Schizophrenia Clinical Trial
Official title:
Transcranial Direct Current Stimulation and Effects on Early Auditory
Individuals with schizophrenia have difficulties in functioning in the community. No one really knows what factors determine how well patients manage in the real world. The purpose of this pilot study is to try a new approach to improving a potential determinant of good community functioning, namely how we process sounds. Specifically, the investigators propose to examine the benefit of combining auditory training exercises with transcranial direct current stimulation (tDCS). tDCS is a new tool that is being developed as a safe and noninvasive neurostimulation method, for improving processing of sounds. Transcranial direct current stimulation involves placing a wet sponge electrode on the head and one on the arm. Electrical current from a device powered by a 9-volt battery will flow from one electrode to the other. A small portion of the current will pass through the skull and stimulate the brain. This procedure is non-invasive and painless and it results in increase or decrease of spontaneous neuronal firing in the brain. Neurons are brain cells that send electrochemical messages to each other. Its safety and beneficial effect on mental functions has been demonstrated in healthy individuals and several clinical populations. The purpose of this study is to determine if transcranial direct current stimulation added to auditory training exercises can improve how schizophrenia patients process sound.
Neuroplasticity is the capacity of the brain to adapt and change in response to stimuli. In
schizophrenia, structural and synaptic neuroplastic impairments potentially contribute to
early perceptual processing deficits that in turn contribute to downstream higher cognitive
dysfunction. The N-methyl-D-aspartate receptor (NMDA-R) hypofunction hypothesis of
schizophrenia potentially explains the synaptic neuroplastic impairments as the NMDA receptor
is a key component of synaptic plasticity. A rational treatment strategy involves targeting
the underlying synaptic neuroplastic and perceptual processing deficits. That is, modulating
the capacity for synaptic plasticity and remediating the processing deficits could then
cascade into improved perceptual processing and eventually lead to better cognitive
functioning.
Transcranial direct current stimulation (tDCS) is a non-invasive neurostimulation technique
that has been shown to modulate synaptic plasticity. tDCS is promising because the technology
is low cost and the treatment is well-tolerated and has a good safety profile. Both human and
animal studies have implicated an essential role of the NMDA receptor in tDCS induced
neuroplastic changes. Recent animal studies demonstrated that tDCS increased levels of an
NMDA-R agonist and induced neuroplastic changes.
Cognitive training has been shown to induce both synaptic and structural neuroplastic changes
in control and psychiatric patient populations. This approach targets specific neural systems
with directed exercises that employ a combination of repetition, reward, and motivation to
induce adaptive neuroplastic changes.
While both tDCS and cognitive training can induce synaptic plasticity changes, each approach
has specific strengths that could converge in a cooperative manner. tDCS modulates NMDA-R
activity and creates an environment that enhances the likelihood of synaptic changes to
occur. However, tDCS alone has no inherent mechanism that drives change with specificity or
directionality. Cognitive training employs targeted and repeated exercises, which confers
specificity and directionality to synaptic changes. However, the extent of change that occurs
is limited by the impaired state of neuroplasticity in schizophrenia. Conceivably, employing
cognitive training in an environment enriched for plasticity could lead to enhanced and
adaptive synaptic neuroplastic change.
Subjects who have a psychiatric illness and may be cognitively impaired will be included in
the study. Persons with schizophrenia commonly have cognitive impairments that affect
attention, memory, and executive functioning. There is considerable evidence that these
deficits are linked to impairments in social and occupational functioning that are
characteristic of the disorder.
The cognitive deficits and functional impairments of the illness are the target of interest
in the study and therefore this patient population will be the specific targets for subject
recruitment.
Objectives and Aims
The purpose of this proposal is to determine the effect of adding adjunctive cognitive
training to tDCS in improving early auditory processing in schizophrenia patients.
Specific Aims
1. Determine if adding a cognitive auditory training exercise concurrently to cathodal tDCS
offers an advantage to improving early auditory processing over tDCS alone in
schizophrenia patients.
2. Determine if adding cathodal tDCS to a cognitive auditory training exercise offers an
advantage to improving early auditory processing over auditory training alone in
schizophrenia patients.
Study Protocol
30 individuals with schizophrenia will be randomly divided into 3 groups.
Group 1- Cathodal tDCS + auditory training exercise
Group 2- Cathodal tDCS + control condition
Group 3- Sham tDCS + auditory training exercise
Subjects in Group 1 and 2 will receive cathodal stimulation while Group 3 will receive Sham
stimulation. The training component for Groups 1 and 3 will be an active auditory training
program while Group 2 will engage in a control condition. On day 1, subjects will receive a
baseline Tone Matching Task (TMT) and Mismatch Negativity (MMN) assessment followed by 2
sessions of tDCS. Subjects will received tDCS + training for 20 min followed by a 20 min rest
period, and then a second 20 min tDCS + training session. Subjects will return the following
day (approximately 21 hrs later) where they will undergo tDCS + training, a 20 min rest, and
a final tDCS + training session. The post-stimulation TMT and MMN assessment will be
conducted immediately following the final tDCS + training session. Each of these sessions
will take approximately 3 hrs hours to complete.
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