Obsessive-Compulsive Disorder Clinical Trial
Official title:
Deep Brain Stimulation for Severe Obsessive Compulsive Disorder: Efficacy and Mechanisms of Ventral Striatum and Subthalamic Nucleus Targets
The overarching aim is to compare the effects of ventral capsule/ventral striatum (VC/VS) and subthalamic nucleus (STN) deep brain stimulation (DBS) in the same participants. Investigators will test the hypothesis, grounded in cognitive neuroscience, that DBS at both sites is better than either site alone for treating the symptom dimensions of obsessive compulsive disorder (OCD). Specifically, Investigators will employ novel cognitive paradigms and neurophysiological measures of cortical synaptic function to test the hypothesis that VS/VC and STN DBS have different mechanisms of action and that alleviation of OCD symptoms is mediated by improvement in mood/anxiety with VS/VC DBS and by directly interrupting obsessions and compulsions with STN DBS. Investigators will additionally determine whether adjunctive cognitive behavioural therapy (CBT) enhances the response to DBS by providing the cognitive and behavioural skills to optimise symptom management and daily function.
The VS/VC and STN are both 'stations' in the neural circuitry thought to be dysfunctional in
OCD. The pre-eminent neurobiological model of OCD implicates abnormalities of orbitofrontal
cortex (OFC), anterior cingulate cortex (ACC) and ventral striatum. These structures are
integral to limbic cortico-striatal-thalamo-cortical circuitry whereby cortical outputs
synapse successively in ventral striatum, ventral pallidum and mediodorsal nucleus of
thalamus before projecting back to cortex; within this system, the pallidum projects to
thalamus either directly or indirectly via the subthalamic nucleus. It is therefore possible
that the observed clinical improvement in OCD with DBS is due to high frequency electrical
stimulation disrupting abnormal activity in the limbic circuit and that this can be obtained
at either of the two target sites. However, the ventral striatum and STN are thought to have
separate functions, important in different ways for modulating information processing in the
cortico-striatal-thalamo-cortical circuitry essential for the control of behaviour. Thus,
although both VS/VC and STN DBS affect the same neural circuit, their mechanism of action
may be quite different and stimulation at each of these locations may have unique effects on
the symptom dimensions of OCD.
Evidence for different clinical effects comes from findings that VS/VC DBS produced early
and sometimes dramatic mood elevation and anxiety reduction prior to improvement in
obsessions and compulsions whereas STN DBS, while diminishing obsessions and compulsions,
had no effect on emotion. This observation is relevant because mood and anxiety are
significant symptom dimensions in OCD and increases or decreases in the severity of anxiety
or depression are generally accompanied by parallel changes in the severity of
obsessions/compulsions. The ventral striatum, as well as being the first target of OFC/ACC
cortical outputs, receives inputs from amygdala and midbrain dopaminergic neurones, which
together provide the emotional and motivational impetus for goal directed behaviour. The
ventral striatum is therefore in a unique position, via its involvement in limbic
cortico-striato-thalamo-cortical circuitry, to influence the cognitive and motor processing
in parallel circuits which is preparatory for action selection and ultimately manifest in
thoughts and actions. Denys and colleagues proposed that VS/VC DBS influences OCD symptoms
via its effect on anxiety and mood. Taking this further, Investigators hypothesize that
stimulation of ventral striatal neurones influences reinforcement learning and emotion
processing thereby improving mood and reducing anxiety and resulting in a decrease in the
intensity of obsessions and compulsions.
STN DBS on the other hand may have a more direct effect on obsessions and compulsions. The
limbic STN, like the ventral striatum, is in a unique position to influence behavioural
outputs of cortico-striatal-thalamo-cortical circuitry. This is because the STN receives a
direct projection from right inferior frontal cortex which acts as a 'hyperdirect pathway',
activation of which overrides neural processing in the direct
cortico-striato-pallido-thalamic pathway. This results in the inhibition of ongoing, planned
acts and thoughts. Investigators therefore hypothesise that, via this inhibitory mechanism,
stimulation of STN neurones enables OCD patients to interrupt their repetitive thoughts and
actions resulting in a decrease in obsessions and compulsions.
Accordingly, DBS at both sites, because of different mechanisms of action, is predicted to
be clinically more effective than stimulation of either site alone. It also follows that if
there are two mechanisms mediating OCD improvement, this should be evident in different
patterns of cognitive and neurophysiological effects following DBS. In the proposed study
Investigators will test these predictions clinically and experimentally by using paradigms
designed to distinguish the two hypothetical mechanisms of action.
The main aim of CBT is to enable OCD patients to obtain greater control over behaviour so
that they can inhibit their repetitive thoughts and acts and switch to more meaningful
alternatives. One abnormal mechanism contributing to such cognitive inflexibility is thought
to be blunting of the value of positive and negative reinforcement normally used to guide
responses and dependent on intact OFC-striatal neural circuitry. Dysfunction of this
cognitive control system has been shown in first-degree clinically unaffected relatives of
OCD patients thus confirming this mechanism as a neurobiological phenotype of OCD 15.It is
therefore hypothesised that DBS of VS/VC will improve the processing of reinforcing stimuli
and that this will result not only in elevation of mood and reduction in anxiety but also in
increased cognitive flexibility. Investigators will test this by measuring the effectiveness
of VS/VC DBS on clinical measures of mood, anxiety, obsessions and compulsions and relate
these to changes in reinforcement learning and emotional processing using cognitive tasks
sensitive to OCD which measure the ability to respond appropriately to reinforcing
contingencies.
Attentional processes are also thought to contribute to impaired behavioural control in OCD.
Being able to stop or inhibit planned acts when environmental circumstances change depends
on the function of the right inferior cortical-STN hyperdirect pathway and can be
operationalised by measuring the stop signal reaction time (SSRT). The finding of specific
prolongation of SSRT in OCD patients and their unaffected first-degree relatives suggests
that this cognitive abnormality is also a phenotype of OCD. Although the neural substrate of
this mechanism does not involve the limbic cortico-striato-pallido-thalamic circuit, recent
evidence suggests that neural systems outside this circuitry, involving the right inferior
frontal cortex, are impaired in OCD. Investigators therefore hypothesise that STN DBS allows
inhibition of repetitive thoughts and acts in OCD by facilitating the action of the
hyperdirect pathway from the right inferior frontal cortex to STN. Investigators will test
this by measuring the effectiveness of STN DBS on obsessions and compulsions and relate
these to changes in SSRT and performance on other tasks sensitive to right inferior frontal
cortex function which measure the ability to inhibit pre-potent tendencies.
OCD symptoms and cognitive impairment may be mediated by abnormal cortical excitability due
to aberrant long term depression (LTD) synaptic plasticity and/or reduced gamma-aminobutyric
acid (GABA) mediated intracortical inhibition. Transcranial magnetic stimulation (TMS) can
be used to measure these neurophysiological processes safely in patients undergoing DBS and
both abnormalities have been shown to normalise following DBS in other disorders.
Investigators will use TMS to assess these neural processes before and after DBS in OCD
patients and test for whether there are differential changes from the two DBS sites and
whether combined VS/VC and STN DBS produces more vigorous improvements compatible with our
hypothesis concerning the superior clinical effects of this condition. Investigators will
measure intracortical inhibition not only at rest but also during the anticipation of
reinforcement, previously shown to affect motor cortex excitability and which Investigators
predict will be specifically affected by VS/VC DBS.
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