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Fig 5.1 (probably better)

Fig 5.1 (probably better). Proc. Natl. Acad. Sci. USA Vol. 93, pp. 14878–14883, December 1996 Neurobiology Detection of cortical activation during averaged single trials of a cognitive task using functional magnetic resonance imaging (neuroimaging y single trial y language y prefrontal)

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Fig 5.1 (probably better)

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  1. Fig 5.1 (probably better) Proc. Natl. Acad. Sci. USA Vol. 93, pp. 14878–14883, December 1996 Neurobiology Detection of cortical activation during averaged single trials of a cognitive task using functional magnetic resonance imaging (neuroimagingysingle trialylanguageyprefrontal) RANDY L. BUCKNER†‡§¶, PETER A. BANDETTINI†‡, KATHLEEN M. O’CRAVEN†i, ROBERT L. SAVOY†i, STEVEN E. PETERSEN**††, MARCUS E. RAICHLE§**††, AND BRUCE R. ROSEN†‡ Fig 4 p14882

  2. Fig 5.2 (alternative) The problem of functional localization in the human brain Matthew Brett, Ingrid S. Johnsrude and Adrian M. Owen Nature Reviews Neuroscience,3, 243-249 Fig 1 p244

  3. Fig 5.3 Nature Neuroscience (2008) 10, 1193-1200 fig 3 p 1195

  4. 5.4 Crescentini

  5. Fig 5.5 ?? • Top only – from wikapaedia • Unclear which

  6. Fig 5.5 (easier access) p702

  7. Fig 5.6 Fig 3 and fig 4 p 420

  8. Fig 5.7 Remove SPM design matrix In Friston, K. (2007) Statistical parametric mapping In Friston, K, Ashburner, J., Kiebel, S., Nicholls, T & Penny, W. (Eds.) Statistical Parametric Mapping. London: Academic Press. (pp10-31) Fig 2.6 (p23)

  9. Fig 5.8 Journal of Cognitive Neuroscience, 1999, 11, 9-24 Graded Functional Activation in the Visuospatial System with the Amount of Task Demand P. A. Carpenter, M. A. Just, T. A. Keller, and W. Eddy Carnegie Mellon University K. Thulborn University of Pittsburgh Medical Center Fig 6 p15

  10. Fig 5.9 Journal of Cognitive Neuroscience, 1999, 11, 9-24 Graded Functional Activation in the Visuospatial System with the Amount of Task Demand P. A. Carpenter, M. A. Just, T. A. Keller, and W. Eddy Carnegie Mellon University K. Thulborn University of Pittsburgh Medical Center Fig 7 p17

  11. Resources

  12. fig 5.11 • Do you get the effect – you need to fixate the centre– it is clear in a high resolution image; maybe the bottom fig should be removed S ZEKI, JDG WATSON, RSJ FRACKOWIAK Proceedings- Royal Society of London.Biological sciences 252:13351335, 215-222, Royal Society of London, 1993. Fig 1 (p216)

  13. 5.12 • Decomposition of Petersen

  14. Fig 5.13 b a May be best to redraw Fig 1 (p196) and Fig 2 (p199)

  15. Fig 5.14 – need to check chapter 10 Fig 3 p201

  16. Fig 5.15 In the text a = c; b = d Fig 5 p209

  17. 5.16 – Anderson Rick

  18. Fig 5.17 p335

  19. 5.18 forms of interaction

  20. Fig 5.19 Henson, R. (2007) Efficient experimental design for fMRI. In Friston, K, Ashburner, J., Kiebel, S., Nicholls, T & Penny, W. (Eds.) Statistical Parametric Mapping. London: Academic Press. (pp 193-210) Plate 15 (p312)

  21. Fig 5.20 Fig a only – needs a considerably extended legend Henson, R. (2007) Efficient experimental design for fMRI. In Friston, K, Ashburner, J., Kiebel, S., Nicholls, T & Penny, W. (Eds.) Statistical Parametric Mapping. London: Academic Press. (pp 193-210) Plate 17 (p312)

  22. Fig 5.21 p4

  23. Fig 5.22 Fig 4 p10

  24. 5.23 to do • Resource and Badre-Wagner

  25. Fig 5.24 Fig 1 p548

  26. Fig 5.25 Fig 3 p551

  27. Fig 5.26 p1616 and p1620

  28. Fig 5.27 p325

  29. Fig 5.28 Biological Psychiatry Volume 58, Issue 8, 605-613 Fig 1 p607 and 2 p609 a b Model-testing figure omitted Detecting Deception Using Functional Magnetic Resonance Imaging F. Andrew Kozel, Kevin A. Johnson, Qiwen Mu, Emily L. Grenesko, Steven J. Laken, and Mark S. George

  30. Fig 5.29 p377

  31. Fig 5.30 p213

  32. Fig 5.31 - reading Phonological dyslexia and dysgraphia: Cognitive mechanisms and neural substrates Steven Z. Rapcsak a,b,c,*, Pe´lagie M. Beeson b,c, Maya L. Henry c, Anne Leyden c, Esther Kim c, Kindle Rising c, Sarah Andersen b,c and HyeSuk Choc Fig 1a p579

  33. Phonological dyslexia and dysgraphia: Cognitive mechanisms and neural substrates Steven Z. Rapcsaka,b,c,*, Pe´lagie M. Beesonb,c, Maya L. Henryc, Anne Leydenc, Esther Kimc, Kindle Risingc, Sarah Andersenb,c and HyeSuk Choc Fig 5.32 p577

  34. Fig 5.33 p81

  35. Fig 5.34 293-299 p296

  36. Fig 5.35 p144

  37. Fig 5.36 Same paper as 5.36 p 146

  38. Fig 5.37 p1607

  39. 5.38 Binder & Mohr • To show fig 3B (cuts 1- 5) of Binder & Mohr 1992 and controls 1 and 2 (LVF only) of fig 4 of Cohen et al 2000 • ((permissions to be sought later – both Brain))

  40. Fig 5.39 Both p394

  41. Fig 5.16old -deleted Henson, R. (2007) Efficient experimental design for fMRI. In Friston, K, Ashburner, J., Kiebel, S., Nicholls, T & Penny, W. (Eds.) Statistical Parametric Mapping. London: Academic Press. (pp 193-210) Plate 16 (p312)

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