, 2010, Hamilton et al., 2010, Martin et al., 2009, Naeser et al., 2005b, Naeser et al., 2005a, Naeser et al., 2010 and Weiduschat et al., 2011). Naeser and colleagues and we have employed an approach that involves stimulating various sites in the right inferior frontal gyrus as well as the right motor cortex, in order to determine whether there is a specific site that responds best to TMS. Both our preliminary data and that of Naeser and colleagues Bleomycin molecular weight suggest that TMS-induced improvements in naming are often associated with stimulation
of the pars triangularis, but not with stimulation of other nearby right hemisphere sites (Hamilton et al., 2010 and Naeser et al., 2010). Although more data are needed to support this finding conclusively, we believe it is unlikely in the setting of large left-hemisphere lesions, that the inhibitory transcallosal connections between left and right hemisphere regions would be so specific as to account for differences in performance that are linked to a single site in the right hemisphere. An alternative explanation for these findings is
that the right hemisphere may contribute to language function in chronic aphasic patients, but not always efficiently. By this account, TMS applied to different right perisylvian regions in patients may differentially affect specific components of a remodeled language network. Fossariinae In some cases, inhibitory stimulation of a right-hemisphere target might increase the overall function of the language network by decreasing the contribution http://www.selleckchem.com/products/fg-4592.html of a dysfunctional element in that network. Our own ALE meta-analysis findings suggest that the pars triangularis is activated in a homotopic manner but is not homologous in its function compared to sites in the left hemisphere language network in normal individuals (Turkeltaub et
al., submitted for publication). In other words, activity in this site is unlikely to contribute efficiently to the operation of reorganized language networks in the right or left hemisphere. Extending this reasoning further, inefficient neural activity in the right pars triangularis may contribute deleterious noise to the operation of reorganized language circuits. Thus inhibition of this site may result in beneficial suppression of a cortical region that would otherwise have an adverse effect on performance. The notion that noninvasive brain stimulation improves the functionality of an inefficiently reorganized language network fits one aspect of the data that is not readily explained by other hypotheses, namely the finding that language function improves over the course of months following stimulation (Martin et al., 2004, Naeser et al., 2005a and Naeser et al., 2010).