The Secret Life of the
Grown - Up
Brain: The Surprising Talents of the Middle - Aged Mind (Viking) is a roundup of the most recent science on how the human brain ages, as well as a guide to «toning up your brain circuits» to better weather the onset of age — which is itself a relatively new problem for humankind, writes author Barbara Strauch, The New York Times «s deputy science and health and medical science editor, whose earlier book, The Primal Teen, considered the teenage b
Brain: The Surprising Talents of the Middle - Aged Mind (Viking) is a roundup of the most recent science on how the human
brain ages, as well as a guide to «toning up your brain circuits» to better weather the onset of age — which is itself a relatively new problem for humankind, writes author Barbara Strauch, The New York Times «s deputy science and health and medical science editor, whose earlier book, The Primal Teen, considered the teenage b
brain ages, as well as a guide to «toning up your
brain circuits» to better weather the onset of age — which is itself a relatively new problem for humankind, writes author Barbara Strauch, The New York Times «s deputy science and health and medical science editor, whose earlier book, The Primal Teen, considered the teenage b
brain circuits» to better weather the onset of age — which is itself a relatively new problem for humankind, writes author Barbara Strauch, The New York Times «s deputy science and health and medical science editor, whose earlier book, The Primal Teen, considered the teenage
brainbrain.
By reversibly deactivating the new nerve fibers that
grow, the neurobiologists were ultimately able to demonstrate for the first time that a group of these fibers is essential for the recovery of the motor function observed: Nerve fibers that
grew into the spinal cord from the intact front half of the
brain — changing sides — can reconnect the spinal cord
circuits of the rats» paralyzed limbs to the
brain, enabling the animals to grip again.
PROVIDENCE, R.I. [Brown University]-- Brown University researchers have traced a genetic deficiency implicated in autism in humans to specific molecular and cellular consequences that cause clear deficits in mice in how well neurons can
grow the intricate branches that allow them to connect to
brain circuits.