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1

http://www.brightkidsnyc.com/2013/01/olsat-bootcamp-waitlist-now-available/. 13 2013 .

2

Anna M. Phillips, After Number of Gifted Soars, a Fight for Kindergarten Slots, New York Times, April 13, 2012, . Elissa Gootman, More Children Take the Tests for Gifted Programs, and More Qualify, New York Times, May 5, 2009.

3

Al. Baker, More in New York City Qualify as Gifted After Error Is Fixed, New York Times, April 19, 2013.

4

http://www.brightkidsnyc.com/2013/04/bright-kids-nyc-delivers-record-results-on-the-gifted-and-talented-exam/. 13 2013 .

5

. - War Against the Weak: Eugenics and Americas Campaign to Create a Master Race (Washington, D.C.: Dialog Press, 2003).

6

Ashley Parker and Julia Preston, Paper on Immigrant I. Q. Dogs Critic of Overhaul, New York Times, May 8, 2013.

7

http://en.wikipedia.org/wiki/Center_for_Talented_Youth.

8

Batty G. D., Gale C. R., et al., IQ in early adulthood, socioeconomic position, and unintentional injury mortality by middle age: A cohort study of more than 1 million Swedish men, Am. J. Epidemiol., 2009 Mar. 1; 169 (5): 606615.

9

Hart C. L., Taylor M. D., et al., Childhood IQ, social class, deprivation, and their relationships with mortality and morbidity risk in later life, Psychosomatic Medicine, 2003 Sep. Oct.; 65 (5): 877883.

10

Battya G. D., Dearyb I. J., The association between IQ in adolescence and a range of health outcomes at 40 in the 1979 US National Longitudinal Study of Youth, Intelligence, 2009 Nov. Dec.; 37 (6): 573580.

11

Kuh D., Butterworth S., et al., Childhood cognitive ability and age at menopause: Evidence from two cohort studies, Menopause, 2005 Jul. Aug.; 12 (4): 475482.

12

, http://www.ncd.gov/publications/2013/20130315/20130315_Ch2.

13

James Dao, Rules Eased for Veterans Brain Injury Benefits, New York Times, December 7, 2012.

14

, http://www.alz.org/alzheimers_disease_facts_and_figures.asp.

15

Yeo R. A., Arden R., et al., Alzheimers disease and intelligence, Current Alzheimer Research, 2011 Jun.; 8 (4): 345353.

16

Vinogradov S., Fisher M., et al., Cognitive training for impaired neural systems in neuropsychiatric illness, Neuropsychopharmacology, 2012 Jan.; 37 (1): 4376.

17

Jaeggi S., Buschkuehl M., Improving fluid intelligence with training on working memory, PNAS, 2008 May 13; 105 (19): 68296833.

18

Sternberg R., Increasing fluid intelligence is possible after all, PNAS, 2008 May 13; 105 (19): 67916792.

19

Redick T. S., Shipstead Z., et al., No evidence of intelligence improvement after working memory training: A randomized, placebo-controlled study, J. Exp. Psychol. Gen., 2013 May; 142 (2): 359379. Smith SP., Stibric M., et al., Exploring the effectiveness of commercial and custom-built games for cognitive training, Computers in Human Behavior, 2013 Nov.; 29 (6): 23882393; Thompson T. W., Waskom M. L., Failure of working memory training to enhance cognition or intelligence, PLoS One, 2013 May 22; 8 (5): e63614, Chooi W. T., Thompson L. A., Working memory training does not improve intelligence in healthy young adults, Intelligence, 2012 Nov. Dec.; 40 (6): 531542.

20

; 8 10. , ; , . . , , 75, , - . N-back 2008 , , , Posit Science . , , , . 22 75 , 53 , , , . , , . - . 53 , , ; 22, . // Alloway T. P., Alloway R. G., The efficacy of working memory training in improving crystallized intelligence, Nature Precedings, 2009 Sep. http://precedings.nature.com/documents/3697/version/1. // Anderson S., White-Schwoch T., et al., Reversal of age-related neural timing delays with training, PNAS, 2013 Mar. 12; 110 (11): 43574362. // Angevaren M., Aufdemkampe G., et al., Physical activity and enhanced fitness to improve cognitive function in older people without known cognitive impairment, Cochrane Database Syst. Rev., 2008 (3): CD005381. // Ball K., Berch D. B., et al., Effects of cognitive training interventions with older adults: A randomized controlled trial, JAMA, 2002 Nov. 13; 288 (18): 22712281. // Bell M., Bryson G., et al., Cognitive remediation of working memory deficits: Durability of training effects in severely impaired and less severely impaired schizophrenia, Acta Psychiatr. Scand., 2003; 108: 101109. // Bennett S. J., Holmes J., et al., Computerized memory training leads to sustained improvement in visuospatial short-term memory skills in children with Down syndrome, Am. J. Intel. Dev. Disab., 2013; 118 (3): 179192. // Boron J. B., Willis S. L., et al., Cognitive training gains as a predictor of mental status, J. Gerontol., 2007 Jan.; 62B (1): P4551. // Brehmer Y., Westerberg H., et al., Working-memory training in younger and older adults: Training gains, transfer, and maintenance, Front. Hum. Neurosci., 2012 Mar.; 6: 63. // Buschkuehl M., Jaeggi S. M., et al., Impact of working memory training on memory performance in old-old adults, Psychol. Aging, 2008 Dec.; 23 (4): 745753. // Chein J. M., Morrison A. B., Expanding the minds workspace: Training and transfer effects with a complex working memory span task, Psychon. Bull. Rev., 2010 Apr.; 17 (2): 193199. // Dahlin K. I.E., Effects of working memory training on reading in children with special needs, Reading and Writing, 2011; 24: 479491. // Erickson K. I., Voss M. W., et al., Exercise training increases size of hippocampus and improves memory, PNAS, 2011 Feb. 15; 108 (7): 30173022. // Fisher M., Holland C., et al., Using neuroplasticity-based auditory training to improve verbal memory in schizophrenia, Am. J. Psychiatry, 2009 Jul.; 166 (7): 805811. // Gray S. A., Chaban P., et al., Effects of a computerized working memory training program on working memory, attention, and academics in adolescents with severe LD and comorbid ADHD: A randomized controlled trial, J. Child. Psychol. Psychiatry, 2012 Dec.; 53 (12): 12771284. // Green C. T., Long D. L., et al., Will working memory training generalize to improve off-task behavior in children with attention-deficit/ hyperactivity disorder?, Neurotherapeutics, 2012 Jul.; 9 (3): 639648. // Hardy K. K., Willard V. W., et al., Working memory training in survivors of pediatric cancer: A randomized pilot study, Psycho-Oncology, 2012 Dec. 2 ( , ). // Hawkins H. L., Kramer A. F., et al., Aging, exercise, and attention, Psychol. Aging, 1992 Dec.; 7 (4): 643653. // Heinzel S., Schulte S., et al., Working memory training improvements and gains in non-trained cognitive tasks in young and older adults, Neuropsychol. Dev. Cogn. B. Aging Neuropsychol. Cogn., 2013 May 2 ( , ). // Holmes J., Gathercole S. E., et al., Working memory deficits can be overcome: Impacts of training and medication on working memory in children with ADHD, Appl. Cognit. Psychol., 2010 Sep.; 24 (6): 827836. // Holmes J., Gathercole S. E., et al., Adaptive training leads to sustained nhancement of poor working memory in children, Dev. Sci., 2009 Jul.; 12 (4): F9F15. // Houben K., Wiers R. W., et al., Getting a grip on drinking behavior: Training working memory to reduce alcohol abuse, Psychol. Sci., 2011 Jul.; 22 (7): 968975. // Kesler S., Hadi Hosseini S. M., et al., Cognitive training for improving executive function in chemotherapy-treated breast cancer survivors, Clin. Breast. Cancer., 2013 Aug.; 13 (4): 299306. // Klingberg T., Fernell E., et al., Computerized training of working memory in children with ADHD a randomized, controlled trial, J. Am. Acad. Child. Adolesc. Psychiatry, 2005; 44 (2): 177186. // Klusmann V., Evers A., et al., Complex mental and physical activity in older women and cognitive performance: A 6-month randomized controlled trial, J. Gerontol. A. Biol. Sci. Med. Sci., 2010 Jun.; 65 (6): 680688. // Kramer A. F., Hahn S., et al., Ageing, fitness and neurocognitive function, Nature, 1999 Jul. 29; 400 (6743): 418419. // Kray J., Karbach J., Can task-switching training enhance executive control functioning in children with attention deficit/hyperactivity disorder?, Front. Hum. Neurosci., 2011; 5: 180. // Kundu B., Sutterer D. W., et al., Strengthened effective connectivity underlies transfer of working memory training to tests of short-term memory and attention, J. Neurosci., 15 May 2013; 33 (20): 87058715. // Li S. C., Schmiedek F., et al., Working memory plasticity in old age: Practice gain, transfer, and maintenance, Psychol. Aging, 2008 Dec.; 23 (4): 731742. // Lilienthal L., Tamez E., et al., Dual n-back training increases the capacity of the focus of attention, Psychon. Bull. Rev., 2013 Feb.; 20 (1): 135341. // Liu-Ambrose T., Nagamatsu L. S., et al., Resistance training and executive functions: A 12-month randomized controlled trial, Arch. Intern. Med., 2010; 170 (2): 170178. // Loosli S. V., Buschkuehl M., et al., Working memory training improves reading processes in typically developing children, Child. Neuropsychol., 2012; 18 (1): 6278. // McGurk S.R., Mueser K. T., et al., Cognitive training and supported employment for persons with severe mental illness: One-year results from a randomized controlled trial, Schiz. Bull., 2005; 31 (4): 898909. // Minear M., Shah P., Training and transfer effects in task switching, Mem. Cognit., 2008 Dec.; 36 (8): 14701483. // Nagamatsu L. S., Handy T. C., et al., Resistance training promotes cognitive and functional brain plasticity in seniors with probable mild cognitive impairment, Arch. Intern. Med., 2012 Apr. 23; 172 (8): 666668. // Nagamatsu L. S., Chan A., et al., Physical activity improves verbal and spatial memory in older adults with probable mild cognitive impairment: A 6-month randomized controlled trial, J. Aging Res., 2013; 2013: article ID 861893. // Olesen P. J., Westerberg H., Klingberg T., Increased prefrontal and parietal activity after training of working memory, Nat. Neurosci., 2004 Jan.; 7 (1): 7579. // Owens M., Koster E. H., et al., Improving attention control in dysphoria through cognitive training: Transfer effects on working memory capacity and filtering efficiency, Psychophysiology, 2013 Mar.; 50 (3): 297307. // Prins P. J., Dovis S., et al., Does computerized working memory training with game elements enhance motivation and training efficacy in children with ADHD?, Cyberpsychol. Behav. Soc. Netw., 2011 Mar.; 14 (3): 115122. // Reed J. A., Maslow A. L., et al., Examining the impact of 45 minutes of daily physical exercise on cognitive ability, fitness performance, and body composition of African American youth, J. Phys. Act. Health, 2013 Feb.; 10 (2): 185197. // Richmond L. L., Morrison A. B., et al., Working memory training and transfer in older adults, Psychol. Aging, 2011 Dec.; 26 (4): 813822. // Salminen T., Strobach T., et al., On the impacts of working memory training on executive functioning, Front. Hum. Neurosci., 2012; 6: 166. // Schweizer S., Hampshire A., et al., Extending brain-training to the affective domain: Increasing cognitive and affective executive control through emotional working memory training, PLoS One, 2011; 6 (9): e24372. // Schweizer S., Grahn J., et al., Training the emotional brain: Improving affective control through emotional working memory training, J. Neurosci, 2013 Mar. 20; 33 (12): 53015311. // Smith G. E., Housen P., et al., A cognitive training program based on principles of brain plasticity: Results from the Improvement in Memory with Plasticity-based Adaptive Cognitive Training (IMPACT) study, J. Am. Geriatr. Soc., 2009 Apr.; 57 (4): 594603. // Subramaniam K., Luks T. L., et al., Computerized cognitive training restores neural activity within the reality monitoring network in schizophrenia, Neuron., 2012 Feb. 23; 73: 842853. // Tang Y. Y., Ma Y., et al., Short-term meditation training improves attention and self-regulation, PNAS, 2007 Oct. 23; 104 (43): 1715217156. // Tang Y. Y., Lu Q., et al., Mechanisms of white matter changes inducted by meditation, PNAS, 2012 Jun. 26; 109 (26): 1057010574. // Thorell L. B., Lindqvist S., et al., Training and transfer effects of executive functions in preschool children, Dev. Sci., 2009 Jan.; 12 (1): 106113. // Van der Molen M. J., Van Luit J. E., et al., Effectiveness of a computerised working memory training in adolescents with mild to borderline intellectual disabilities, J. Intellect. Disabil. Res., 2010 May; 54 (5): 433447. // Vartaniana O., Jobidona M. E., Working memory training is associated with lower prefrontal cortex activation in a divergent thinking task, Neuroscience, 2013 Apr. 16; 236: 186194. // Von Bastian C. C., Langer N., et al., Effects of working memory training in young and old adults, Mem. Cognit., 2013 May; 41 (4): 611624. // Wolinsky F. D., Vander Weg M. W., et al., A randomized controlled trial of cognitive training using a visual speed of processing intervention in middle aged and older adults, PLoS One, 2013 May 1; 8 (5): e61624. // Zinke K., Zeintl M., Working memory training and transfer in older adults: Effects of age, baseline performance, and training gains, Dev. Psychol., 2013 May 20 ( , ).

21

22 . // Basak C., Boot W. R., et al., Can training in real-timestrategy video gameattenuate cognitive decline in older adults?, Psychol. Aging, 2008; 23 (4): 765777. // Bergman N. S., Soderqvist S., et al., Gains in fluid intelligence after trainingnon-verbalreasoning in 4-year-oldchildren: A controlled, randomized study, Dev. Sci., 2011 May; 14 (3): 591601. // Borella E., Carretti B., et al., Working memory training in older adults: Evidence of transfer and maintenance effects, Psychol. Aging, 2010;25 (4): 767778. // Carretti B., Borella E., et al., Gains in language comprehension relating toworking memory training in healthy older adults, Int. J. Geriatr. Psychiatry, 2013 May; 28 (5): 539546. // Herrnstein R. J., Nickerson R. S., et al., Teaching thinking skills, Am. Psychol., 1986 Nov.; 41 (11): 12791289. // Jaeggi S. M., Studer-Luethi B., et al., The relationship between n-back performance and matrix reasoning implications for training and transfer, Intelligence, 2010; 38: 625635. // Jaeggi S. M., Buschkuehl M., et al., Short and long-term benefits of cognitive training, PNAS, 2011 Jun. 21; 108 (25): 1008110086. // Jausovec N., Jausovec K., Working memory training: Improving intelligence changing brain activity, Brain Cogn., 2012; 79: 96106. // Karbach J., Kray J., How useful is executive control training? Agedifferences in near and far transfer of task-switchingtraining, Dev. Sci., 2009 Nov.; 12 (6): 978990. // Mackey A. P., Hill S. S., et al., Differential effects of reasoning and speed training in children, Dev. Sci., 2011 May; 14 (3): 582590. // Moreno S., Bialystok E., et al., Short-term music training enhances verbal intelligence and executive function, Psychol. Sci., 2011 Nov.; 22 (11): 14251433. // Neville H. J., Stevens C., et al., Family-based training program improves brain function, cognition, and behavior in lower socioeconomic status preschoolers, PNAS, 2013 Jul. 1 ( , ). // Roughan L., Hadwin J. A., The impact of working memory training in young people with social, emotional and behavioral difficulties, Learning and Individual Differences, 2011 Dec.; 21 (6): 759764. // Rudebeck S. R., Bor D., et al., A potential spatial working memory training task to improve both episodic memory and fluid intelligence, PloSOne, 2012; 7 (11): e50431. // Rueda M. R., Checa P., et al., Enhanced efficiency of the executive attention network after training in preschool children: Immediate and after two months effects, Dev. Cogn. Neurosci., 2012 Feb. 15; 2 Suppl. 1: S192S204. // Rueda M. R., Rothbart M. K., et al., Training, maturation, and genetic influences on the development of executive attention, PNAS, 2005 Oct. 11; 102 (41): 1493114936. // Schmiedek F., Loveden M., et al., Hundred days of cognitive training enhance broad cognitive abilities in adulthood: Findings from the COGITO study, Front. Aging Neurosci., 2010 Jul. 13; 2. // Soderqvist S., Nutley S. B., et al., Computerized training of non-verbal reasoning and working memory in children with intellectual disability, Front. Hum. Neurosci., 2012; 6: 271. // Stephenson C. L., Halpern D. F., Improved matrix reasoning is limited to training on tasks with a visuospatial component, Intelligence, 2013; 41: 341357. // Von Bastian C. C., Oberauer K., Distinct transfer effects of training different facets of working memory capacity, J. Mem. Lang., 2013 Jul.; 69 (1): 3658. // Wolf D., Fischer F. U., et al., Structural integrity of the corpus callosum predicts long-term transfer of fluid intelligence-related training gains in normal aging, Hum. Brain. Mapp., 2012 Sep. 11 ( , ). // Zhao X., Wang Y. X., et al., Effect of updating training on fluid intelligence in children, Chin. Sci. Bull., 2011 Jul.; 56 (21): 22022205.

22

Paris A. P., Saleta H. G., et al., Blind randomized controlled study of the efficacy of cognitive training in Parkinsons disease, Mov. Disord., 2011 Jun.; 26 (7): 12511258.

23

Schweizer S., Grahn J., et al., Training the emotional brain: Improving affective control through emotional working memory training, J. Neurosci., 2013 Mar. 20; 33 (12): 53015311.

24

Klingberg T., Kawashima R., et al., Activation of multi-modal cortical areas underlies short-term memory, Eur. J. Neurosci., 1996 Sep.; 8 (9): 19651971.

25

Ericsson K. A., Chase W. G., et al., Acquisition of a memory skill, Science, 1980 Jun. 6; 208: 11811182.

26

Miller G. A., The magical number seven, plus or minus two: Some limits on our capacity for processing information, Psychol. Rev., 1956 Mar.; 63 (2): 8197.

27

Chein J. M., Morrison A. B., Expanding the minds workspace: Training and transfer effects with a complex working memory span task, Psychon. Bull. Rev., 2010 Apr.; 17 (2): 193199.

28

., , Merzenich M. M., Nelson R. J., et al., Somatosensory cortical map changes following digit amputation in adult monkeys, J. Comp. Neuro., 1984 Apr. 20; 224 (4): 591605; and Merzenich M. M., Kaas J. H., et al., Topographic reorganization of somatosensory cortical areas 3b and 1 in adult monkeys following restricted deafferentation, Neuroscience, 1983 Jan., 8 (1): 3355.

29

Temple E., Deutsch G. K., et al., Neural deficits in children with dyslexia ameliorated by behavioral remediation: Evidence from functional MRI, PNAS, 2003 Mar. 4; 100 (5): 28602865.

30

Wolinsky F. D., Vander Weg M. W., et al., op.cit.

31

Klingberg T., Forssberg H., et al., Training of working memory in children with ADHD, J. Clin. Experi. Neuropsych., 2002; 24 (6): 781791.

32

Klingberg ., The Learning Brain: Memory and Brain Development in Children (New York: Oxford University Press, 2013).

33

Jaeggi S. M., Buschkuehl M., et al., Improving fluid intelligence with training on working memory, PNAS, 2008 May 13; 105 (19): 68296833.

34

Highfield R., Brain Training Games Do Work, Study Finds, Telegraph, April 28, 2008. Bakalar N., Memory Training Shown to Turn Up Brainpower, New York Times, April 29, 2008.

35

Sternberg R., Increasing fluid intelligence is possible after all, PNAS, 2008 May 13; 105 (19): 67916792.

36

Hurley D., A Drug for Down Syndrome, New York Times Magazine, July 29, 2011.

37

Google, 14 2013 539 .

38

Chein J. M., Morrison A. B., Expanding the minds workspace: Training and transfer effects with a complex working memory span task, Psychon. Bull. Rev., 2010 Apr.; 17 (2): 193199.

39

. Moreno S., Bialystok E., op. cit.; and Schellenberg E. G., Music lessons enhance IQ, Psychol. Sci., 2004 Aug.; 15 (8): 511514.

40

Ho K. C., Roessmann U., et al., Analysis of brain weight, Arch. Pathol. Lab. Med., 1980; 104 (12): 640645.

41

Cosgrove K. P., Mazure C. M., et al., Evolving knowledge of sex differences in brain structure, function, and chemistry, Biol. Psychiatry, 2007 Oct. 15; 62 (8): 847855.

42

Wai J., Cacchio M., et al., Sex differences in the right tail of cognitive abilities: A 30 year examination, Intelligence, 2010; 38: 412423.

43

Benbow C. P., Stanley J. C., Sex differences in mathematical reasoning ability: More facts, Science, 1983 Dec. 2; 222 (4627): 10291031.

44

Wai J., Cacchio M., op. cit.

45

Maulik P. K., Harbour C. K., Epidemiology of Intellectual Disability, 2013. In J. H. Stone, M. Blouin, editors, International Encyclopedia of Rehabilitation, http://cirrie.buffalo.edu/encyclopedia/en/article/144/.

46

Cole M. W., Yarkoni T., et al., Global connectivity of prefrontal cortex predicts cognitive control and intelligence, J. Neurosci., 2012 Jun. 27; 32 (26): 89888999.

47

. https://en.wikipedia.org/wiki/Brain_Age: _Train_Your_Brain_in_Minutes_a_Day!

48

., , Nouchi R., Taki Y., et al., Brain training game boosts executive functions, working memory and processing speed in the young adults: A randomized controlled trial, PLoS One, 2013; 8 (2): e55518. Brem M. H., Lehrl S., et al., Stop of loss of cognitive performance during rehabilitation after total hip arthroplasty-prospective controlled study, J. Rehabil. Res. Dev. 2010; 47 (9): 891898.

49

http://www.cogmed.com/history.

50

Green C. T., Long D. L., op. cit.

51

Krull K. R., Zhang N., et al., Long-term decline in intelligence among adult survivors of childhood acute lymphoblastic leukemia treated with cranial radiation, Blood, 2013 Jul. 25; 122 (4): 550553.

52

Hardy K. K., Willard V. W., op. cit.

53

http://en.wikipedia.org/wiki/Lumosity.

54

. http://www.lumosity.com/hcp/research/completed. 13 2013 .

55

. http://www.lumosity.com/hcp/research. 13 2013 .

56

Kesler S. R., Sheau K., et al., Changes in frontal-parietal activation and math skills performance following adaptive number sense training: Preliminary results from a pilot study, Neuropsychol. Rehabil., 2011 Aug.; 21 (4): 433454. Kelser S. R., Lacayo N. J., et al., A pilot study of an online cognitive rehabilitation program for executive function skills in children with cancer-related brain injury, Brain Inj., 2011; 25 (1): 101112.

57

Kesler S., Hadi Hosseini S. M., op. cit.

58

Sternberg D. A., Ballard K., et al., The largest human cognitive performance dataset reveals insights into the effects of lifestyle factors and aging, Front. Hum. Neurosci., 2013 June 20; 7: 292.

59

. http://en.wikipedia.org/wiki/Michael_Merzenich http://www.positscience.com/why-brainhq/world-class-science/dr-michael-merzenich.

60

Fisher M., Holland C., op. cit., and Subramaniam K., Luks T. L., op. cit.

61

Cognitive Training in Mental Disorders: Advancing the Science, http://www.nimh.nih.gov/research-priorities/scientific-meetings/2012/cognitive-training-in-mental-disorders-advancing-the-science/index.shtml.

62

Smith G. E., Housen P., op. cit.

63

Wolinsky F. D., Vander Weg M. W., op. cit.

64

Wolinsky F. D., Mahncke H., et al., Speed of processing training protects self-rated health in older adults: Enduring effects observed in the multi-site ACTIVE randomized controlled trial, Int. Psychogeriatr., 2010 May; 22 (3): 470478.

65

Unverzaqt F. W., Guey L. T., et al., ACTIVE cognitive training and rates of incident dementia, J. Int. Neuropsychol. Soc., 2012 Jul.; 18 (4): 669677.

66

Google, LearningRx complaints.

67

Hill O., Serpell Z., et al., Improving Minority Student Mathematics Performance through Cognitive Training, In L. A. Flowers, J. Moore, L. O. Flowers, editors, The Evolution of Learning: Science, Technology, Engineering, and Mathematics Education at Historically Black Colleges and Universities (Lanham, Md.: University Press of America, in press).

68

Green C. S., Bavelier D., Action video game modifies visual selective attention, Nature, 2003 May 29; 423 (6939): 534537.

69

Green C. S., Pouget A., Bavelier D., Improved probabilistic inference as a general learning mechanism with action video games, Curr. Biol., 2010 Sep. 14; 20 (17): 15731579.

70

Li R., Plat U., et al., Enhancing the contrast sensitivity function through action video game training, Nat. Neurosci., 2009 May; 12 (5): 549551.

71

Swedenll W. R., Ensrud K. E., et al., Indicators of healthy aging in older women (6569 years of age). A data-mining approach based on prediction of long-term survival, BMC Geriatr., 2010 Aug. 17; 10: 55.

72

http://www.ncbi.nlm.nih.gov/pubmed.

73

Krikorian R., Shidler M. D., et al., Blueberry supplementation improves memory in older adults, J. Agric. Food Chem., 2010 Apr. 14; 58 (7): 39964000.

74

Nachum-Biala Y., Troen A. M., B-vitamins for neuroprotection: Narrowing the evidence gap, Biofactors., 2012 Mar. Apr.; 38 (2): 145150.

75

Malouf R., Grimley Evans J., Folic acid with or without vitamin B12 for the prevention and treatment of healthy elderly and demented people, Cochrane Database Syst. Rev., 2008 Oct. 8; (4): CD004514.

76

Benton D., Donohoe R., The influence of creatine supplementation on the cognitive functioning of vegetarians and omnivores, Br. J. Nutr., 2011 Apr.; 105 (7): 11001105. Rawson E. S., Lieberman H. R., et al., Creatine supplementation does not improve cognitive function in young adults, Physiol. Behav., 2008 Sep. 3; 95 (12): 130134. Rae C., Digney A. L., et al., Oral creatine monohydrate supplementation improves brain performance: A double-blind, placebo-controlled, cross-over trial, Proc. Biol Sci., 2003 Oct. 22; 270 (1529): 21472150. McMorris T., Mielcarz G., et al., Creatine supplementation and cognitive performance in elderly individuals, Neuropsychol. Dev. Cogn. B. Aging Neuropsychol. Cogn., 2007 Sep.; 14 (5): 517528.

77

Sydenham E., Dangour A. D., et al., Omega 3 fatty acid for the prevention of cognitive decline and dementia, Cochrane Database Syst. Rev., 2012 June 13; 6: CD005379.

78

Helland I. B., Smith L., et al., Maternal supplementation with very-long-chain n-3 fatty acids during pregnancy and lactation augments childrens IQ at 4 years of age, Pediatrics, 2003 Jan.; 111 (1): e3944.

79

Helland I. B., Smith L., et al., Effect of supplementing pregnant and lactating mothers with n-3 very-long-chain fatty acids on childrens IQ and body mass index at 7 years of age, Pediatrics, 2008 Aug.; 122 (2): e472479.

80

Asserhoj M., Nehammer S., et al., Maternal fish oil supplementation during lactation may adversely affect long-term blood pressure, energy intake, and physical activity of 7-year-old boys, J. Nutri., 2009 Feb.; 139 (2): 293304.

81

Cheatham C. L., Nerhammer A. S., et al., Fish oil supplementation during lactation: Effects on cognition and behavior at 7 years of age, Lipids., 2011 Jul.; 46 (7): 637645.

82

Martinez-Lapiscina E.H., Clavero P., et al., Mediterranean diet improves cognition: The PREDIMED-NAVARRA randomized trial, J. Neurol. Neurosurg. Psychiatry, 2013 May 13 ( , ).

83

Holme A., MacArthur C., et al., The effects of breastfeeding on cognitive and neurological development of children at 9 years, Child. Care Health Dev. 2010 Jul.; 36 (4): 583590.

84

Belfort M. B., Rifas-Shiman S.L., et al., Infant feeding and childhood cognition at ages 3 and 7 years: Effects of breastfeeding duration and exclusivity, JAMA Pediatr., 2013 Jul. 29 ( , ).

85

Christakis D. A., Breastfeeding and Cognition: Can IQ tip the scale?, JAMA Pediatr., 2013 July 29 ( , ).

86

Klaassen E. B., de Groot R. H., et al., The effect of caffeine on working memory load-related brain activation in middle-aged males, Neuropharmacology, 2013 Jan.; 64: 160167.

87

Shukitt-Hale B., Miller M. G., et al., Coffee, but not caffeine, has positive effects on cognition and psychomotor behavior in aging, Age, 2013 Jan. 24 ( , ).

88

Cao C., Loewenstein D. A., et al., High blood caffeine levels in MCI linked to lack of progression to dementia, J. Alzheimers Dis., 2012; 30 (3): 559572.

89

Chertkow H., Whitehead V., et al., Multilingualism (but not always bilingualism) delays the onset of Alzheimer disease: Evidence from a bilingual community, Alzheimer Dis. Assoc. Disord., 2010 Apr. Jun.; 24 (2): 118125.

90

Kovacs A. M., Mehler J., Cognitive gains in 7-month-old bilingual infants, PNAS, 2009 Apr. 21; 106 (16): 65566560.

91

., , Engel de Abreau P. M., Cruz-Santos A., et al., Bilingualism enriches the poor: Enhanced cognitive control in low-income minority children, Psychol. Sci., 2012; 23 (11): 13641371.

92

Humphrey A. D., Valian V. V., Multilingualism and cognitive control: Simon and flanker task performance in monolingual and multilingual young adults, , 2012 .

93

Spirduso W. W., Reaction and movement time as a function of age and physical activity level, J. Gerontol., 1975; 30: 435440.

94

Hawkins H. L., Kramer A. F., et al., Aging, exercise, and attention, Psychol Aging, 1992; 7 (4): 643653.

95

Kramer A. F., Hahn S., et al., Ageing, fitness and neurocognitive function, Nature, 1999 Jul. 29; 400 (6743): 418419.

96

Chaddock L., Erickson K. I., et al., A neuroimaging investigation of the association between aerobic fitness, hippocampal volume, and memory performance in preadolescent children, Brain Res., 2010 Oct. 28; 1358: 172183.

97

Chaddock L., Erickson K. I., A functional MRI investigation of the association between childhood aerobic fitness and neurocognitive control, Biol. Psychol., 2012 Jan.; 89 (1): 260268.

98

Reed J. A., Maslow A. L., et al., op.cit.

99

Angevaren M., Aufdemkampe G., et al., Physical activity and enhanced fitness to improve cognitive function in older people without known cognitive impairment, Cochrane Database Syst. Rev., 2008 Jul. 16; (3): CD005381.

100

Liu-Ambrose T., Nagamatsu L. S., et al., Resistance training and executive functions: A 12-month randomized controlled trial, Arch. Intern. Med., 2010; 170 (2): 170178.

101

Nagamatsu L. S., Handy T. C., et al., Resistance training promotes cognitive and functional brain plasticity in seniors with probable mild cognitive impairment, Arch. Intern. Med., 2012 Apr. 23; 172 (8): 666668.

102

http://www.youtube.com/watch?v=vG6sJm2d4oc.

103

Marinow . ., Personal Trainer Bryant Johnsons Clients Include Two Supreme Court Justices, Washington Post, March 19, 2013.

104

Rauscher F. H., Shaw G. L., et al., Music and spatial task performance, Nature, 1993; 365: 611.

105

Sack ., Georgias Governor Seeks Musical Start for Babies, New York Times, January 15, 1998.

106

Hartocollis ., Clinton Visits to Promote School Renovation and Music, New York Times, June 17, 2000.

107

Steele K. M., Bella S. M., et al., Prelude or requiem for the Mozart effect?, Nature, 1999 Aug. 26; 400 (6747): 827828. Chabris C. F., Prelude or requiem for the Mozart effect?, Nature, 1999 Aug. 26; 400 (6747): 826827.

108

Holden S., Review/Film Festival: A Musical about AIDS Crammed with Ideas, New York Times, March 26, 1994.

109

Schellenberg E. G., Music lessons enhance IQ, Psychol. Sci., 2004 Aug.; 15 (8): 511514.

110

Moreno S., Bialystok E., et al., Short-term music training enhances verbal intelligence and executive function, Psychol. Sci., 2011 Nov.; 22 (11): 14251433.

111

Sharp V., The Real Lessons for Children in Studying Music, Telegraph, February 27, 2013.

112

. www.amishi.com/lab/.

113

Amishi Jha, Being in the Now, Scientific American Mind, March 2013.

114

Rueda M. R., Rothbart M. K., et al., Training, maturation, and genetic influences on the development of executive attention, PNAS, 2005 Oct. 11; 102 (41): 1493114936.

115

Tang Y. Y., Ma Y., et al., Short-term meditation training improves attention and self-regulation, PNAS, 2007 Oct. 23; 104 (43): 1715217156.

116

Tang Y. Y., Lu Q., et al., Short-term meditation induces white matter changes in the anterior cingulate, PNAS, 2010 Aug. 31; 107 (35): 1564915652.

117

Tang Y. Y., Lu Q., et al., Mechanisms of white matter changes inducted by meditation, PNAS, 2012 Jun. 26; 109 (26): 1057010574.

118

, , Neuropharmacology 2013 , 64.

119

Ilieva I., Boland J., et al., Objective and subjective cognitive enhancing effects of mixed amphetamine salts in healthy people, Neuropharmacology, 2013 Jan.; 64: 496505.

120

Moller U., Rowe J. B., et al., Effects of modafinil on non-verbal cognition, task enjoyment and creative thinking in healthy volunteers, Neuropharmacology, 2013 Jan.; 64: 490495.

121

Curlick D. M. 2nd, Shors T. J., Training your brain: Do mental and physical (MAP) training enhance cognition through the process of neurogenesis in the hippocampus?, Neuropharmacology, 2013 Jan.; 64: 506514.

122

Alpert H. R., Connolly G. N., et al., A prospective cohort study challenging the effectiveness of population-based medical intervention for smoking cessation, Tob. Control, 2013 Jan.; 22 (1): 3237.

123

Kahn H. A., The Dorn Study of Smoking and Mortality among US Veterans. Report on Eight and One-Half Years of Observations, In Epidemiological Approaches to the Study of Cancer and Other Chronic Diseases, Monograph No. 19. National Cancer Institute (Washington, D.C.: US Government Printing Office, 1966), 1125.

124

Quik M., Cox H., et al., Nicotine reduces levodopa-induced dyskinesias in lesioned monkeys, Ann. Neurol., 2007 Dec.; 62 (6): 588596.

125

Newhouse P., Kellar K., et al., Nicotine treatment of mild cognitive impairment: A 6-month double-blind pilot clinical trial, Neurology, 2012 Jan.; 78 (2): 91101.

126

Blakeslee S., Nicotine: Harder to Kick Than Heroin, New York Times Magazine, March 29, 1987.

127

Villegier A. S., Lotfipour S., et al., Tranylcypromine enhancement of nicotine self-administration, Neuropharmacology, 2007 May; 52 (6): 14151425.

128

., , Potter A. S., Newhouse P. A., Acute nicotine improves cognitive deficits in young adults with attention deficit/hyperactivity disorder, Pharmacol. Biochem. Behav., 2008 Feb.; 88 (4): 407417.

129

., , Rusted J., Ruest T., et al., Acute effects of nicotine administration during prospective memory, an event related fMRI study, Neuropsychologia, 2011 Jul.; 49 (9): 23622368.

130

., , Turkeltaub P. E., Benjon J., et al., Left lateralizing transcranial direct current stimulation improves reading efficiency, Brain Stimul., 2012 Jul.; 5 (3): 201207. Cohen Kadosh R., Soskic S., et al., Modulating neuronal activity produces specific and long-lasting changes in numerical competence, Curr. Biol., 2010 Nov. 23; 20 (22): 20162020. Fregni F., Boggio P. S., et al., Anodal transcranial direct current stimulation of prefrontal cortex enhances working memory, Exp. Brain. Res., 2005 Sep.; 166 (1): 2330.

131

., , Medina J., Norise C., et al., Finding the right words: Transcranial magnetic stimulation improves discourse productivity in non-fluent aphasia after stroke, Aphasiology, 2012 Sep. 1; 26 (9): 11531168.

132

Fox D., Brain buzz, Nature, 2011 Apr. 13; 472: 156159.

133

., ,http://www.youtube.com/watch?v=6cD5pi9mxD8.

134

Ross L. A., McCoy D., et al., Improved proper name recall by electrical stimulation of the anterior temporal lobes, Neuropsychologia, 2010 Oct.; 48 (12): 36713674.

135

Todd . ., Hills . ., Robbins . W., editors, Cognitive Search: Evolution, Algorithms, and the Brain (Cambridge, Mass.: MIT Press, 2012).

136

Hills T. T., Dukas R., The Evolution of Cognitive Search, In P. M. Todd, T. T. Hills, T. W. Robbins, editors, Cognitive Search: Evolution, Algorithms and the Brain (Cambridge, Mass.: MIT Press, 2012), 13.

137

Hills T. T., Jones M. N., et al., Optimal foraging in semantic memory, Psychol. Rev., 2012 Apr.; 119 (2): 431440. Hills T. T., Todd P. M., Search in external and internal spaces: Evidence for generalized cognitive search processes, Psychol. Sci., 2008 Aug.; 19 (8): 802808.

138

Hills T. T., Animal foraging and the evolution of goal-directed cognition, Cogn. Sci., 2006 Jan. 2; 30 (1): 341.

139

Hills T. T., Mata R., et al., Mechanisms of age-related decline in memory search across the adult life span, Dev. Psychol., 2013 Apr. 15 ( , ).

140

Unsworth N., Brewer G. A., et al., Working memory capacity and retrieval from long-term memory: The role of controlled search, Mem. Cognit., 2013 Feb.; 41 (2): 242254.

141

Unsworth N., Spillers G. J., et al., The role of working memory capacity in autobiographical retrieval: Individual differences in strategic search, Memory, 2012; 20 (2): 167176.

142

., , Dehal P., Boore J. L., Two rounds of whole genome duplication in the ancestral vertebrate, PLoS Biol., 2005 Oct.; 2 (10): e314.

143

Ryan T. J., Kopanitsa M. V., et al., Evolution of GluN2A/B cytoplasmic domains diversified vertebrate synaptic plasticity and behavior, Nat. Neurosci., 2013 Jan.; 16 (1): 2532. Nithianantharajah J., Komiyama N. H., et al., Synaptic scaffold evolution generated components of vertebrate cognitive complexity, Nat. Neurosci., 2013 Jan.; 16 (1): 1624.

144

Stein J. L., Medland S. E., et al., Identification of common variants associated with human hippocampal and intracranial volumes, Nat. Genet., 2012 Apr. 15; 44 (5): 552561.

145

Brewer G. A., Grunfeld I. S., et al., Working memory in rats and humans, , 2011 .

146

Roberts W. A., Dale R. H.I., Remembrance of places lasts: Proactive inhibition and patterns of choice in rat spatial memory, Learning and Motivaton, 1981 Aug.; 12 (3): 261281.

147

Kolata S., Light K., Matzel L. D., Domain-specific and domain-general learning factors are expressed in genetically heterogeneous CD-1 mice, Intelligence, 2008; 36: 619629.

148

Kolata S., Light K., et al., Variations in working memory capacity predict individual differences in general learning abilities among genetically diverse mice, Neurobiol. Learn. Mem., 2005 Nov.; 84 (3): 241246.

149

Light K. R., Kolata S., et al., Working memory training promotes general cognitive abilities in genetically heterogenous mice, Curr. Biol., 2010 Apr. 27; 20 (8): 777782.

150

Matzel L. D., Light K. R., Longitudinal attentional engagement rescues mice from age-related cognitive declines and cognitive inflexibility, Learn. Mem., 2011 Apr. 26; 18 (5): 345356.

151

Baddeley A. D., Hitch G., Working Memory, In G. H. Bower, editor, The Psychology of Learning and Motivation: Advances in Research and Theory, vol. 8 (New York: Academic Press, 1974), 4789.

152

Engle R. W., Tuholski S. W., et al., Working memory, short-term memory, and general fluid intelligence: A latent-variable approach, J. Exp. Psychol. Gen., 1999 Sep.; 128 (3): 309331.

153

Engle R. W., Working memory capacity as executive attention, Curr. Dir. Psychol. Sci., 2002; 11: 1923.

154

Owen A. M., Hampshire A., et al., Putting brain training to the test, Nature, 2010 June 10; 465: 775778.

155

Redick T. S., Shipstead Z., et al., No evidence of intelligence improvement after working memory training: A randomized, placebo-controlled study, J. Exp. Psychol. Gen., 2013 May; 142 (2): 359379.

156

Chooi W. T., Thompson L. A., Working memory training does not improve intelligence in healthy young adults, Intelligence, 2012 Nov. Dec.; 40 (6): 531542.

157

Thompson T. W., Waskom M. L., Failure of working memory training to enhance cognition or intelligence, PLOS ONE, 2013 May 22; 8 (5): e63614.

158

Smith S. P., Stibric M., et al., Exploring the effectiveness of commercial and custom-built games for cognitive training, Computers in Human Behavior, 2013 Nov.; 29 (6): 23882393.

159

Shipstead Z., Hicks K. L., Engle R. W., Cogmed working memory training: Does the evidence support the claims?, J. Appl. Res. Mem. Cogn., 2012; 1: 185193.

160

Holmes J., Gathercole S. E., Working memory deficits can be overcome, 2010, op. cit. Holmes J., Gathercole S. E., Adaptive training leads to sustained enhancement of poor working memory in children, 2009, op. cit. Dahlin K. I.E., Effects of working memory training on reading in children with special needs, 2011, op. cit.

161

Kronenberger W. G., Pisoni D. B., et al., Working memory training for children with cochlear implants: A pilot study, J. Speech. Lang. Hear. Res., 2011 Aug.; 54 (4): 11821196. Lohaugen G. C., Antonsen I., et al., Computerized working memory training improves function in adolescents born at extremely low birth weight, J. Pediatrics, 2011; 158: 555561. McNab F., Varrone A., et al., Changes in cortical dopamine D1 receptor binding associated with cognitive training, Science, 2009; 323: 800802. Olesen P. J., Westerberg H., et al., Increased prefrontal and parietal activity after training of working memory, Nat. Neurosci., 2004 Jan; 7 (1): 7579.

162

Gathercole S. E., Dunning D. L., Holmes J., Cogmed training: Lets be realistic about intervention research, J. Appl. Res. Mem. Cogn., 2012; 1: 201203.

163

Gibson B. S., Kronenberger W. G., et al., Component analysis of simple span vs. complex span adaptive working memory exercises: A randomized, controlled trial, J. Appl. Res. Mem. Cogn., 2012; 1: 179184.

164

Gibson B. S., Gondoli D. M., et al., The future promise of Cogmed working memory training, J. Appl. Res. Mem. Cogn., 2012; 1: 214216.

165

Jaeggi S. M., Buschkuehl M., et al., Cogmed and working memory training current challenges and the search for underlying mechanisms, J. Appl. Res. Mem. Cogn. 2012; 1: 211213.

166

Klingberg T., Is working memory capacity fixed?, J. Appl. Res. Mem. Cogn., 2012; 1: 194196.

167

Hulme C., Melby-Lervg M., Current evidence does not support the claims made for CogMed working memory training, J. Appl. Res. Mem. Cogn., 2012; 1: 197200.

168

Bennett S. J., Holmes J., op. cit.

169

Hambrick D. Z., Oswald F. L., et al., Deliberate practice: Is that all it takes to become an expert?, Intelligence, 15 2013 .

170

Meinz E. J., Hambrick D. Z., et al., Roles of domain knowledge and working memory capacity in components of skill in Texas HoldEm poker, J. Appl. Res. Mem. Cogn., 2012; 1: 3440.

171

Reeves R. H., Irving N. G., et al., A mouse model for Down syndrome exhibits learning and behavior deficits, Nat. Genet., 1995 Oct.; 11 (2): 177184.

172

Clark S., Schwalbe J., et al., Fluoxetine rescues deficient neurogenesis in hippocampus of the Ts65Dn mouse model for Down syndrome, Exp. Neurol., 2006 Jul.; 200 (1): 156161.

173

Costa A. C., Scott-McKean J.J., et al., Acute injections of the NMDA receptor antagonist memantine rescue performance deficits of the Ts65Dn mouse model of Down syndrome on a fear conditioning test, Neuropsychopharmacology, 2008 Jun.; 33 (7): 16241632.

174

Down J. L.H., Observations on an ethnic classification of idiots, London Hospital Reports, 1866; 3: 259262.

175

Lejeune J., Turpin R., et al., Mongolism: A chromosomal disease (trisomy), Bull. Acad. Natl. Med., 1959 Apr. 714; 143 (1112): 256265.

176

Salehi A., Faizi M., et al., Restoration of norepinephrine-modulated contextual memory in a mouse model of Down syndrome, Sci. Transl. Med., 2009 Nov. 18; 1 (7): 7ra17.

177

Netzer W. J., Powell C., et al., Lowering beta-amyloid levels rescues learning and memory in a Down syndrome mouse model, PLoS One, 2010 Jun 3; 5 (6): e10943.

178

Hurley D., Drug study is latest to show improved cognition in mouse model for Down syndrome, Neurol. Today, 2010 Jan. 7; 10 (1): 1, 1112.

179

«Sen. Kennedy Urges Immigration Law Check», Lodi News-Sentinel, June 8, 1971, p. 9.

180

Kaplan ., Is a Wonder Pill Necessarily Wonderful for People with Down Syndrome?, Los Angeles Times, November 18, 2009, http://latimesblogs.latimes.com/booster_shots/2009/11/down-syndrome-treatment.html.

181

Berube ., Life As We Know It: A Father, a Family, and an Exceptional Child (New York: Pantheon, 1996).

182

Boada R., Hutaff-Lee C., et al., Antagonism of NMDA receptors as a potential treatment for Down syndrome: A pilot randomized controlled trial, Transl. Psychiatry, 2012 Jul. 17; 2: e141.

183

Hulme C., Melby-Lervg M., Is working memory training effective? A meta-analytic review, Dev. Psychol., 2013 Feb.; 49 (2): 270291. 2012 May 21.

184

Cook G., Brain Games Are Bogus, New Yorker, April 5, 2013, http://www.newyorker.com/online/blogs/elements/2013/04/brain-games-are-bogus.html.

185

Hindin S. B., Zelinski E. M., Extended practice and aerobic exercise interventions benefit untrained cognitive outcomes in older adults: A meta-analysis, J. Am. Geriatr. Soc., 2012 Jan.; 60 (1) 136141.

186

Kueider A. M., Parisi J. M., et al., «Computerized cognitive training with older adults: A systematic review», PLoS One. 2012; 7 (7): e40588. Reijnders J., van Heugten C., et al., «Cognitive interventions in healthy older adults and people with mild cognitive impairment: A systematic review», Ageing Res. Rev. 2013 Jan.; 12 (1): 263–275.

187

Phillips A. M., Eddington C. M., et al., Far transfer from adaptive cognitive training to L2 vocabulary learning, Poster 5118 presented at the fifty-third annual meeting of the Psychonomic Society, Minneapolis, Minnesota, 2012 Nov. 17.

188

Jensen A. R., How much can we boost IQ and scholastic achievement?, Harvard Educational Review, 1969 Winter; 39 (1): 1123.

189

Kristof N., Its a Smart, Smart, Smart World, New York Times, December 12, 2012, p. A35.

190

., , Flynn J. R., What Is Intelligence? (New York: Cambridge University Press, 2007) and Are We Getting Smarter? Rising IQ in the Twenty-First Century (New York: Cambridge University Press, 2012).

191

., , Nickerson R. S., Project Intelligence: An account and some reflections, Special Services in the Schools, 1986 Fall Winter; 3 (1): 83102; and Herrnstein E. J., Nickerson R. S., et al., op. cit.

192

, 2012 ., . 12.http://s3.amazonaws.com/texasgop_pre/assets/original/2012Platform_Final.pdf.

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