Research finds prediction may be key to eye-and-hand coordination
Monday, June 5, 2023
Have you ever made a great catch—like saving a phone from dropping into a toilet or catching an indoor cat from running outside? Those skills—the ability to grab a moving object—takes precise interactions within and between our visual and motor systems. Researchers at the Del Monte Institute for Neuroscience at the University of Rochester have found that the ability to visually predict movement may be an important part of the ability to make a great catch—or grab a moving object.
“We were able to develop a method that allowed us to analyze behaviors in a natural environment with high precision, which is important because, as we showed, behavioral patterns differ in a controlled setting,” said Kuan Hong Wang, PhD, a Dean’s Professor of Neuroscience at the University of Rochester Medical Center. Wang co-led the study out today in Current Biology with Jude Mitchell, PhD, assistant professor of Brain and Cognitive Sciences at the University of Rochester. “Understanding how natural behaviors work will give us better insight into what is going awry in an array of neurological disorders.”
Read More: Research finds prediction may be key to eye-and-hand coordinationResearchers find possible target for treating neuropsychiatric disorders in teens
Thursday, June 1, 2023
The brain continuously changes during childhood and throughout adolescence. The onset of neuropsychiatric disorders like schizophrenia often begins during young adulthood. Dysfunction of the dopamine system—necessary for cognitive processing and decision-making—begins during this point in development. Researchers at the Del Monte Institute for Neuroscience at the University of Rochester are coming closer to finding a possible target for treating neuropsychiatric disorders like schizophrenia and autism during this time of development that could affect the brain circuitry into adulthood.
“Brain development is a lengthy process, and many neuronal systems have critical windows—key times when brain areas are malleable and undergoing final maturation steps,” said Rianne Stowell, PhD, a postdoctoral fellow in the Wang Lab at the University of Rochester Medical Center and co-first author on research out today in the journal eLife. “By identifying these windows, we can target interventions to these time periods and possibly change the course of a disease by rescuing the structural and behavioral deficits caused by these disorders.”
Read More: Researchers find possible target for treating neuropsychiatric disorders in teens