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European Archives of Psychiatry and Clinical Neuroscience

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17.12.2015 | Original Paper

Evidence for alterations of cortical folding in anorexia nervosa

verfasst von: C. Christoph Schultz, Gerd Wagner, Feliberto de la Cruz, Sandy Berger, Jürgen R. Reichenbach, Heinrich Sauer, Karl J. Bär

Erschienen in: European Archives of Psychiatry and Clinical Neuroscience | Ausgabe 1/2017

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Abstract

Anorexia nervosa (AN) is highly heritable, and the perspective on the etiology of AN has changed from a behavioral to a neurobiological and neurodevelopmental view. However, cortical folding as an important marker for deviations in brain development has yet rarely been explored in AN. Hence, in order to determine potential cortical folding alterations, we investigated fine-grained cortical folding in a cohort of 26 patients with AN, of whom 6 patients were recovered regarding their weight at the time point of MRI measurement. MRI-derived cortical folding was computed and compared between patients and healthy controls at about 150,000 points per hemisphere using a surface-based technique (FreeSurfer). Patients with AN exhibited highly significant increased cortical folding in a right dorsolateral prefrontal cortex region (DLPFC). Furthermore, a statistical trend in the same direction was found in the right visual cortex. We did not find a correlation of local cortical folding and current symptoms of the disease. In conclusion, our analyses provide first evidence that altered DLPFC cortical folding plays a role in the etiology of AN. The absence of correlations with clinical parameters implicates a relatively independence of cortical folding alterations from the current symptomatology and might thus be regarded as a trait characteristic of the disease potentially related to other neurobiological features of AN.

Franko DL, Keshaviah A, Eddy KT, Krishna M, Davis MC, Keel PK, Herzog DB (2013) A longitudinal investigation of mortality in anorexia nervosa and bulimia nervosa. Am J Psychiatry 170:917–925CrossRefPubMedPubMedCentral

Thornton LM, Mazzeo SE, Bulik CM (2011) The heritability of eating disorders: methods and current findings. Curr Top Behav Neurosci 6:141–156CrossRefPubMedPubMedCentral

Bulik CM, Thornton LM, Root TL, Pisetsky EM, Lichtenstein P, Pedersen NL (2010) Understanding the relation between anorexia nervosa and bulimia nervosa in a swedish national twin sample. Biol Psychiatry 67:71–77CrossRefPubMedPubMedCentral

Bulik CM, Sullivan PF, Tozzi F, Furberg H, Lichtenstein P, Pedersen NL (2006) Prevalence, heritability, and prospective risk factors for anorexia nervosa. Arch Gen Psychiatry 63:305–312CrossRefPubMed

Bienvenu OJ, Davydow DS, Kendler KS (2011) Psychiatric ‘diseases’ versus behavioral disorders and degree of genetic influence. Psychol Med 41:33–40CrossRefPubMed

Frank GK, Reynolds JR, Shott ME, Jappe L, Yang TT, Tregellas JR, O’Reilly RC (2012) Anorexia nervosa and obesity are associated with opposite brain reward response. Neuropsychopharmacology 37:2031–2046CrossRefPubMedPubMedCentral

Oberndorfer TA, Frank GK, Simmons AN, Wagner A, McCurdy D, Fudge JL, Yang TT, Paulus MP, Kaye WH (2013) Altered insula response to sweet taste processing after recovery from anorexia and bulimia nervosa. Am J Psychiatry 170:1143–1151CrossRefPubMedPubMedCentral

Keating C, Tilbrook AJ, Rossell SL, Enticott PG, Fitzgerald PB (2012) Reward processing in anorexia nervosa. Neuropsychologia 50:567–575CrossRefPubMed

van Kuyck K, Gerard N, Van Laere K, Casteels C, Pieters G, Gabriels L, Nuttin B (2009) Towards a neurocircuitry in anorexia nervosa: evidence from functional neuroimaging studies. J Psychiatr Res 43:1133–1145CrossRefPubMed

10.

Fonville L, Giampietro V, Surguladze S, Williams S, Tchanturia K (2013) Increased bold signal in the fusiform gyrus during implicit emotion processing in anorexia nervosa. Neuroimage Clin 4:266–273CrossRefPubMedPubMedCentral

11.

Oberndorfer TA, Kaye WH, Simmons AN, Strigo IA, Matthews SC (2011) Demand-specific alteration of medial prefrontal cortex response during an inhibition task in recovered anorexic women. Int J Eat Disord 44:1–8CrossRefPubMed

12.

Amianto F, Caroppo P, D’Agata F, Spalatro A, Lavagnino L, Caglio M, Righi D, Bergui M, Abbate-Daga G, Rigardetto R, Mortara P, Fassino S (2013) Brain volumetric abnormalities in patients with anorexia and bulimia nervosa: a voxel-based morphometry study. Psychiatry Res 213:210–216CrossRefPubMed

13.

Boghi A, Sterpone S, Sales S, D’Agata F, Bradac GB, Zullo G, Munno D (2011) In vivo evidence of global and focal brain alterations in anorexia nervosa. Psychiatry Res 192:154–159CrossRefPubMed

14.

Brooks SJ, Barker GJ, O’Daly OG, Brammer M, Williams SC, Benedict C, Schioth HB, Treasure J, Campbell IC (2011) Restraint of appetite and reduced regional brain volumes in anorexia nervosa: a voxel-based morphometric study. BMC Psychiatry 11:179CrossRefPubMedPubMedCentral

15.

Gaudio S, Nocchi F, Franchin T, Genovese E, Cannata V, Longo D, Fariello G (2011) Gray matter decrease distribution in the early stages of anorexia nervosa restrictive type in adolescents. Psychiatry Res 191:24–30CrossRefPubMed

16.

Titova OE, Hjorth OC, Schioth HB, Brooks SJ (2013) Anorexia nervosa is linked to reduced brain structure in reward and somatosensory regions: a meta-analysis of VBM studies. BMC Psychiatry 13:110CrossRefPubMedPubMedCentral

17.

Frank GK, Shott ME, Hagman JO, Mittal VA (2013) Alterations in brain structures related to taste reward circuitry in ill and recovered anorexia nervosa and in bulimia nervosa. Am J Psychiatry 170:1152–1160CrossRefPubMedPubMedCentral

18.

Castro-Fornieles J, Bargallo N, Lazaro L, Andres S, Falcon C, Plana MT, Junque C (2009) A cross-sectional and follow-up voxel-based morphometric MRI study in adolescent anorexia nervosa. J Psychiatr Res 43:331–340CrossRefPubMed

19.

Lazaro L, Andres S, Calvo A, Cullell C, Moreno E, Plana MT, Falcon C, Bargallo N, Castro-Fornieles J (2013) Normal gray and white matter volume after weight restoration in adolescents with anorexia nervosa. Int J Eat Disord 46:841–848CrossRefPubMed

20.

Wagner A, Greer P, Bailer UF, Frank GK, Henry SE, Putnam K, Meltzer CC, Ziolko SK, Hoge J, McConaha C, Kaye WH (2006) Normal brain tissue volumes after long-term recovery in anorexia and bulimia nervosa. Biol Psychiatry 59:291–293CrossRefPubMed

21.

Friederich HC, Walther S, Bendszus M, Biller A, Thomann P, Zeigermann S, Katus T, Brunner R, Zastrow A, Herzog W (2012) Grey matter abnormalities within cortico-limbic-striatal circuits in acute and weight-restored anorexia nervosa patients. NeuroImage 59:1106–1113CrossRefPubMed

22.

King JA, Geisler D, Ritschel F, Boehm I, Seidel M, Roschinski B, Soltwedel L, Zwipp J, Pfuhl G, Marxen M, Roessner V, Ehrlich S (2015) Global cortical thinning in acute anorexia nervosa normalizes following long-term weight restoration. Biol Psychiatry 77:624–632CrossRefPubMed

23.

Bar KJ, de la Cruz F, Berger S, Schultz CC, Wagner G (2015) Structural and functional differences in the cingulate cortex relate to disease severity in anorexia nervosa. J Psychiatry Neurosci 40:140193CrossRef

24.

Winkler AM, Kochunov P, Blangero J, Almasy L, Zilles K, Fox PT, Duggirala R, Glahn DC (2010) Cortical thickness or grey matter volume? The importance of selecting the phenotype for imaging genetics studies. Neuroimage 53:1135–1146CrossRefPubMed

25.

Alonso-Alonso M (2013) Brain, reward, and eating disorders: a matter of taste? Am J Psychiatry 170:1082–1085CrossRefPubMed

26.

White T, Hilgetag CC (2011) Gyrification and neural connectivity in schizophrenia. Dev Psychopathol 23:339–352CrossRefPubMed

27.

Zilles K, Palomero-Gallagher N, Amunts K (2013) Development of cortical folding during evolution and ontogeny. Trends Neurosci 36:275–284CrossRefPubMed

28.

Armstrong E, Schleicher A, Omran H, Curtis M, Zilles K (1995) The ontogeny of human gyrification. Cereb Cortex 5:56–63CrossRefPubMed

29.

Dale AM, Fischl B, Sereno MI (1999) Cortical surface-based analysis. I. Segmentation and surface reconstruction. Neuroimage 9:179–194CrossRefPubMed

30.

Fischl B, Sereno MI, Dale AM (1999) Cortical surface-based analysis. II: inflation, flattening, and a surface-based coordinate system. Neuroimage 9:195–207CrossRefPubMed

31.

Gaser C, Luders E, Thompson PM, Lee AD, Dutton RA, Geaga JA, Hayashi KM, Bellugi U, Galaburda AM, Korenberg JR, Mills DL, Toga AW, Reiss AL (2006) Increased local gyrification mapped in Williams syndrome. Neuroimage 33:46–54CrossRefPubMed

32.

Luders E, Thompson PM, Narr KL, Toga AW, Jancke L, Gaser C (2006) A curvature-based approach to estimate local gyrification on the cortical surface. Neuroimage 29:1224–1230CrossRefPubMed

33.

Fornito A, Yucel M, Wood SJ, Adamson C, Velakoulis D, Saling MM, McGorry PD, Pantelis C (2008) Surface-based morphometry of the anterior cingulate cortex in first episode schizophrenia. Hum Brain Mapp 29:478–489CrossRefPubMed

34.

Schultz CC, Wagner G, Koch K, Gaser C, Roebel M, Schachtzabel C, Nenadic I, Reichenbach JR, Sauer H, Schlosser RG (2013) The visual cortex in schizophrenia: alterations of gyrification rather than cortical thickness–a combined cortical shape analysis. Brain Struct Funct 218:51–58CrossRefPubMed

35.

White T, Andreasen NC, Nopoulos P, Magnotta V (2003) Gyrification abnormalities in childhood- and adolescent-onset schizophrenia. Biol Psychiatry 54:418–426CrossRefPubMed

36.

Schultz CC, Koch K, Wagner G, Roebel M, Nenadic I, Gaser C, Schachtzabel C, Reichenbach JR, Sauer H, Schlosser RG (2010) Increased parahippocampal and lingual gyrification in first-episode schizophrenia. Schizophr Res 123:137–144CrossRefPubMed

37.

Ward BD (2000) Simultaneous inference for fmri data. AFNI 3dDeconvolve Documentation, Medical College of Wisconsin

38.

Favaro A, Tenconi E, Degortes D, Manara R, Santonastaso P (2015) Gyrification brain abnormalities as predictors of outcome in anorexia nervosa. Hum Brain Mapp 36:5113–5122CrossRefPubMed

39.

Vogeley K, Schneider-Axmann T, Pfeiffer U, Tepest R, Bayer TA, Bogerts B, Honer WG, Falkai P (2000) Disturbed gyrification of the prefrontal region in male schizophrenic patients: a morphometric postmortem study. Am J Psychiatry 157:34–39CrossRefPubMed

40.

Sallet PC, Elkis H, Alves TM, Oliveira JR, Sassi E, Campi de Castro C, Busatto GF, Gattaz WF (2003) Reduced cortical folding in schizophrenia: an MRI morphometric study. Am J Psychiatry 160:1606–1613CrossRefPubMed

41.

Tepest R, Schwarzbach CJ, Krug B, Klosterkotter J, Ruhrmann S, Vogeley K (2013) Morphometry of structural disconnectivity indicators in subjects at risk and in age-matched patients with schizophrenia. Eur Arch Psychiatry Clin Neurosci 263:15–24CrossRefPubMed

42.

Vogeley K, Tepest R, Pfeiffer U, Schneider-Axmann T, Maier W, Honer WG, Falkai P (2001) Right frontal hypergyria differentiation in affected and unaffected siblings from families multiply affected with schizophrenia: a morphometric MRI study. Am J Psychiatry 158:494–496CrossRefPubMed

43.

Palaniyappan L, Mallikarjun P, Joseph V, White TP, Liddle PF (2011) Folding of the prefrontal cortex in schizophrenia: regional differences in gyrification. Biol Psychiatry 69:974–979CrossRefPubMed

44.

Nanda P, Tandon N, Mathew IT, Giakoumatos CI, Abhishekh HA, Clementz BA, Pearlson GD, Sweeney J, Tamminga CA, Keshavan MS (2014) Local gyrification index in probands with psychotic disorders and their first-degree relatives. Biol Psychiatry 76:447–455CrossRefPubMed

45.

Palaniyappan L, Marques TR, Taylor H, Handley R, Mondelli V, Bonaccorso S, Giordano A, McQueen G, DiForti M, Simmons A, David AS, Pariante CM, Murray RM, Dazzan P (2013) Cortical folding defects as markers of poor treatment response in first-episode psychosis. JAMA Psychiatry 70:1031–1040CrossRefPubMed

46.

White T, Su S, Schmidt M, Kao CY, Sapiro G (2010) The development of gyrification in childhood and adolescence. Brain Cogn 72:36–45CrossRefPubMed

47.

Shim G, Jung WH, Choi JS, Jung MH, Jang JH, Park JY, Choi CH, Kang DH, Kwon JS (2009) Reduced cortical folding of the anterior cingulate cortex in obsessive-compulsive disorder. J Psychiatry Neurosci 34:443–449PubMedPubMedCentral

48.

Wobrock T, Gruber O, McIntosh AM, Kraft S, Klinghardt A, Scherk H, Reith W, Schneider-Axmann T, Lawrie SM, Falkai P, Moorhead TW (2010) Reduced prefrontal gyrification in obsessive-compulsive disorder. Eur Arch Psychiatry Clin Neurosci 260:455–464CrossRefPubMedPubMedCentral

49.

Schaer M, Cuadra MB, Tamarit L, Lazeyras F, Eliez S, Thiran JP (2008) A surface-based approach to quantify local cortical gyrification. IEEE Trans Med Imaging 27:161–170CrossRefPubMed

50.

Zilles K, Armstrong E, Schleicher A, Kretschmann HJ (1988) The human pattern of gyrification in the cerebral cortex. Anat Embryol (Berl) 179:173–179CrossRef

51.

Yoon S, Jun CS, Jeong HS, Lee S, Lim SM, Ma J, Ko E, Cho HB, Yeum TS, Lyoo IK (2013) Altered cortical gyrification patterns in panic disorder: deficits and potential compensation. J Psychiatr Res 47:1446–1454CrossRefPubMed

52.

Zhang Y, Yu C, Zhou Y, Li K, Li C, Jiang T (2009) Decreased gyrification in major depressive disorder. NeuroReport 20:378–380CrossRefPubMed

53.

Nenadic I, Maitra R, Dietzek M, Langbein K, Smesny S, Sauer H, Gaser C (2015) Prefrontal gyrification in psychotic bipolar I disorder versus Schizophrenia. J Affect Disord 185:104–107CrossRefPubMed

54.

Brooks SJ, O’Daly OG, Uher R, Friederich HC, Giampietro V, Brammer M, Williams SC, Schioth HB, Treasure J, Campbell IC (2011) Differential neural responses to food images in women with bulimia versus anorexia nervosa. PLoS ONE 6:e22259CrossRefPubMedPubMedCentral

55.

Cowdrey FA, Park RJ, Harmer CJ, McCabe C (2011) Increased neural processing of rewarding and aversive food stimuli in recovered anorexia nervosa. Biol Psychiatry 70:736–743CrossRefPubMed

56.

Cowdrey FA, Filippini N, Park RJ, Smith SM, McCabe C (2014) Increased resting state functional connectivity in the default mode network in recovered anorexia nervosa. Hum Brain Mapp 35:483–491CrossRefPubMed

57.

Brooks SJ, O’Daly O, Uher R, Friederich HC, Giampietro V, Brammer M, Williams SC, Schioth HB, Treasure J, Campbell IC (2012) Thinking about eating food activates visual cortex with reduced bilateral cerebellar activation in females with anorexia nervosa: an FMRI study. PLoS ONE 7:e34000CrossRefPubMedPubMedCentral

58.

Bailer UF, Price JC, Meltzer CC, Mathis CA, Frank GK, Weissfeld L, McConaha CW, Henry SE, Brooks-Achenbach S, Barbarich NC, Kaye WH (2004) Altered 5-ht(2a) receptor binding after recovery from bulimia-type anorexia nervosa: relationships to harm avoidance and drive for thinness. Neuropsychopharmacology 29:1143–1155CrossRefPubMedPubMedCentral

59.

Van Essen DC (1997) A tension-based theory of morphogenesis and compact wiring in the central nervous system. Nature 385:313–318CrossRefPubMed

60.

Goldman-Rakic PS (1980) Morphological consequences of prenatal injury to the primate brain. Prog Brain Res 53:1–19PubMed

61.

Dauvermann MR, Mukherjee P, Moorhead WT, Stanfield AC, Fusar-Poli P, Lawrie SM, Whalley HC (2012) Relationship between gyrification and functional connectivity of the prefrontal cortex in subjects at high genetic risk of schizophrenia. Curr Pharm Des 18:434–442CrossRefPubMed

62.

Frank GK, Shott ME, Hagman JO, Yang TT (2013) Localized brain volume and white matter integrity alterations in adolescent anorexia nervosa. J Am Acad Child Adolesc Psychiatry 52(1066–1075):e1065

63.

Frieling H, Fischer J, Wilhelm J, Engelhorn T, Bleich S, Hillemacher T, Dorfler A, Kornhuber J, de Zwaan M, Peschel T (2012) Microstructural abnormalities of the posterior thalamic radiation and the mediodorsal thalamic nuclei in females with anorexia nervosa–a voxel based diffusion tensor imaging (DTI) study. J Psychiatr Res 46:1237–1242CrossRefPubMed

64.

Yau WY, Bischoff-Grethe A, Theilmann RJ, Torres L, Wagner A, Kaye WH, Fennema-Notestine C (2013) Alterations in white matter microstructure in women recovered from anorexia nervosa. Int J Eat Disord 46:701–708CrossRefPubMed

65.

Favaro A, Santonastaso P, Manara R, Bosello R, Bommarito G, Tenconi E, Di Salle F (2012) Disruption of visuospatial and somatosensory functional connectivity in anorexia nervosa. Biol Psychiatry 72:864–870CrossRefPubMed

66.

Gaudio S, Riva G (2013) Body image in anorexia nervosa: the link between functional connectivity alterations and spatial reference frames. Biol Psychiatry 73:e25–e26CrossRefPubMed

67.

Ronan L, Voets N, Rua C, Alexander-Bloch A, Hough M, Mackay C, Crow TJ, James A, Giedd JN, Fletcher PC (2014) Differential tangential expansion as a mechanism for cortical gyrification. Cereb Cortex 24:2219–2228CrossRefPubMed

68.

Tallinen T, Chung JY, Biggins JS, Mahadevan L (2014) Gyrification from constrained cortical expansion. Proc Natl Acad Sci USA 111:12667–12672CrossRefPubMedPubMedCentral

69.

Rakic P (1995) A small step for the cell, a giant leap for mankind: a hypothesis of neocortical expansion during evolution. Trends Neurosci 18:383–388CrossRefPubMed

70.

Kriegstein A, Noctor S, Martinez-Cerdeno V (2006) Patterns of neural stem and progenitor cell division may underlie evolutionary cortical expansion. Nat Rev 7:883–890CrossRef

71.

Reillo I, de Juan Romero C, Garcia-Cabezas MA, Borrell V (2011) A role for intermediate radial glia in the tangential expansion of the mammalian cerebral cortex. Cereb Cortex 21:1674–1694CrossRefPubMed

72.

Jovicich J, Czanner S, Han X, Salat D, van der Kouwe A, Quinn B, Pacheco J, Albert M, Killiany R, Blacker D, Maguire P, Rosas D, Makris N, Gollub R, Dale A, Dickerson BC, Fischl B (2009) Mri-derived measurements of human subcortical, ventricular and intracranial brain volumes: reliability effects of scan sessions, acquisition sequences, data analyses, scanner upgrade, scanner vendors and field strengths. NeuroImage 46:177–192CrossRefPubMedPubMedCentral

73.

Han X, Jovicich J, Salat D, van der Kouwe A, Quinn B, Czanner S, Busa E, Pacheco J, Albert M, Killiany R, Maguire P, Rosas D, Makris N, Dale A, Dickerson B, Fischl B (2006) Reliability of MRI-derived measurements of human cerebral cortical thickness: the effects of field strength, scanner upgrade and manufacturer. NeuroImage 32:180–194CrossRefPubMed

74.

Kjaersdam Telleus G, Jepsen JR, Bentz M, Christiansen E, Jensen SO, Fagerlund B, Thomsen PH (2015) Cognitive profile of children and adolescents with anorexia nervosa. Eur Eat Disord Rev 23:34–42CrossRefPubMed

75.

Weider S, Indredavik MS, Lydersen S, Hestad K (2014) Intellectual function in patients with anorexia nervosa and bulimia nervosa. Eur Eat Disord Rev 22:15–24CrossRefPubMed

Titel: Evidence for alterations of cortical folding in anorexia nervosa
verfasst von: C. Christoph Schultz
Gerd Wagner
Feliberto de la Cruz
Sandy Berger
Jürgen R. Reichenbach
Heinrich Sauer
Karl J. Bär
Publikationsdatum: 17.12.2015
Verlag: Springer Berlin Heidelberg
Erschienen in: European Archives of Psychiatry and Clinical Neuroscience / Ausgabe 1/2017
Print ISSN: 0940-1334
Elektronische ISSN: 1433-8491
DOI: https://doi.org/10.1007/s00406-015-0666-1

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Evidence for alterations of cortical folding in anorexia nervosa

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