Semantic dementia: a specific network-opathy - PubMed (original) (raw)
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Semantic dementia: a specific network-opathy
Phillip D Fletcher et al. J Mol Neurosci. 2011 Nov.
Abstract
Semantic dementia (SD) is a unique syndrome in the frontotemporal lobar degeneration spectrum. Typically presenting as a progressive, fluent anomic aphasia, SD is the paradigmatic disorder of semantic memory with a characteristic anatomical profile of asymmetric, selective antero-inferior temporal lobe atrophy. Histopathologically, most cases show a specific pattern of abnormal deposition of protein TDP-43. This relatively close clinical, anatomical and pathological correspondence suggests SD as a promising target for future therapeutic trials. Here, we discuss outstanding nosological and neurobiological challenges posed by the syndrome and propose a pathophysiological model of SD based on sequential, regionally determined disintegration of a vulnerable neural network.
Figures
Fig. 1
Representative coronal T1-weighted MRI sections of the brain of a patient with semantic dementia (clinical disease duration 3 years). The sections show key structures at the level of the temporal pole (TP), anterior temporal lobe (aTL) and posterior temporal lobe (pTL); the left hemisphere is shown on the left in all sections. The sections show a characteristic profile of asymmetric focal atrophy most markedly affecting the anterior and inferior temporal lobes
Fig. 2
A pathophysiological model of semantic dementia. The schematic represents a distributed neural network in both temporal lobes, linked via commissural fibres (C); the temporal lobes are outlined in coronal section (compare Fig. 1) and stylised ‘neurons’ represent different elements of the network. In this representation, the ‘left’ temporal lobe is the more affected (atrophic) but the model does not assume a particular lateralisation. An initial (stochastic) neurodegenerative event (here indicated as cross-hatching at location I) propagates trans-synaptically through the network. The schematic shows a single instigating neurodegenerative focus; however, this could be multifocal. The neurodegenerative process is assumed to be ‘diluted’ as it traverses successive synaptic relays (here coded as grey within the initially maximally affected temporal lobe, and black in the contralateral temporal lobe): though the instigating molecular lesion has not been characterised precisely, such a dilution could in principle result from spread of a toxic molecule or loss of function effects (e.g. synaptic dysregulation or loss of trophic support). Trans-synaptic processes are assumed to act bidirectionally (i.e. potentially both anterograde and retrograde); however, in general there will be a net ‘direction’ of effects according to whether the triggering event is local or remote from the involved network element. The overall result of the process is a gradient of neural damage across the network. At a given disease stage, areas with high synaptic convergence (locations II and III) are more severely affected by the neurodegenerative process (represented as unfilled circles), establishing a gradient of atrophy within the temporal lobe. In addition, there is an inter-hemispheric gradient of damage manifesting as asymmetric temporal lobe atrophy. A precise mapping of commissural pathways between homologous areas in opposite temporal lobes and mirrored network connectivity patterns in each temporal lobe are together assumed to recapitulate the sequence of regional atrophy evolution in the initially less affected temporal lobe
References
- Acosta-Cabronero J., Patterson K., Fryer T.D., Hodges J.R., Pengas G., Williams G..B and Nestor P.J. (2011) Atrophy, hypometabolism and white matter abnormalities in semantic dementia tell a coherent story. Brain [Epub ahead of print]. - PubMed
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- MR/J011274/1/MRC_/Medical Research Council/United Kingdom
- DH_/Department of Health/United Kingdom
- Wellcome Trust/United Kingdom
- G0801306/MRC_/Medical Research Council/United Kingdom
- 091673/Wellcome Trust/United Kingdom
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