The rises and falls of disconnection syndromes

doi:10.1093/brain/awh622

Brain Advance Access originally published online on September 1, 2005
Brain 2005 128(10):2224-2239; doi:10.1093/brain/awh622

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Review Article

The rises and falls of disconnection syndromes

Marco Catani and Dominic H. ffytche

Centre for Neuroimaging Sciences, Institute of Psychiatry, De Crespigny Park, London, UK

Correspondence to: Marco Catani, Centre for Neuroimaging Sciences, PO 89, Institute of Psychiatry, De Crespigny Park, London, UK E-mail: m.catani{at}iop.kcl.ac.uk

In a brain composed of localized but connected specialized areas,disconnection leads to dysfunction. This simple formulationunderlay a range of 19th century neurological disorders, referredto collectively as disconnection syndromes. Although disconnectionismfell out of favour with the move against localized brain theoriesin the early 20th century, in 1965, an American neurologistbrought disconnection to the fore once more in a paper entitled,‘Disconnexion syndromes in animals and man’. Inwhat was to become the manifesto of behavioural neurology, NormanGeschwind outlined a pure disconnectionist framework which revolutionizedboth clinical neurology and the neurosciences in general. Forhim, disconnection syndromes were higher function deficits thatresulted from white matter lesions or lesions of the associationcortices, the latter acting as relay stations between primarymotor, sensory and limbic areas. From a clinical perspective,the work reawakened interest in single case studies by providinga useful framework for correlating lesion locations with clinicaldeficits. In the neurosciences, it helped develop contemporarydistributed network and connectionist theories of brain function.Geschwind's general disconnectionist paradigm ruled clinicalneurology for 20 years but in the late 1980s, with the re-emergenceof specialized functional roles for association cortex, theorbit of its remit began to diminish and it became incorporatedinto more general models of higher dysfunction. By the 1990s,textbooks of neurology were devoting only a few pages to classicaldisconnection theory. Today, new techniques to study connectionsin the living human brain allow us, for the first time, to testthe classical formulation directly and broaden it beyond disconnectionsto include disorders of hyperconnectivity. In this review, onthe 40th anniversary of Geschwind's publication, we describethe changing fortunes of disconnection theory and adapt thegeneral framework that evolved from it to encompass the entirespectrum of higher function disorders in neurology and psychiatry.

Key Words: white matter fibre pathways; visual agnosia; diffusion tensor tractography; apraxia; aphasia

Received May 13, 2005. Revised July 10, 2005. Accepted July 26, 2005.

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