Frontotemporal Cortical Thinning in Amyotrophic Lateral Sclerosis

References

1. 1.↵
   1. Kiernan MC,
   2. Vucic S,
   3. Cheah BC,
   4. et al

   . Amyotrophic lateral sclerosis. Lancet 2011;377:942–55

   CrossRefPubMedWeb of Science
2. 2.↵
   1. Grossman M,
   2. Anderson C,
   3. Khan A,
   4. et al

   . Impaired action knowledge in amyotrophic lateral sclerosis. Neurology 2008;71:1396–401

   CrossRef
3. 3.↵
   1. Phukan J,
   2. Pender NP,
   3. Hardiman O

   . Cognitive impairment in amyotrophic lateral sclerosis. Lancet Neurol 2007;6:994–1003

   CrossRefPubMedWeb of Science
4. 4.↵
   1. Gibbons ZC,
   2. Richardson A,
   3. Neary D,
   4. et al

   . Behaviour in amyotrophic lateral sclerosis. Amyotroph Lateral Scler 2008;9:67–74

   PubMedWeb of Science
5. 5.↵
   1. Ringholz GM,
   2. Appel SH,
   3. Bradshaw M,
   4. et al

   . Prevalence and patterns of cognitive impairment in sporadic ALS. Neurology 2005;65:586–90

   CrossRef
6. 6.↵
   1. Tsermentseli S,
   2. Leigh PN,
   3. Goldstein LH

   . The anatomy of cognitive impairment in amyotrophic lateral sclerosis: more than frontal lobe dysfunction. Cortex 2012;48:166–82

   CrossRefPubMedWeb of Science
7. 7.↵
   1. Murphy JM,
   2. Henry RG,
   3. Langmore S,
   4. et al

   . Continuum of frontal lobe impairment in amyotrophic lateral sclerosis. Arch Neurol 2007;64:530–34

   CrossRefPubMedWeb of Science
8. 8.↵
   1. Geser F,
   2. Martinez-Lage M,
   3. Robinson J,
   4. et al

   . Clinical and pathological continuum of multisystem TDP-43 proteinopathies. Arch Neurol 2009;66:180–89

   CrossRefPubMedWeb of Science
9. 9.↵
   1. Geser F,
   2. Brandmeir NJ,
   3. Kwong LK,
   4. et al

   . Evidence of multisystem disorder in whole-brain map of pathological TDP-43 in amyotrophic lateral sclerosis. Arch Neurol 2008;65:636–41

   CrossRefPubMedWeb of Science
10. 10.↵
    1. Ludolph AC,
    2. Brettschneider J,
    3. Weishaupt JH

    . Amyotrophic lateral sclerosis. Curr Opin Neurol 2012;25:530–35

    CrossRefPubMed
11. 11.↵
    1. Agosta F,
    2. Pagani E,
    3. Rocca MA,
    4. et al

    . Voxel-based morphometry study of brain volumetry and diffusivity in amyotrophic lateral sclerosis patients with mild disability. Hum Brain Mapp 2007;28:1430–38

    CrossRefPubMedWeb of Science
12. 12.↵
    1. Kassubek J,
    2. Unrath A,
    3. Huppertz HJ,
    4. et al

    . Global brain atrophy and corticospinal tract alterations in ALS, as investigated by voxel-based morphometry of 3-D MRI. Amyotroph Lateral Scler Other Motor Neuron Disord 2005;6:213–20

    CrossRefPubMedWeb of Science
13. 13.↵
    1. Ellis CM,
    2. Suckling J,
    3. Amaro E Jr.,
    4. et al

    . Volumetric analysis reveals corticospinal tract degeneration and extramotor involvement in ALS. Neurology 2001;57:1571–78

    CrossRef
14. 14.↵
    1. Mezzapesa DM,
    2. Ceccarelli A,
    3. Dicuonzo F,
    4. et al

    . Whole-brain and regional brain atrophy in amyotrophic lateral sclerosis. AJNR Am J Neuroradiol 2007;28:255–59

    Abstract/FREE Full Text
15. 15.↵
    1. Tsujimoto M,
    2. Senda J,
    3. Ishihara T,
    4. et al

    . Behavioral changes in early ALS correlate with voxel-based morphometry and diffusion tensor imaging. J Neurol Sci 2011;307:34–40

    CrossRefPubMed
16. 16.↵
    1. Thivard L,
    2. Pradat P-F,
    3. Lehéricy S,
    4. et al

    . Diffusion tensor imaging and voxel based morphometry study in amyotrophic lateral sclerosis: relationships with motor disability. J Neurol Neurosurg Psychiatry 2007;78:889–92

    Abstract/FREE Full Text
17. 17.↵
    1. Filippini N,
    2. Douaud G,
    3. Mackay CE,
    4. et al

    . Corpus callosum involvement is a consistent feature of amyotrophic lateral sclerosis. Neurology 2010;75:1645–52

    CrossRef
18. 18.↵
    1. Verstraete E,
    2. van den Heuvel MP,
    3. Veldink JH,
    4. et al

    . Motor network degeneration in amyotrophic lateral sclerosis: a structural and functional connectivity study. PLoS One 2010;5:e13664

    CrossRefPubMed
19. 19.↵
    1. Tedeschi G,
    2. Trojsi F,
    3. Tessitore A,
    4. et al

    . Interaction between aging and neurodegeneration in amyotrophic lateral sclerosis. Neurobiol Aging 2012;33:886–98

    CrossRefPubMed
20. 20.↵
    1. Mioshi E,
    2. Lillo P,
    3. Yew B,
    4. et al

    . Cortical atrophy in ALS is critically associated with neuropsychiatric and cognitive changes. Neurology 2013;80:1117–23

    CrossRef
21. 21.↵
    1. Ashburner J,
    2. Friston KJ

    . Voxel-based morphometry–the methods. NeuroImage 2000;11:805–21

    CrossRefPubMedWeb of Science
22. 22.↵
    1. Turner MR,
    2. Grosskreutz J,
    3. Kassubek J,
    4. et al

    . Towards a neuroimaging biomarker for amyotrophic lateral sclerosis. Lancet Neurol 2011;10:400–03

    CrossRefPubMedWeb of Science
23. 23.↵
    1. Fischl B,
    2. Dale AM

    . Measuring the thickness of the human cerebral cortex from magnetic resonance images. Proc Natl Acad Sci U S A 2000;97:11050–55

    Abstract/FREE Full Text
24. 24.↵
    1. Pereira JB,
    2. Ibarretxe-Bilbao N,
    3. Marti MJ,
    4. et al

    . Assessment of cortical degeneration in patients with Parkinson's disease by voxel-based morphometry, cortical folding, and cortical thickness. Hum Brain Mapp 2012;33:2521–34

    CrossRefPubMedWeb of Science
25. 25.↵
    1. Roccatagliata L,
    2. Bonzano L,
    3. Mancardi G,
    4. et al

    . Detection of motor cortex thinning and corticospinal tract involvement by quantitative MRI in amyotrophic lateral sclerosis. Amyotroph Lateral Scler 2009;10:47–52

    CrossRefPubMedWeb of Science
26. 26.↵
    1. Verstraete E,
    2. Veldink JH,
    3. Hendrikse J,
    4. et al

    . Structural MRI reveals cortical thinning in amyotrophic lateral sclerosis. J Neurol Neurosurg Psychiatry 2012;83:383–88

    Abstract/FREE Full Text
27. 27.↵
    1. Agosta F,
    2. Valsasina P,
    3. Riva N,
    4. et al

    . The cortical signature of amyotrophic lateral sclerosis. PLoS One 2012;7:e42816

    CrossRefPubMed
28. 28.↵
    1. Libon DJ,
    2. McMillan C,
    3. Avants B,
    4. et al

    . Deficits in concept formation in amyotrophic lateral sclerosis. Neuropsychology 2012;26:422–29

    CrossRefPubMed
29. 29.↵
    1. Brooks BR,
    2. Miller RG,
    3. Swash M,
    4. et al

    . El Escorial revisited: revised criteria for the diagnosis of amyotrophic lateral sclerosis. Amyotroph Lateral Scler Other Motor Neuron Disord 2000;1:293–99

    CrossRefPubMedWeb of Science
30. 30.↵
    1. Cedarbaum JM,
    2. Stambler N,
    3. Malta E,
    4. et al

    . The ALSFRS-R: a revised ALS functional rating scale that incorporates assessments of respiratory function. BDNF ALS Study Group (Phase III). J Neurol Sci 1999;169:13–21

    CrossRefPubMedWeb of Science
31. 31.↵
    1. Ellis CM,
    2. Simmons A,
    3. Jones DK,
    4. et al

    . Diffusion tensor MRI assesses corticospinal tract damage in ALS. Neurology 1999;53:1051–58

    CrossRef
32. 32.↵
    1. Turner MR,
    2. Cagnin A,
    3. Turkheimer FE,
    4. et al

    . Evidence of widespread cerebral microglial activation in amyotrophic lateral sclerosis: an [(11)C](R)-PK11195 positron emission tomography study. Neurobiol Dis 2004;15:601–09

    CrossRefPubMedWeb of Science
33. 33.↵
    1. Pasqualetti P,
    2. Moffa F,
    3. Chiovenda P,
    4. et al

    . Mini-mental state examination and mental deterioration battery: analysis of the relationship and clinical implications. J Am Geriatr Soc 2002;50:1577–81

    CrossRefPubMedWeb of Science
34. 34.↵
    1. Borkowski JG,
    2. Benton AL,
    3. Spreen O

    . Word fluency and brain damage. Neuropsychologia 1967;5:135–40

    CrossRefWeb of Science
35. 35.↵
    1. Grace J,
    2. Stout JC,
    3. Malloy PF

    . Assessing frontal lobe behavioral syndromes with the frontal lobe personality scale. Assessment 1999;6:269–84

    Abstract/FREE Full Text
36. 36.↵
    1. Kiernan JA,
    2. Hudson AJ

    . Changes in sizes of cortical and lower motor neurons in amyotrophic lateral sclerosis. Brain 1991;114:843–53

    Abstract/FREE Full Text
37. 37.↵
    1. Eisen AA,
    2. Shaw PJ

    1. Ince PG,
    2. Wharton SB

    . Cytopathology of the motor neuron. In: Eisen AA, Shaw PJ , eds. Motor Neuron Disorders and Related Diseases: Handbook of Clinical Neurology, 3rd ed. Amsterdam, the Netherlands: Elsevier;2007:89–119
38. 38.↵
    1. Ince PG,
    2. Highley JR,
    3. Kirby J,
    4. et al

    . Molecular pathology and genetic advances in amyotrophic lateral sclerosis: an emerging molecular pathway and the significance of glial pathology. Acta Neuropathol 2011;122:657–71

    CrossRefPubMedWeb of Science
39. 39.↵
    1. Hutton C,
    2. Draganski B,
    3. Ashburner J,
    4. et al

    . A comparison between voxel-based cortical thickness and voxel-based morphometry in normal aging. Neuroimage 2009;48:371–80

    CrossRefPubMedWeb of Science
40. 40.↵
    1. Eisen A,
    2. Weber M

    . The motor cortex and amyotrophic lateral sclerosis. Muscle Nerve 2001;24:564–73

    CrossRefPubMedWeb of Science
41. 41.↵
    1. Vucic S,
    2. Nicholson GA,
    3. Kiernan MC

    . Cortical hyperexcitability may precede the onset of familial amyotrophic lateral sclerosis. Brain 2008;131:1540–50

    Abstract/FREE Full Text
42. 42.↵
    1. Agosta F,
    2. Canu E,
    3. Sarro L,
    4. et al

    . Neuroimaging findings in frontotemporal lobar degeneration spectrum of disorders. Cortex 2012;48:389–413

    CrossRefPubMedWeb of Science
43. 43.↵
    1. Mahoney CJ,
    2. Beck J,
    3. Rohrer JD,
    4. et al

    . Frontotemporal dementia with the C9ORF72 hexanucleotide repeat expansion: clinical, neuroanatomical and neuropathological features. Brain 2012;135:736–50

    Abstract/FREE Full Text
44. 44.↵
    1. Seeley WW,
    2. Crawford R,
    3. Rascovsky K,
    4. et al

    . Frontal paralimbic network atrophy in very mild behavioral variant frontotemporal dementia. Arch Neurol 2008;65:249–55

    CrossRefPubMedWeb of Science
45. 45.↵
    1. Rosen HJ,
    2. Allison SC,
    3. Schauer GF,
    4. et al

    . Neuroanatomical correlates of behavioural disorders in dementia. Brain 2005;128:2612–25

    Abstract/FREE Full Text
46. 46.↵
    1. Whitwell JL,
    2. Sampson EL,
    3. Loy CT,
    4. et al

    . VBM signatures of abnormal eating behaviours in frontotemporal lobar degeneration. Neuroimage 2007;35:207–13

    CrossRefPubMedWeb of Science
47. 47.↵
    1. Rohrer JD,
    2. Warren JD

    . Phenomenology and anatomy of abnormal behaviours in primary progressive aphasia. J Neurol Sci 2010;293:35–38

    CrossRefPubMed
48. 48.↵
    1. Williams GB,
    2. Nestor PJ,
    3. Hodges JR

    . Neural correlates of semantic and behavioural deficits in frontotemporal dementia. NeuroImage 2005;24:1042–51

    CrossRefPubMedWeb of Science
49. 49.↵
    1. Zamboni G,
    2. Huey ED,
    3. Krueger F,
    4. et al

    . Apathy and disinhibition in frontotemporal dementia: insights into their neural correlates. Neurology 2008;71:736–42

    CrossRef
50. 50.↵
    1. Woolley SC,
    2. Zhang Y,
    3. Schuff N,
    4. et al

    . Neuroanatomical correlates of apathy in ALS using 4 Tesla diffusion tensor MRI. Amyotroph Lateral Scler 2011;12:52–58

    CrossRefPubMed
51. 51.↵
    1. Lillo P,
    2. Mioshi E,
    3. Zoing MC,
    4. et al

    . How common are behavioural changes in amyotrophic lateral sclerosis? Amyotroph Lateral Scler 2011;12:45–51

    CrossRefPubMed
52. 52.↵
    1. Meier SL,
    2. Charleston AJ,
    3. Tippett LJ

    . Cognitive and behavioural deficits associated with the orbitomedial prefrontal cortex in amyotrophic lateral sclerosis. Brain 2010;133:3444–57

    Abstract/FREE Full Text
53. 53.↵
    1. Levy R,
    2. Dubois B

    . Apathy and the functional anatomy of the prefrontal cortex–basal ganglia circuits. Cereb Cortex 2006;16:916–28

    Abstract/FREE Full Text
54. 54.↵
    1. Brodtmann A,
    2. Pardoe H,
    3. Li Q,
    4. et al

    . Changes in regional brain volume three months after stroke. J Neurol Sci 2012;322:122–28

    CrossRefPubMed
55. 55.↵
    1. Wilde EA,
    2. Merkley TL,
    3. Bigler ED,
    4. et al

    . Longitudinal changes in cortical thickness in children after traumatic brain injury and their relation to behavioral regulation and emotional control. Int J Dev Neurosci 2012;30:267–76

    CrossRefPubMed
56. 56.↵
    1. Fan Q,
    2. Palaniyappan L,
    3. Tan L,
    4. et al

    . Surface anatomical profile of the cerebral cortex in obsessive-compulsive disorder: a study of cortical thickness, folding and surface area. Psychol Med 2013;43:1081–91

    CrossRefPubMed