Brain wave stimulation may improve Alzheimer’s symptoms
Noninvasive treatment improves memory and reduces amyloid plaques in mice.
Noninvasive treatment improves memory and reduces amyloid plaques in mice.
Study reveals why people with the APOE4 gene have higher risk of the disease.
Studies by Richard Wurtman have led to development of nutrient mix shown to slow cognitive impairment in early stages of the disease.
Existence of “silent engrams” suggests that existing models of memory formation should be revised.
Neuroscientists identify genetic changes in microglia in a mouse model of neurodegeneration and Alzheimer's disease.
Success rate is comparable to that of highly trained scientists performing the process manually.
MIT study suggests a new approach to developing treatments for Alzheimer’s disease.
Discovery of how amyloids bind metal ions sheds light on protein function.
Digital pen plus speedy data analysis developed at MIT and tested at Lahey Hospital improves a classic test that helps detect cognitive impairment.
Noninvasive technique reduces beta amyloid plaques in mouse models of Alzheimer’s disease.
Picower Institute director awarded for her research on brain development, neurological disorders, and Alzheimer’s disease.
Study finds a complex series of molecular, cellular, circuit and network-level changes contribute to the progression of Alzheimer's.
Over half a century at MIT, Corkin made lasting contributions to the biology of memory and cognitive disorders.
Neuroscientists retrieve missing memories in mice with early Alzheimer’s symptoms.