procedure:
All the patients between the age of 20 and 45 registered at TRS national resource centre for
rare disorders in Norway have been asked to participate in the study (n=201). Along with the
invitation was a self-report questionnaire, Behavior Rating Inventory of Executive
Function-Adult Version (BRIEF-A), which the respondents had to fill out and return.
Inclusion of patients was based upon one or more elevated scales on the Metacognition Index
(MI). Fifty-three (n=53) subjects responded and returned the BRIEF-A questionnaire, and all
fulfilled the inclusion criteria.
The baseline measurement of fifty-three (n=53) subjects in this randomised controlled trial
(RCT) have been done. At baseline the participants filled out questionnaires concerning
cognitive functioning, mental health, quality of life, and coping. Furthermore,
neuropsychological assessments were conducted. Additionally, the Dysexecutive Questionnaire
and BRIEF-A informant report form were filled out by an adult informant who were familiar
with the rated individual's everyday functioning. Six subjects were excluded at baseline
because they met the exclusion criteria, six subjects met the inclusion criteria but could
not follow the programme at the time being because of hospitalization/illness, and three
subjects could not follow the programme at the time being because of school/education. After
the baseline measurement the participants were randomly assigned to GMT or control group
(waiting list). The method of randomisation was a block design with block size 2, with
stratification for age and education.
Twenty-four (n=24) subjects have been assigned to GMT, with six subjects in each GMT
training group. The GMT is structured into seven modules. Each module is designed to run for
approximately two hours. As such, the subjects will stay at TRS for three days and go
through module 1 and 2. Then they go home for a month, come back and stay for three days
while going through modules 3, 4 and 5. Once more, they go home for a month, come in and go
through modules 6 and 7. GMT consists of tasks performed during training designed to
illustrate goal management concepts in action, and homework assignments designed to
facilitate transfer of the concepts to real life. Both the control group and the
intervention group will be assessed immediately after the intervention group has completed
the intervention, and after 6 months.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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