Disruption of the Blood-Spinal Cord Barrier using Low-Intensity Focused Ultrasound in a Rat Model

Bhimreddy, Meghana; Routkevitch, Denis; Hersh, Andrew; Mohammadabadi, A A; Menta, Arjun K.; Jiang, Kelly; Weber-Levine, Carly; Davidar, A. Daniel; Punnoose, Joshua; Leadingham, Kelley M. Kempski; Doloff, Joshua C.; Tyler, Betty; Theodore, Nicholas; Manbachi, Amir

doi:10.3791/65113

JoVE

2023

DOI: 10.3791/65113

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Disruption of the Blood-Spinal Cord Barrier using Low-Intensity Focused Ultrasound in a Rat Model

Meghana Bhimreddy

Denis Routkevitch

Andrew Hersh

et al.

Abstract: Low-intensity focused ultrasound (LIFU) uses ultrasonic pulsations at lower intensities than ultrasound and is being tested as a reversible and precise neuromodulatory technology. Although LIFU-mediated blood-brain barrier (BBB) opening has been explored in detail, no standardized technique for blood-spinal cord barrier (BSCB) opening has been established to date. Therefore, this protocol presents a method for successful BSCB disruption using LIFU sonication in a rat model, including descriptions of animal pre… Show more

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2024

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Ex vivo validation of non-invasive phase correction for transspine focused ultrasound: model performance and target feasibility

Martin,

Xu,

Dressler

et al. 2024

Phys. Med. Biol.

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Objective. To evaluate the feasibility of transspine focused ultrasound using simulation-based phase corrections from a CTderived ray acoustics model. Approach. Bilateral transspine focusing was performed in ex vivo human vertebrae with a spine-specific ultrasound array. Ray acoustics-derived phase correction was compared to geometric focusing and a hydrophonecorrected gold standard. Planar hydrophone scans were recorded in the spinal canal and three metrics were calculated: target pressure, coronal and sagittal focal shift, and coronal and sagittal Sørensen-Dice similarity to the free field. Post hoc analysis was performed in silico to assess the impact of windows between vertebrae on focal shift.Main results. Hydrophone correction reduced mean sagittal plane shift from 1.74 ± 0.82 mm to 1.40 ± 0.82 mm and mean coronal plane shift from 1.07 ± 0.63 mm to 0.54 ± 0.49 mm. Ray acoustics correction reduced mean sagittal plane and coronal plane shift to 1.63 ± 0.83 mm and 0.83 ± 0.60 mm, respectively. Hydrophone correction increased mean sagittal similarity from 0.48 ± 0.22 to 0.68 ± 0.19 and mean coronal similarity from 0.48 ± 0.23 to 0.70 ± 0.19. Ray acoustics correction increased mean sagittal and coronal similarity to 0.53 ± 0.25 and 0.55 ± 0.26, respectively. Target pressure was relatively unchanged across beamforming methods. In silico analysis found that, for some targets, unoccluded paths may have increased focal shift. Significance. Gold standard phase correction significantly reduced coronal shift and significantly increased sagittal and coronal Sørensen-Dice similarity (p < 0.05). Ray acoustics-derived phase correction reduced sagittal and coronal shift and increased sagittal and coronal similarity but did not achieve statistical significance. Across beamforming methods, mean focal shift was comparable to MRI resolution, suggesting that transspine focusing is possible with minimal correction in favorable targets. Future work will explore the mitigation of acoustic windows with anti-focus control points.

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Ex vivo validation of non-invasive phase correction for transspine focused ultrasound: model performance and target feasibility

Martin,

Xu,

Dressler

et al. 2024

Phys. Med. Biol.

View full text Add to dashboard Cite

show abstract

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Disruption of the Blood-Spinal Cord Barrier using Low-Intensity Focused Ultrasound in a Rat Model

Cited by 1 publication

References 12 publications

Ex vivo validation of non-invasive phase correction for transspine focused ultrasound: model performance and target feasibility

Ex vivo validation of non-invasive phase correction for transspine focused ultrasound: model performance and target feasibility

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