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

Abstract: 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 loc… Show more

“…A latest study introduced an optical technology to address the challenge of overcoming the BSCB for targeted molecular delivery to the spinal cord. 115 A novel approach involves the transient modulation of BSCB permeability for localized molecular (peptide and gene vectors) delivery with exceptional spatial precision ( Fig. 6A–C ).…”

Strategies for enhanced gene delivery to the central nervous system

“…A latest study introduced an optical technology to address the challenge of overcoming the BSCB for targeted molecular delivery to the spinal cord. 115 A novel approach involves the transient modulation of BSCB permeability for localized molecular (peptide and gene vectors) delivery with exceptional spatial precision ( Fig. 6A–C ).…”

Strategies for enhanced gene delivery to the central nervous system

“…15,28 Recently, Qin et al introduced an innovative technique for optically modulating the BBB through laser stimulation of gold nanoparticles targeted at tight junctions, enhancing the permeability of both the BBB and the blood-spinal cord barrier. 21,29 Employing this technique enabled the administration of bombesin to the spinal cord, effectively inducing itch responses in mice.…”

Recent advances in stimuli-responsive controlled release systems for neuromodulation