Scientists at Princeton and the Simons Foundation have identified four biologically distinct subtypes of autism, using data from over 5,000 children and a powerful new computational method. These subtypes—each with unique traits, developmental paths, and genetic signatures—promise to revolutionize how we understand, diagnose, and treat autism.
Scientists at Princeton and the Simons Foundation have identified four biologically distinct subtypes of autism, using data from over 5,000 children and a powerful new computational method. These subtypes—each with unique traits, developmental paths, and genetic signatures—promise to revolutionize how we understand, diagnose, and treat autism. Scientists at Princeton and the Simons Foundation have identified four biologically distinct subtypes of autism, using data from over 5,000 children and a powerful new computational method. These subtypes—each with unique traits, developmental paths, and genetic signatures—promise to revolutionize how we understand, diagnose, and treat autism.