Dynamic omnidirectional adhesive microneedle system for oral macromolecular drug delivery

Wei Chen; Jacob Wainer; Si Won Ryoo; Xiaoyue Qi; Rong Chang; Jason Li; Seung Ho Lee; Seokkee Min; Adam Wentworth; Joy E. Collins; Siddartha Tamang; Keiko Ishida; Alison Hayward; Robert Langer; Giovanni Traverso

doi:10.1126/sciadv.abk1792

Dynamic omnidirectional adhesive microneedle system for oral macromolecular drug delivery

Wei Chen, Jacob Wainer, Si Won Ryoo, Xiaoyue Qi, Rong Chang, Jason Li, Seung Ho Lee, Seokkee Min, Adam Wentworth, Joy E. Collins, Siddartha Tamang, Keiko Ishida, Alison Hayward, Robert Langer, Giovanni Traverso^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

78 Citations (Scopus)

Abstract

Oral drug administration remains the preferred route for patients and health care providers. Delivery of macromolecules through this route remains challenging because of limitations imposed by the transport across the gastrointestinal epithelium and the dynamic and degradative environment. Here, we present the development of a delivery system that combines physical (microneedle) and nonphysical (enhancer) modes of drug delivery enhancement for a macromolecule in a large animal model. Inspired by the thorny-headed intestinal worm, we report a dynamic omnidirectional mucoadhesive microneedle system capable of prolonged gastric mucosa fixation. Moreover, we incorporate sodium N-[8-(2-hydroxybenzoyl) amino] caprylate along with semaglutide and demonstrate enhanced absorption in swine resistant to physical displacement in the gastric cavity. Meanwhile, we developed a targeted capsule system capable of deploying intact microneedle-containing systems. These systems stand to enable the delivery of a range of drugs through the generation and maintenance of a privileged region in the gastrointestinal tract.

Original language	English
Article number	abk1792
Journal	Science advances
Volume	8
Issue number	1
DOIs	https://doi.org/10.1126/sciadv.abk1792
Publication status	Published - Jan 2022
Externally published	Yes

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Chen, W., Wainer, J., Ryoo, S. W., Qi, X., Chang, R., Li, J., Lee, S. H., Min, S., Wentworth, A., Collins, J. E., Tamang, S., Ishida, K., Hayward, A., Langer, R., & Traverso, G. (2022). Dynamic omnidirectional adhesive microneedle system for oral macromolecular drug delivery. Science advances, 8(1), Article abk1792. https://doi.org/10.1126/sciadv.abk1792

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abstract = "Oral drug administration remains the preferred route for patients and health care providers. Delivery of macromolecules through this route remains challenging because of limitations imposed by the transport across the gastrointestinal epithelium and the dynamic and degradative environment. Here, we present the development of a delivery system that combines physical (microneedle) and nonphysical (enhancer) modes of drug delivery enhancement for a macromolecule in a large animal model. Inspired by the thorny-headed intestinal worm, we report a dynamic omnidirectional mucoadhesive microneedle system capable of prolonged gastric mucosa fixation. Moreover, we incorporate sodium N-[8-(2-hydroxybenzoyl) amino] caprylate along with semaglutide and demonstrate enhanced absorption in swine resistant to physical displacement in the gastric cavity. Meanwhile, we developed a targeted capsule system capable of deploying intact microneedle-containing systems. These systems stand to enable the delivery of a range of drugs through the generation and maintenance of a privileged region in the gastrointestinal tract.",

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AU - Wainer, Jacob

AU - Ryoo, Si Won

AU - Qi, Xiaoyue

AU - Chang, Rong

AU - Li, Jason

AU - Lee, Seung Ho

AU - Min, Seokkee

AU - Wentworth, Adam

AU - Collins, Joy E.

AU - Tamang, Siddartha

AU - Ishida, Keiko

AU - Hayward, Alison

AU - Langer, Robert

AU - Traverso, Giovanni

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AB - Oral drug administration remains the preferred route for patients and health care providers. Delivery of macromolecules through this route remains challenging because of limitations imposed by the transport across the gastrointestinal epithelium and the dynamic and degradative environment. Here, we present the development of a delivery system that combines physical (microneedle) and nonphysical (enhancer) modes of drug delivery enhancement for a macromolecule in a large animal model. Inspired by the thorny-headed intestinal worm, we report a dynamic omnidirectional mucoadhesive microneedle system capable of prolonged gastric mucosa fixation. Moreover, we incorporate sodium N-[8-(2-hydroxybenzoyl) amino] caprylate along with semaglutide and demonstrate enhanced absorption in swine resistant to physical displacement in the gastric cavity. Meanwhile, we developed a targeted capsule system capable of deploying intact microneedle-containing systems. These systems stand to enable the delivery of a range of drugs through the generation and maintenance of a privileged region in the gastrointestinal tract.

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Dynamic omnidirectional adhesive microneedle system for oral macromolecular drug delivery

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