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Summary: New research reports that approximately two-thirds of initially non-speaking children with autism develop spoken language following evidence-based early intervention. The study identifies key factors, such as intervention duration and motor imitation skills, that influence success. Key Facts After receiving evidence-based early interventions, roughly two-thirds of non-speaking children with autism speak single words, and approximately […]

Summary: New research reports that approximately two-thirds of initially non-speaking children with autism develop spoken language following evidence-based early intervention. The study identifies key factors, such as intervention duration and motor imitation skills, that influence success. Key Facts After receiving evidence-based early interventions, roughly two-thirds of non-speaking children with autism speak single words, and approximately

Researchers identify two key proteins that allow chandelier cells to connect with excitatory neurons. This “handshake” regulates brain signals and, when disrupted, may lead to epilepsy or autism.​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more

Researchers identify two key proteins that allow chandelier cells to connect with excitatory neurons. This “handshake” regulates brain signals and, when disrupted, may lead to epilepsy or autism.​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more

Researchers identify two key proteins that allow chandelier cells to connect with excitatory neurons. This “handshake” regulates brain signals and, when disrupted, may lead to epilepsy or autism.​ 

Researchers identify two key proteins that allow chandelier cells to connect with excitatory neurons. This “handshake” regulates brain signals and, when disrupted, may lead to epilepsy or autism.​  Read more at Cerebratech ​ 

Researchers identify two key proteins that allow chandelier cells to connect with excitatory neurons. This “handshake” regulates brain signals and, when disrupted, may lead to epilepsy or autism.​  Read more at Cerebratech ​  Read more at Cerebratech ​ 

Researchers identify two key proteins that allow chandelier cells to connect with excitatory neurons. This “handshake” regulates brain signals and, when disrupted, may lead to epilepsy or autism.​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​ 

Researchers identify two key proteins that allow chandelier cells to connect with excitatory neurons. This “handshake” regulates brain signals and, when disrupted, may lead to epilepsy or autism.​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​ 

Researchers identify two key proteins that allow chandelier cells to connect with excitatory neurons. This “handshake” regulates brain signals and, when disrupted, may lead to epilepsy or autism.​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​  Read more at Cerebratech ​