2022
DOI: 10.48550/arxiv.2209.12031
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Pseudo-CTs from T1-weighted MRI for planning of low-intensity transcranial focused ultrasound neuromodulation: an open-source tool

Siti N. Yaakub1,
Tristan A. White2,
Eric Kerfoot3
et al.
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“…FUS's utility and safety has arguably been most-limited by skull-introduced focal variability (location, pressure). Among the earliest adopters of the technique, we estimate voxel-wise FUSpressure, study-wide-with the unprecedented validity provided by neural-network skull-segmentation 9 and precise, real-world trajectories (Figure 1b). Critically, no significant difference in skull-induced attenuation or refraction was found between cohorts for any condition with highly similar focal-patterns observed for each (overlaid in Figure 1b-right).…”
mentioning
confidence: 99%

Effective Deepening of Meditative-States with Focused Ultrasound Stimulation and its Moderation by Prior-Experience

Cain,
Simonian,
Bystritsky
et al. 2024
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“…FUS's utility and safety has arguably been most-limited by skull-introduced focal variability (location, pressure). Among the earliest adopters of the technique, we estimate voxel-wise FUSpressure, study-wide-with the unprecedented validity provided by neural-network skull-segmentation 9 and precise, real-world trajectories (Figure 1b). Critically, no significant difference in skull-induced attenuation or refraction was found between cohorts for any condition with highly similar focal-patterns observed for each (overlaid in Figure 1b-right).…”
mentioning
confidence: 99%

Effective Deepening of Meditative-States with Focused Ultrasound Stimulation and its Moderation by Prior-Experience

Cain,
Simonian,
Bystritsky
et al. 2024
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