Way to deliver clinically used gene therapy vectors: Study | Health - Hindustan Times
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Way to deliver clinically used gene therapy vectors: Study

ANI | | Posted by Tapatrisha Das, Washington
Nov 23, 2023 01:06 PM IST

The study explored the safety and practicality of gene delivery to several brain regions with a noninvasive, ultrasound-based approach.

Researchers examined the safety and practicality of gene delivery to several brain regions in animals using a noninvasive, ultrasound-based approach, and their findings imply that when more locations are opened, gene delivery effectiveness improves within each targeted site.

Way to deliver clinically used gene therapy vectors: Study(Shutterstock)
Way to deliver clinically used gene therapy vectors: Study(Shutterstock)

Shirin Nouraein, a PhD student in Rice bioengineer Jerzy Szablowski's lab, is the study's lead author, and it was recently published in the journal Gene Therapy.

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The research, "Acoustically Targeted Noninvasive Gene Therapy in Large Brain Volumes," builds on the Szablowski lab's previous work, which employed concentrated ultrasound radiation to safely permeate the blood-brain barrier. Focused ultrasound blood-brain barrier opening (FUS-BBBO) is the name given to this procedure.

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The method also allows proteins and other tiny molecules to travel in the opposite way, from the brain to the bloodstream, where they may be easily sampled.

“We use focused ultrasound to open nano-sized pores in the brain’s endothelium,” said Nouraein, a graduate student in systems, synthetic and physical biology. “This permits the noninvasive delivery of naturally occurring viral vectors throughout the brain, which is important in the treatment of genetic disorders.”

Many disorders affect large brain regions or the entire brain, but the delivery of gene therapy to these regions is difficult, said Szablowski, assistant professor of bioengineering and director of the Laboratory for Noninvasive Neuroengineering.

“When a gene-delivery vector is injected into the brain with a needle, it often only diffuses a few millimetres,” Szablowski said. “To treat the entire brain, one would need to perform thousands of injections, which would be difficult and possibly harmful. With FUS-BBBO, such surgical delivery could be circumvented.”

Nouraein and her research collaborators tested the efficiency and safety of opening 105 sites simultaneously with positive results in most regions of the brain. Surprisingly, their findings suggest that the efficiency of gene delivery improves within each targeted site when more sites are opened.

“We found that delivery of the vectors throughout the brain doubles the efficiency of delivery for the same dose of the virus compared to when only 11 sites are targeted,” Szablowski said, adding that Nouraein played a major role in making the discovery

“Shirin just started her second year in graduate school and has already led an important, complex project, showing exceptional productivity and talent,” Szablowski said.

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This story has been published from a wire agency feed without modifications to the text. Only the headline has been changed.
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