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Title:	Sensory Integration in Mouse Insular Cortex Reflects GABA Circuit Maturation
Source:	Neuron [0896-6273] Gogolla, Nadine yr:2014

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description	6.	Hensch, Takao K K. "Critical period regulation." Annual review of neuroscience 27.1: 549-579.
description	7.	Massey, P. "Long-term depression: Multiple forms and implications for brain function." Trends in Neurosciences 30.4 (2007): 176-184.
description	8.	Cantin, N. "Exploring the effectiveness of occupational therapy interventions, other than the sensory integration approach, with children and adolescents experiencing difficulty processing and integrating sensory information." The American Journal of Occupational Therapy 64.3 (2010): 415-429.
description	9.	Morishita, H. "Critical period revisited: impact on vision." Current Opinion in Neurobiology 18.1 (2008): 101-107.
description	10.	Barrett, Paul V T. "Understanding the neural basis of amblyopia." The neuroscientist 10.2 (2004): 106-117.
description	11.	May-Benson, Teresa A. "Systematic review of the research evidence examining the effectiveness of interventions using a sensory integrative approach for children." The American Journal of Occupational Therapy 64.3 (2010): 403-414.
description	12.	Lane, Shelly J. "Examining the neuroscience evidence for sensory-driven neuroplasticity: implications for sensory-based occupational therapy for children and adolescents." The American Journal of Occupational Therapy 64.3 (2010): 375-390.
description	13.	Hooks, Bryan M. "Critical Periods in the Visual System: Changing Views for a Model of Experience-Dependent Plasticity." Neuron 56.2 (2007): 312-326.
description	14.	Mesquita Reis, J. "Sensory processing disorders and psychopathology." European psychiatry 41.sS.
description	15.	Arbesman, M. "Methodology for the systematic reviews of occupational therapy for children and adolescents with difficulty processing and integrating sensory information." The American Journal of Occupational Therapy 64.3 (2010): 368-374.
description	16.	Courchesne, E. "Brain Growth Across the Life Span in Autism: Age-Specific Changes in Anatomical Pathology." Brain research 1380.Sp. Iss. SI (2010): 138-145.
description	17.	Crespi, C. "Psychosis and autism as diametrical disorders of the social brain." The Behavioral and brain sciences 31.3 (2008): 241-261.
description	18.	Sanmann, Jennifer N. "Algorithmic Approach for Methyl-CpG Binding Protein 2 (MECP2) Gene Testing in Patients With Neurodevelopmental Disabilities." Journal of Child Neurology 27.3 (2012): 346-354.
description	19.	Zhong, X. "MeCP2 Phosphorylation Is Required for Modulating Synaptic Scaling through mGluR5." The Journal of neuroscience 32.37 (2012): 12841-12847.
description	20.	Deisseroth, K. "Parvalbumin neurons and gamma rhythms enhance cortical circuit performance." Nature 459.7247 (2009): 698-702.