Connectivity Affecting the Antidepressant REsponse Study (CAARE)

Individuals with late-life depression (LLD) experience high levels of disability, mortality, and poor responses to antidepressants. The MRI hallmark of 'vascular depression' in this population is significant ischemic white matter lesion (WML) severity, a finding associated with poor antidepressant outcomes. Despite observations of diffuse white matter disease in LLD, we propose in our "disconnection hypothesis" that focal damage to fiber tracts negatively affects the function of connected regions, resultantly contributing to cognitive deficits and clinical symptoms such as depression severity and negativity bias. Focal WMLs may also reduce the likelihood of an antidepressant response when the specific antidepressant used acts on neurotransmitter systems projecting through the damaged fiber tract. This implies that the effect of tract damage on clinical response may differ between drugs with different mechanism of action.

We propose that the cingulum bundle (CB) and uncinate fasciculus (UF) are key tracts in LLD as they are components of cognitive, affective and default mode networks and contain monoamine neurotransmitter projections. Supporting our model, past work implicates CB and UF deficits in LLD and our new pilot data associates tract damage with poor antidepressant response.

In a cohort of up to 130 depressed elders we will test our central hypotheses: a) focal CB and UF WMLs disrupt connectivity and function of connected regions and contribute to cognitive deficits and affective symptoms; and b) antidepressants acting on neurotransmitter systems projecting through these tracts will be less effective.

Overall Study Design: After obtaining informed consent, we will assess for eligibility. Individuals who meet eligibility criteria will complete neuropsychological testing and a one-hour magnetic resonance imaging (MRI). Subjects will then be randomized in a 2:1 ratio to receive either blinded escitalopram or identical placebo. After 8 weeks of study drug, they will be assessed for remission. Those whose depression has remitted will end their study participation. Those who remain symptomatic will be transitioned to open-label bupropion for 8 weeks, after which their participation will end. We will work with participants on plans for clinical care after the study and will offer two additional visits to facilitate that transition.

Specific Aim 1: To characterize the effect of cingulum bundle (CB) and uncinate fasciculus (UF) WMLs on tract connectivity, function of connected regions, and the cognitive and affective presentation of LLD.

Hypothesis 1: Greater CB WML volume is associated with a) reduced resting-state connectivity of frontal, temporal, and cingulate regions and b) deficits in attention, memory and processing speed.

Hypothesis 2: Greater UF WML volume is associated with a) reduced resting state functional connectivity between frontocingulate and medial temporal regions, and b) greater depression severity and negativity bias.

Exploratory Hypothesis: Greater CB WML volume is associated with failure of anterior and posterior default mode network nodes to deactivate during attentional components of the fMRI task. Greater UF WML volume is associated with greater medial temporal reactivity during the functional MRI task.

Specific Aim 2: To determine whether deficits in tract structural / functional connectivity predict nonremission to antidepressant treatments and if these relationships vary based on antidepressant mechanism of action.

Hypothesis 3: Nonremission to escitalopram will be predicted by: a) greater WML volume in the CB and UF, and b) reduced resting functional connectivity between structures connected by the CB and UF. Greater WML severity and reduced functional connectivity in these tracts will not significantly predict response to placebo.

Hypothesis 4: Nonremission to bupropion will be predicted by a) greater WML volume in the UF but not CB, and b) reduced resting functional connectivity deficits between structures connected by the UF but not CB.

Exploratory Aims: Expl. Aim 1) To determine if specific cognitive measures may serve as markers of focal tract WML damage. Expl. Aim 2) To use whole-brain multimodal imaging approaches to examine how connectivity differences in other brain regions may also predict nonremission to antidepressants.