White matter plasticity in the corticospinal tract of musicians: A diffusion tensor imaging study

Imfeld, Adrian; Oechslin, Mathias S.; Meyer, Martin; Loenneker, Thomas; Jäncke, Lutz

doi:10.1016/j.neuroimage.2009.02.025

Cited by 245 publications

(229 citation statements)

References 49 publications

Supporting

Mentioning

206

Contrasting

Unclassified

Order By: Relevance

“…In agreement with previous studies (Toosy et al 2003;Kraus et al 2007;Imfeld et al 2009), we found a right-greaterthan-left asymmetry of FA values in corticospinal motor tracts across all subgroups (see Fig. 2 and Tables 2 and 3).…”

Section: Discussionsupporting

confidence: 93%

“…Whereas our study complements the work of Bengtsson et al (2005) as well as that of Han et al (2009), differences have emerged between our results and those of Imfeld et al (2009) as well as those of Schmithorst and Wilke (2002), who found lower FA values in musicians relative to nonmusicians. Methodological issues might account for these differences such as the use of a subcortical ROI that included Brodmann Areas 1-4 (Imfeld et al 2009) leading to the inclusion of ascending sensory tracts, whereas our ROIs were defined to only include fiber tracts from distinct primary and nonprimary motor areas; and differences in scanning parameters may have to be considered as well. It is still unclear how diffusivity properties can be interpreted in terms of their underlying white matter structure (Beaulieu 2002;Wheeler-Kingshott and Cercignani 2009).…”

Section: Discussionsupporting

confidence: 48%

“…Functional specializations and differences in gross-anatomical markers have been demonstrated comparing different instrumental musician groups with each other (Pantev et al 2001;Bangert and Schlaug 2006); however, to the best of our knowledge, they have not been reported for white matter so far. Previous studies have focused on musicians versus nonmusicians white matter differences, but these studies differed in finding either higher or lower FA values within descending motor tracts (Schmithorst and Wilke 2002;Bengtsson et al 2005;Han et al 2009;Imfeld et al 2009). Whereas our study complements the work of Bengtsson et al (2005) as well as that of Han et al (2009), differences have emerged between our results and those of Imfeld et al (2009) as well as those of Schmithorst and Wilke (2002), who found lower FA values in musicians relative to nonmusicians.…”

Section: Discussionmentioning

confidence: 99%

“…Previous studies have focused on musicians versus nonmusicians white matter differences, but these studies differed in finding either higher or lower FA values within descending motor tracts (Schmithorst and Wilke 2002;Bengtsson et al 2005;Han et al 2009;Imfeld et al 2009). Whereas our study complements the work of Bengtsson et al (2005) as well as that of Han et al (2009), differences have emerged between our results and those of Imfeld et al (2009) as well as those of Schmithorst and Wilke (2002), who found lower FA values in musicians relative to nonmusicians. Methodological issues might account for these differences such as the use of a subcortical ROI that included Brodmann Areas 1-4 (Imfeld et al 2009) leading to the inclusion of ascending sensory tracts, whereas our ROIs were defined to only include fiber tracts from distinct primary and nonprimary motor areas; and differences in scanning parameters may have to be considered as well.…”

Section: Discussionmentioning

confidence: 99%

“…Previous studies comparing musicians with nonmusicians yielded contradictory results with regard to FA values in corticospinal motor tracts, and none of the studies related diffusivity measures to motor performance measures (Schmithorst and Wilke 2002;Bengtsson et al 2005;Han et al 2009;Imfeld et al 2009). Studies examining neural effects of long-term instrumental music practice have been complemented by studies showing white matter plasticity in response to the acquisition of other nonmusical sensorimotor skills (Scholz et al 2009;Hanggi et al 2010;Landi et al 2011) as well as in response to recovery from neurological disorders (Schlaug et al 2009;Wrigley et al 2009;Lindenberg et al 2010;Granziera et al 2012;Keil et al 2012;Zipse et al 2012) or neural effects of immobilization (Langer et al 2012).…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Differential Adaptation of Descending Motor Tracts in Musicians

2013

View full text Add to dashboard Cite

Between-group comparisons of musicians and nonmusicians have revealed structural brain differences and also functional differences in motor performance. In this study, we aimed to examine the relation between white matter microstructure and high-level motor skills by contrasting 2 groups of musicians with different instrumentspecific motor requirements. We used diffusion tensor imaging to compare diffusivity measures of different corticospinal motor tracts of 10 keyboard players, 10 string players, and 10 nonmusicians. Additionally, the maximal tapping rates of their left and right index fingers were determined. When compared with nonmusicians, fractional anisotropy (FA) values of right-hemispheric motor tracts were significantly higher in both musician groups, whereas left-hemispheric motor tracts showed significantly higher FA values only in the keyboard players. Voxel-wise FA analysis found a group effect in white matter underlying the right motor cortex. Diffusivity measures of fibers originating in the primary motor cortex correlated with the maximal tapping rate of the contralateral index finger across all groups. The observed between-group diffusivity differences might represent an adaptation to the specific motor demands of the respective musical instrument. This is supported further by finding correlations between diffusivity measures and maximal tapping rates.

show abstract

Section: Discussionsupporting

confidence: 93%

Section: Discussionsupporting

confidence: 48%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Differential Adaptation of Descending Motor Tracts in Musicians

2013

View full text Add to dashboard Cite

show abstract

Structural neuroplasticity in the sensorimotor network of professional female ballet dancers

Hänggi

Koeneke

Bezzola

et al. 2010

Human Brain Mapping

199

232

View full text Add to dashboard Cite

Evidence suggests that motor, sensory, and cognitive training modulates brain structures involved in a specific practice. Functional neuroimaging revealed key brain structures involved in dancing such as the putamen and the premotor cortex. Intensive ballet dance training was expected to modulate the structures of the sensorimotor network, for example, the putamen, premotor cortex, supplementary motor area (SMA), and the corticospinal tracts. We investigated gray (GM) and white matter (WM) volumes, fractional anisotropy (FA), and mean diffusivity (MD) using magnetic resonance-based morphometry and diffusion tensor imaging in 10 professional female ballet dancers compared with 10 nondancers. In dancers compared with nondancers, decreased GM volumes were observed in the left premotor cortex, SMA, putamen, and superior frontal gyrus, and decreased WM volumes in both corticospinal tracts, both internal capsules, corpus callosum, and left anterior cingulum. FA was lower in the WM underlying the dancers' left and right premotor cortex. There were no significant differences in MD between the groups. Age of dance commencement was negatively correlated with GM and WM volume in the right premotor cortex and internal capsule, respectively, and positively correlated with WM volume in the left precentral gyrus and corpus callosum. Results were not influenced by the significantly lower body mass index of the dancers. The present findings complement the results of functional imaging studies in experts that revealed reduced neural activity in skilled compared with nonskilled subjects. Reductions in brain activity are accompanied by local decreases in GM and WM volumes and decreased FA.

show abstract

Enhanced white matter tracts integrity in children with abacus training

Hu¹,

Geng²,

Tao³

et al. 2010

Human Brain Mapping

116

123

View full text Add to dashboard Cite

Experts of abacus, who have the skills of abacus-based mental calculation (AMC), are able to manipulate numbers via an imagined abacus in mind and demonstrate extraordinary ability in mental calculation. Behavioral studies indicated that abacus experts utilize visual strategy in solving numerical problems, and fMRI studies confirmed the enhanced involvement of visuospatial-related neural resources in AMC. This study aims to explore the possible changes in brain white matter induced by long-term training of AMC. Two matched groups participated: the abacus group consisting of 25 children with over 3-year training in abacus calculation and AMC, the controls including 25 children without any abacus experience. We found that the abacus group showed higher average fractional anisotropy (FA) in whole-brain fiber tracts, and the regions with increased FA were found in corpus callosum, left occipitotemporal junction and right premotor projection. No regions, however, showed decreased FA in the abacus group. Further analysis revealed that the differences in FA values were mainly driven by the alternation of radial rather than axial diffusivities. Furthermore, in forward digit and letter memory span tests, AMC group showed larger digit/letter memory spans. Interestingly, individual differences in white matter tracts were found positively correlated with the memory spans, indicating that the widespread increase of FA in the abacus group result possibly from the AMC training. In conclusion, our findings suggested that long-term AMC training from an early age may improve the memory capacity and enhance the integrity in white matter tracts related to motor and visuospatial processes.

show abstract

White matter plasticity in the corticospinal tract of musicians: A diffusion tensor imaging study

Cited by 245 publications

References 49 publications

Differential Adaptation of Descending Motor Tracts in Musicians

Differential Adaptation of Descending Motor Tracts in Musicians

Structural neuroplasticity in the sensorimotor network of professional female ballet dancers

Enhanced white matter tracts integrity in children with abacus training

Contact Info

Product

Resources

About