‘ brain appeared to have incorporated therobotic arm as their own, fine-tuning maneuvers to effect precise moves. “It was control in free space. The movements looked natural, and the monkey could reach and grasp like humans do,” says Schwartz. In 2012, Massachusetts General Hospital neurologist Leigh Hochberg and others reported that a 58-year-old woman and a 66year-old man, both paralyzed from the neck down for years, learned to use implanted brain electrodes to control a robotic arm to reach and grasp small objects, and, in one case, even drink coffee from a bottle using a straw, suggesting that the technology might someday help paralyzed people carry out everyday activities (4). The same year, Schwartz and colleagues demonstrated that a 52-year-old tetraplegic woman could use a prosthetic limb to routinely execute sevendimensional movements, including reaching and grasping, following implantation of microelectrodes into her brain’s motor cortex and 13 weeks of training (5). Researchers working on brain achine buy Wuningmeisu C interfaces are no doubt making strides, but their reach has thus far exceeded their grasp. Among the many challenges tied to developing commercially viable devices for use in patients are the bulky size of the equipment, the limited durability of the implanted electrodes, and the difficulty of developing prosthetics that can relay sensory feedback to the brain (6). Yet “the idea that we can extract a meaningful signal from the brain is in a way a breakthrough,” says Schwartz, referring to the association between brain activity and real world actions that brain achine interfaces have (��)-Zanubrutinib chemical information allowed researchers to unravel.1 Evarts EV (1964) Temporal patterns of discharge of pyramidal tract neurons during sleep and waking in the monkey. J Neurophysiol 27:152?71. 2 Hochberg LR, et al. (2006) Neuronal ensemble control of prosthetic devices by a human with tetraplegia. Nature 442(7099): 164?71. 3 Velliste M, Perel S, Spalding MC, Whitford AS, Schwartz AB (2008) Cortical control of a prosthetic arm for self-feeding. Nature 453(7198):1098?101. 4 Hochberg LR, et al. (2012) Reach and grasp by people with tetraplegia using a neurally controlled robotic arm. Nature 485(7398):372?75. 5 Collinger JL, et al. (2013) High-performance neuroprosthetic control by an individual with tetraplegia. Lancet 381(9866): 557?64. 6 Carey B (2012) Paralyzed, moving a robot with their minds. NYWoman with tetraplegia uses a robotic arm to drink coffee from a bottle. Image reprinted by permission from Macmillan Publishers Ltd: Nature (4), copyright 2012.www.pnas.org/cgi/doi/10.1073/pnas.Times. Available at http://www.nytimes.com/2012/05/17/science/ bodies-inert-they-moved-a-robot-with-their-minds.html. Accessed July 25, 2013.PNAS | November 12, 2013 | vol. 110 | no. 46 |CORE CONCEPTS
Genetic and educational assortative mating among US adultsBenjamin W. Dominguea,1, Jason Fletcherb,c,d, Dalton Conleye, and Jason D. Boardmana,fInstitute of Behavioral Science and fDepartment of Sociology, University of Colorado Boulder, Boulder, CO 80309; bLa Follette School of Public Affairs, Center for Demography and Ecology, and dDepartment of Sociology, University of Wisconsin adison, Madison, WI 53706; and eCenter for Genomics and Systems Biology, New York University, New York, NYc aEdited by Robert D. Mare, University of California, Los Angeles, CA, and approved April 16, 2014 (received for review November 15, 2013)Understanding the social and biological mechanisms that lead to homog.’ brain appeared to have incorporated therobotic arm as their own, fine-tuning maneuvers to effect precise moves. “It was control in free space. The movements looked natural, and the monkey could reach and grasp like humans do,” says Schwartz. In 2012, Massachusetts General Hospital neurologist Leigh Hochberg and others reported that a 58-year-old woman and a 66year-old man, both paralyzed from the neck down for years, learned to use implanted brain electrodes to control a robotic arm to reach and grasp small objects, and, in one case, even drink coffee from a bottle using a straw, suggesting that the technology might someday help paralyzed people carry out everyday activities (4). The same year, Schwartz and colleagues demonstrated that a 52-year-old tetraplegic woman could use a prosthetic limb to routinely execute sevendimensional movements, including reaching and grasping, following implantation of microelectrodes into her brain’s motor cortex and 13 weeks of training (5). Researchers working on brain achine interfaces are no doubt making strides, but their reach has thus far exceeded their grasp. Among the many challenges tied to developing commercially viable devices for use in patients are the bulky size of the equipment, the limited durability of the implanted electrodes, and the difficulty of developing prosthetics that can relay sensory feedback to the brain (6). Yet “the idea that we can extract a meaningful signal from the brain is in a way a breakthrough,” says Schwartz, referring to the association between brain activity and real world actions that brain achine interfaces have allowed researchers to unravel.1 Evarts EV (1964) Temporal patterns of discharge of pyramidal tract neurons during sleep and waking in the monkey. J Neurophysiol 27:152?71. 2 Hochberg LR, et al. (2006) Neuronal ensemble control of prosthetic devices by a human with tetraplegia. Nature 442(7099): 164?71. 3 Velliste M, Perel S, Spalding MC, Whitford AS, Schwartz AB (2008) Cortical control of a prosthetic arm for self-feeding. Nature 453(7198):1098?101. 4 Hochberg LR, et al. (2012) Reach and grasp by people with tetraplegia using a neurally controlled robotic arm. Nature 485(7398):372?75. 5 Collinger JL, et al. (2013) High-performance neuroprosthetic control by an individual with tetraplegia. Lancet 381(9866): 557?64. 6 Carey B (2012) Paralyzed, moving a robot with their minds. NYWoman with tetraplegia uses a robotic arm to drink coffee from a bottle. Image reprinted by permission from Macmillan Publishers Ltd: Nature (4), copyright 2012.www.pnas.org/cgi/doi/10.1073/pnas.Times. Available at http://www.nytimes.com/2012/05/17/science/ bodies-inert-they-moved-a-robot-with-their-minds.html. Accessed July 25, 2013.PNAS | November 12, 2013 | vol. 110 | no. 46 |CORE CONCEPTS
Genetic and educational assortative mating among US adultsBenjamin W. Dominguea,1, Jason Fletcherb,c,d, Dalton Conleye, and Jason D. Boardmana,fInstitute of Behavioral Science and fDepartment of Sociology, University of Colorado Boulder, Boulder, CO 80309; bLa Follette School of Public Affairs, Center for Demography and Ecology, and dDepartment of Sociology, University of Wisconsin adison, Madison, WI 53706; and eCenter for Genomics and Systems Biology, New York University, New York, NYc aEdited by Robert D. Mare, University of California, Los Angeles, CA, and approved April 16, 2014 (received for review November 15, 2013)Understanding the social and biological mechanisms that lead to homog.