Abstract
Background and Objectives To characterize the anatomical network architectures underlying effector-specific apraxias, specifically comparing the neuroanatomical substrates of limb apraxia (LA), buccofacial apraxia (BFA), and apraxia of speech (AOS).
Methods
We evaluated 136 patients with acute left-hemisphere ischemic stroke for the presence of LA, BFA, and AOS. We used voxel-based, region-of-interest-based, and connectome-based lesion-symptom mapping to identify the cortical lesions and white matter disconnections associated with each apraxia subtype.
Results
LA was associated with damage to the inferior parietal lobule and widespread white matter disconnections, including intrahemispheric temporo-parietal pathways and interhemispheric transcallosal fibers. In contrast, BFA was associated with localized anterior lesions centered on the mid-lower portion of the left precentral gyrus and adjacent frontal operculum, without massive long-range white matter disconnections. While primary analyses for AOS yielded no suprathreshold clusters, likely washed out by the spatial variance of lesions causing concomitant aphasia, exploratory analyses localized AOS to the mid-portion of the precentral gyrus, situated slightly dorsal to the core region of BFA.
Discussion
LA and oral apraxias differ fundamentally in their underlying network architectures rather than merely their effectors. LA involves the disruption of a distributed, bilaterally integrated temporo-parietal network. Conversely, oral apraxias depend on localized anterior networks, with a dorso-ventral dissociation within the precentral gyrus distinguishing pure AOS (dorsal primary motor) from BFA (ventral premotor). These findings highlight how the brain uses distinct network principles, distributed versus localized, to control different classes of skilled action.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
In this revised version, our primary update is the comprehensive re-analysis of the connectome-based lesion-symptom mapping (CLSM) incorporating virtual lesion data. This methodological refinement was essential to more rigorously and accurately estimate structural white matter disconnections. By utilizing virtual lesion data, we have substantially enhanced the robustness, precision, and anatomical validity of our network-level findings regarding effector-specific apraxias. In addition to this core analytical update, we expanded the Discussion section to better contextualize our clinical methodological limitations, refined neuroanatomical terminologies for consistency, and updated the manuscript's overall formatting.
ABBREVIATIONS
- AF
- arcuate fasciculus
- AOS
- apraxia of speech
- BFA
- buccofacial apraxia
- CLSM
- connectome-based lesion-symptom mapping
- LA
- limb apraxia
- NIHSS
- National Institutes of Health Stroke Scale
- ROI
- region of interest
- SLF
- superior longitudinal fasciculus
- SLTA
- Standard Language Test of Aphasia
- VLSM
- voxel-based lesion-symptom mapping.
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