Magnetic Resonance-Guided Laser Interstitial Thermal Therapy for Palliative Rhizotomy: A Novel Technical Application

Ravindra, Vijay M.; Karas, Patrick J.; Hartnett, Sara; Patino, Ilana; North, Robert Y.; Tatsui, Claúdio E.; Gonda, David; Schwabe, Aloysia; Curry, Daniel J.

doi:10.1093/ons/opaa415

Cited by 3 publications

(1 citation statement)

References 19 publications

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“…Indeed, optic fiber-based probes are under clinical trials to monitor spinal cord hemodynamics in large animals, such as pigs (24). Clinicians have also adapted spinal laser interstitial thermal therapy (LITT) for treating tumors in the spinal cord in human patients (25, 26). Compared to FUS, the Opto-BSCB method provides an effective and safe tool for delivering a wide range of molecules locally.…”

Section: Discussionmentioning

confidence: 99%

Minimally invasive delivery of peptides to the spinal cord for behavior modulation

Gao

David

Leong

et al. 2022

Preprint

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The blood-spinal cord barrier (BSCB) tightly regulates molecular transport from the blood to the spinal cord. Herein, we present a novel approach for transient modulation of BSCB permeability and localized delivery of peptides into the spinal cord for behavior modulation with high spatial resolution. This approach utilizes optical stimulation of vasculature-targeted nanoparticles and allows delivery of BSCB-nonpermeable molecules into the spinal cord without significant glial activation or impact on animal locomotor behavior. We demonstrate minimally invasive light delivery into the spinal cord using an optical fiber and BSCB permeability modulation in the lumbar region. Our method of BSCB modulation allows delivery of bombesin, a centrally-acting and itch-inducing peptide, into the spinal cord and induces a rapid and transient increase in itching behaviors in mice. This minimally invasive approach enables behavior modulation without genetic modifications and is promising for delivering a wide range of biologics into the spinal cord for behavior modulation and potentially therapy.Significance StatementSpinal cord diseases and disorders are common and cause significant disability, including chronic pain, paralysis, cognitive impairment, and mortality. The blood-spinal cord barrier is a considerable challenge for delivery by systemic therapeutic administration. We developed an optical approach for effectively and safely delivering molecules to the spinal cord to overcome this barrier. The fiberoptic method is minimally invasive and overcomes challenges that previous technologies face, including the complicated bone structure and standing waves that complicate BSCB opening using ultrasound. Optical stimulation offers unprecedented spatial resolution for the precise delivery in intricate spinal cord structures. Significantly, our approach modulates animal behavior (i.e., itch) without genetic modifications and demonstrates the potential for delivery of biologics such as peptides into the spinal cord.

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Section: Discussionmentioning

confidence: 99%

Minimally invasive delivery of peptides to the spinal cord for behavior modulation

Gao

David

Leong

et al. 2022

Preprint

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Spatially Precise and Minimally Invasive Delivery of Peptides to the Spinal Cord for Behavior Modulation

Leong,

Gao,

David

et al. 2024

ACS Nano

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The blood−spinal cord barrier (BSCB) tightly regulates the transport of molecules from the blood to the spinal cord. Herein, we present an approach for transient modulation of BSCB permeability and localized delivery of peptides into the spinal cord for behavior modulation with high spatial resolution. This approach utilizes optical stimulation of vasculature-targeted nanoparticles and allows delivery of BSCB-impermeable molecules into the spinal cord without significant glial activation or impact on animal locomotor behavior. We demonstrate minimally invasive light delivery into the spinal cord using an optical fiber and BSCB permeability modulation in the lumbar region. Our method of BSCB modulation allows the delivery of bombesin, a centrally acting and itch-inducing peptide, into the spinal cord and induces a rapid and transient increase in itching behaviors in mice. This minimally invasive approach enables behavior modulation without genetic modifications and is promising for delivering a wide range of biologics into the spinal cord for potential therapy with high spatiotemporal resolution.

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Commentary: Magnetic Resonance-Guided Laser Interstitial Thermal Therapy for Palliative Rhizotomy: A Novel Technical Application

Fallah¹,

Tu²

2021

ONSURG

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Magnetic Resonance-Guided Laser Interstitial Thermal Therapy for Palliative Rhizotomy: A Novel Technical Application

Cited by 3 publications

References 19 publications

Minimally invasive delivery of peptides to the spinal cord for behavior modulation

Minimally invasive delivery of peptides to the spinal cord for behavior modulation

Spatially Precise and Minimally Invasive Delivery of Peptides to the Spinal Cord for Behavior Modulation

Commentary: Magnetic Resonance-Guided Laser Interstitial Thermal Therapy for Palliative Rhizotomy: A Novel Technical Application

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