Prostaglandins, Leukotrienes and Essential Fatty Acids
Volume 81, Issue 1 , Pages 79-88 , July 2009

Project DyAdd: Fatty acids and cognition in adults with dyslexia, ADHD, or both

  • Marja Laasonen

      Affiliations

    • Department of Psychology, University of Helsinki, P.O. Box 9 (Siltavuorenpenger 20), FIN-00014, Helsinki, Finland
    • Department of Phoniatrics, Helsinki University Central Hospital, Helsinki, Finland
    • Corresponding Author InformationCorresponding author at: Department of Psychology, University of Helsinki, P.O. Box 9 (Siltavuorenpenger 20), FIN-00014, Helsinki, Finland. Tel.: +358919129532; fax: +358919129443.
    • ,
  • Laura Hokkanen

      Affiliations

    • Department of Psychology, University of Helsinki, P.O. Box 9 (Siltavuorenpenger 20), FIN-00014, Helsinki, Finland
    • ,
  • Sami Leppämäki

      Affiliations

    • Department of Psychiatry, Clinic for Neuropsychiatry, Helsinki University Central Hospital, Helsinki, Finland
    • ,
  • Pekka Tani

      Affiliations

    • Department of Psychiatry, Clinic for Neuropsychiatry, Helsinki University Central Hospital, Helsinki, Finland
    • ,
  • Arja T. Erkkilä

      Affiliations

    • School of Public Health and Clinical Nutrition, University of Kuopio, Kuopio, Finland

Received 19 October 2008 ,Revised 6 January 2009 ,Accepted 21 April 2009.

References 

  1. McNamara RK, Carlson SE. Role of omega-3 fatty acids in brain development and function: potential implications for the pathogenesis and prevention of psychopathology. Prostaglandins Leukot. Essent. Fatty Acids. 2006;75:329–349
  2. Lauritzen L, Hansen HS, Jorgensen MH, Michaelsen KF. The essentiality of long chain n-3 fatty acids in relation to development and function of the brain and retina. Prog. Lipid Res. 2001;40:1–94
  3. Hallahan B, Garland MR. Essential fatty acids and mental health. Br. J. Psychiatry. 2005;186:275–277
  4. Marszalek JR, Lodish HF. Docosahexaenoic acid, fatty acid–interacting proteins, and neuronal function: breastmilk and fish are good for you. Annu. Rev. Cell Dev. Biol. 2005;21:633–657
  5. de Groot RHM, Hornstra G, Jolles J. Exploratory study into the relation between plasma phospholipid fatty acid status and cognitive performance. Prostaglandins Leukot. Essent. Fatty Acids. 2007;76:165–172
  6. Innis SM. Fatty acids and early human development. Early Hum. Dev. 2007;83:761–766
  7. Salem NJ, Litman B, Kim H-Y, Gawrisch K. Mechanisms of action of docosahexaenoic acid in the nervous system. Lipids. 2001;36:945–959
  8. Yehuda S, Rabinovitz S, Carasso RL, Mostofsky DI. Fatty acids and brain peptides. Peptides. 1998;19:407–419
  9. Chalon S, Vancassel S, Zimmer L, Guilloteau D, Durand G. Polyunsaturated fatty acids and cerebral function: focus on monoaminergic neurotransmission. Lipids. 2001;36:937–944
  10. Hamilton L, Greiner R, Salem NJ, Kim H-Y. n-3 fatty acid deficiency decreases phosphatidylserine accumulation selectively in neuronal tissues. Lipids. 2000;35:863–869
  11. Youdim KA, Martin A, Joseph JA. Essential fatty acids and the brain: possible health implications. Int. J. Dev. Neurosci. 2000;18:383–399
  12. M. Laasonen, L. Hokkanen, S. Leppämäki, P. Tani, A.T. Erkkilä, Project DyAdd: Fatty acids in adult dyslexia, ADHD, and their comorbid combination, Prostaglandins Leukotrienes Essent. Fatty Acids (2009), in press, doi:10.1016/j.plefa.2009.04.005.
  13. Cyhlarova E, Bell JG, Dick JR, MacKinlay EE, Stein JF, Richardson AJ. Membrane fatty acids, reading and spelling in dyslexic and non-dyslexic adults. Eur. Neuropsychopharmacol. 2007;17:116–121
  14. Horrobin DF. The membrane phospholipid hypothesis as a biochemical basis for the neurodevelopmental concept of schizophrenia. Schizophr. Res. 1998;30:193–208
  15. Horrobin DF, Bennett CN. New gene targets related to schizophrenia and other psychiatric disorders: enzymes, binding proteins and transport proteins involved in phospholipid and fatty acid metabolism. Prostaglandins Leukot. Essent. Fatty Acids. 1999;60:141–167
  16. Horrobin DF, Glen AI, Hudson CJ. Possible relevance of phospholipid abnormalities and genetic interactions in psychiatric disorders: the relationship between dyslexia and schizophrenia. Med. Hypotheses. 1995;45:605–613
  17. Sinn N. Physical fatty acid deficiency signs in children with ADHD symptoms. Prostaglandins Leukot. Essent. Fatty Acids. 2007;77:109–115
  18. Sattler JM. Assessment of Children. third ed. San Diego: Jerome M. Sattler Publisher, Inc.; 1992;
  19. Stevens LJ, Zentall SS, Deck JL, et al. Essential fatty acid metabolism in boys with attention-deficit hyperactivity disorder. Am. J. Clin. Nutr. 1995;62:761–768
  20. Mitchell EA, Aman MG, Turbott SH, Manku M. Clinical characteristics and serum essential fatty acid levels in hyperactive children. Clin. Pediatr. 1987;26:406–411
  21. Conners CK. Conners’ Rating Scales-Revised: Technical Manual. Toronto: Multi-Health Systems; 1997;
  22. Stevens LJ, Zentall SS, Abate ML, Kuczek T. Omega-3 fatty acids in boys with behavior, learning, and health problems. Physiol. Behav. 1996;59:915–920
  23. Colter AL, Cutler C, Meckling KA. Fatty acid status and behavioural symptoms of attention deficit hyperactivity disorder in adolescents: a case-control study. Nutr. J. 2008;7:8
  24. Young GS, Maharaj NJ, Conquer JA. Blood phospholipid fatty acid analysis of adults with and without attention deficit/hyperactivity disorder. Lipids. 2004;39:117–123
  25. Amen DG. Healing ADD: The Breakthrough Program That Allows You to See and Heal the 6 Types of ADD. New York: Berkley Publishing Group; 2002;
  26. Antalis CJ, Stevens LJ, Campbell M, et al. Omega-3 fatty acid status in attention-deficit/hyperactivity disorder. Prostaglandins Leukot. Essent. Fatty Acids. 2006;75:299–308
  27. Stein JF. The magnocellular theory of developmental dyslexia. Dyslexia. 2001;7:12–36
  28. Stein JF. Visual motion sensitivity and reading. Neuropsychologia. 2003;41:1785–1793
  29. Ahmad A, Moriguchi T, Salem N. Decrease in neuron size in docosahexaenoic acid-deficient brain. Pediatr. Neurol. 2002;26:210–218
  30. Stein JF. The neurobiology of reading difficulties. Prostaglandins Leukot. Essent. Fatty Acids. 2000;63:109–116
  31. Richardson AJ, Calvin CM, Clisby C, et al. Fatty acid deficiency signs predict the severity of reading and related difficulties in dyslexic children. Prostaglandins Leukot. Essent. Fatty Acids. 2000;63:69–74
  32. Elliot CD. British Ability Scales. Windsor: NFER-Nelson; 1983;
  33. Taylor KE, Higgins CJ, Calvin CM, et al. Dyslexia in adults is associated with clinical signs of fatty acid deficiency. Prostaglandins Leukot. Essent. Fatty Acids. 2000;63:75–78
  34. Vinegrad MA. Revised Adult Dyslexia Check List. Educare; 1994;
  35. Wilkinson G. Wide Range Achievement Test (Revision 3). Wilmington DE: Jastak Associates; 1993;
  36. M. Laasonen, S. Leppämäki, P. Tani, L. Hokkanen, Adult dyslexia and attention deficit disorder in Finland-project DyAdd: WAIS-III cognitive profiles, Journal of Learning Disabilities, in press.
  37. American Psychiatric Association . Diagnostic and Statistical Manual of Mental Disorders. fourth ed. Washington DC: APA Press; 1994;
  38. Epstein J, Johnson DE, Conners CK. Conners’ Adult ADHD Diagnostic Interview for DSM-IV (CAADID). Toronto: Multi-Health Systems; 2001;
  39. First MB, Spitzer RL, Gibbon M, Williams JBW. Structured Clinical Interview for DSM-IV Axis I Disorders, Clinician Version (SCID-CV). Washington DC: American Psychiatric Press, Inc.; 1996;
  40. First MB, Gibbon M, Spitzer RL, Williams JBW, Benjamin LS. Structured Clinical Interview for DSM-IV Axis II Personality Disorders, (SCID-II). Washington DC: American Psychiatric Press, Inc.; 1997;
  41. Laasonen M. Temporal Acuity in Developmental Dyslexia Across the Life Span: Tactile, Auditory, Visual, and Crossmodal Estimations. Helsinki: University of Helsinki; 2002;
  42. Wolf M. Rapid alternating stimulus naming in the developmental dyslexias. Brain Lang. 1986;27:360–379
  43. Wechsler D. Wechsler Adult Intelligence Scale: Manual. third ed. Helsinki: Psykologien Kustannus oy; 2005;
  44. World Health Organization . The International Statistical Classification of Diseases and Related Health Problems, 10th revision. second ed. Helsinki: World Health Organization/Stakes; 1998;
  45. M. Laasonen, M. Lehtinen, S. Leppämäki, P. Tani, L. Hokkanen, Project DyAdd: Phonological processing, reading, spelling, and arithmetic in adults with dyslexia or ADHD, Journal of Learning Disabilities (2009), in press, doi:10.1177/0022219409335216.
  46. Laasonen M, Erkkilä AT, Isotalo E, et al. Serum lipid fatty acids and temporal processing acuity in children with oral clefts. Prostaglandins Leukot. Essent. Fatty Acids. 2006;74:263–270
  47. Laasonen M, Erkkilä AT, Isotalo E, Pulkkinen JJ, Haapanen M-L, Virsu V. Serum lipid fatty acids, phonological processing, and reading in children with oral clefts. Prostaglandins Leukot. Essent. Fatty Acids. 2006;74:7–16
  48. Ågren JJ, Julkunen A, Penttilä I. Rapid separation of serum lipids for fatty acid analysis by a single aminopropyl column. J. Lipid Res. 1992;33:1871–1876
  49. Kemppainen T, Rosendahl A, Nuutinen O, Ebeling T, Pietinen P, Uusitupa M. Validation of a short dietary questionnaire and a qualitative fat index for the assessment of fat intake. Eur. J. Clin. Nutr. 1993;47:765–775
  50. Bradley L, Bryant PE. Difficulties in auditory organisation as a possible cause of reading backwardness. Nature. 1978;271:746–747
  51. Bradley L, Bryant PE. Categorizing sounds and learning to read: a causal connection. Nature. 1983;301:419–421
  52. Richman LC, Eliason M. Type of reading disability related to cleft type and neuropsychological patterns. Cleft Palate J. 1984;21:1–6
  53. Richman LC, Eliason MJ, Lindgren SD. Reading disability in children with clefts. Cleft Palate J. 1988;25:21–25
  54. Bennett CN, Horrobin DF. Gene targets related to phospholipid and fatty acid metabolism in schizophrenia and other psychiatric disorders: an update. Prostaglandins Leukot. Essent. Fatty Acids. 2000;63:47–59
  55. Richardson AJ. The importance of omega-3 fatty acids for behaviour, cognition and mood. Scand. J. Nutr. 2003;47:92–98
  56. Richardson AJ. Long-chain polyunsaturated fatty acids in childhood developmental and psychiatric disorders. Lipids. 2004;39:1215–1222
  57. Nevala J, Kairaluoma L, Ahonen T, Aro M, Holopainen L. Lukemis- ja Kirjoittamistaitojen Yksilötestistö Nuorille ja Aikuisille, Standardization version ed. Jyväskylä: Niilo Mäki Instituutti; 2006;
  58. Wechsler D. WMS-III Manual. Helsinki: Psykologien Kustannus oy; 2008;
  59. Service E, Maury S, Luotoniemi E. Individual differences in phonological learning and verbal STM span. Mem. Cognit. 2007;35:1122–1135
  60. Lezak MD, Howieson DB, Loring DW, Hannay HJ, Fischer JS. Neuropsychological Assessment. fourth ed. New York: Oxford University Press; 2004;
  61. Holopainen L, Kairaluoma L, Nevala J, Ahonen T, Aro M. Lukivaikeuksien Seulontamenetelmä Nuorille ja Aikuisille. Jyväskylä: Niilo Mäki Instituutti; 2004;
  62. Räsänen P. RMAT-Laskutaidon Testi 9-12-Vuotiaille. Jyväskylä: Niilo Mäki Instituutti; 2004;
  63. Cambridge Neuropsychological Test Automated Battery, CANTABeclipse Test Administration Guide, Cambridge, 2004.
  64. D’Elia LF, Satz P, Uchiyama CL, White T. Color Trails Test. Professional Manual. Odessa, FL: Psychological Assessment Resources; 1996;

 Sources of support: We thank Academy of Finland (project 108410), Emil Aaltonen Foundation, Otologic Research Foundation, Otto A. Malm Foundation, and Oskar Öflund Foundation for financial support.

PII: S0952-3278(09)00059-3

doi: 10.1016/j.plefa.2009.04.004

Prostaglandins, Leukotrienes and Essential Fatty Acids
Volume 81, Issue 1 , Pages 79-88 , July 2009

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