Dara Manoach, Ph.D.
PhD Investigator Clinical
Psychiatry, Research Institute
Professor of Psychology in the Department of Psychiatry
Harvard Medical School
Psychiatry, Massachusetts General Hospital
Paul B. and Sandra M. Edgerley MGH Research Scholar 2019-2024
Mass General Research Institute, Massachusetts General Hospital
|PhD Harvard University 1989|
Our lab is presently conducting investigations of the contribution of abnormal sleep to cognitive deficits. Although schizophrenia and ASD are defined by waking phenomena, abnormal sleep is a common feature.
In particular, schizophrenia is characterized by reduced sleep spindle activity. Sleep spindles correlate with IQ and are thought to promote long-term potentiation and enhance memory consolidation. Reduced spindle activity in schizophrenia may impair sleep-dependent memory consolidation, contribute to symptoms and be a useful novel treatment biomarker. Studies showing that spindles can be pharmacologically enhanced in schizophrenia and that increasing spindles improves memory in healthy individuals suggest that treating spindle deficits in schizophrenia may improve cognition. Spindle activity is highly heritable and recent genetic studies have identified schizophrenia and ASD risk genes that may contribute to spindle deficits and illuminate their mechanisms.
The ultimate goal of this research program is to forge empirical links in causal chains from risk genes to proteins and cellular functions, through to endophenotypes, cognitive impairments, symptoms and diagnosis, with the hope of advancing the mechanistic understanding and treatment of schizophrenia and ASD. To achieve this goal, we collaborate with a multidisciplinary team of researchers including engineers and basic scientists studying animal models and human geneticists.
Our tools include behavioral studies, functional MRI (fMRI), diffusion tensor imaging (DTI), electroencephalography (EEG) and magnetoencephalography (MEG). We use these tools in complementary ways to achieve a high degree of spatial and temporal precision.