Delivery of islatravir via high drug‐load, long‐acting microarray patches for the prevention or treatment of human immunodeficiency virus

Qonita Kurnia Anjani; Ashley R. Johnson; Akmal H. Sabri; Ryan Lutz; Steven Tignor; Jeanine Ballard; Nathan Rudd; Li Zhao; Lalitkumar K. Vora; Stephanie E. Barrett; Angela Wagner; Ryan F. Donnelly

doi:10.1002/adhm.202403615

Delivery of islatravir via high drug‐load, long‐acting microarray patches for the prevention or treatment of human immunodeficiency virus

Qonita Kurnia Anjani, Ashley R. Johnson^*, Akmal H. Sabri, Ryan Lutz, Steven Tignor, Jeanine Ballard, Nathan Rudd, Li Zhao, Lalitkumar K. Vora, Stephanie E. Barrett, Angela Wagner, Ryan F. Donnelly^*

^*Corresponding author for this work

School of Pharmacy

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

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Abstract

This research focuses on developing and characterizing islatravir-loaded dissolving microarray patches (MAPs) to provide an effective, minimally invasive treatment option for human immunodeficiency virus (HIV-1) prevention and treatment. The research involves manufacturing these MAPs using a double-casting approach, and conducting in vitro and in vivo evaluations. Results show that the MAPs have excellent needle fidelity, structural integrity, and mechanical strength. in vitro studies demonstrate that the MAPs can penetrate skin up to 580 µm and dissolve within 2 hours. Permeation studies reveal that the delivery efficiency of islatravir across the skin is around 40%. In rodent models, these dissolving MAPs sustain islatravir delivery for up to 3 months. Scaling up the MAPs and increasing drug loading produced detectable levels in minipig. Projections from animal data suggest that these dissolving MAPs can achieve effective islatravir levels for a month after a single application in humans. These findings indicate dissolving MAPs as a minimally invasive approach to sustained release of islatravir.

Original language	English
Article number	2403615
Number of pages	14
Journal	Advanced Healthcare Materials
Volume	14
Issue number	7
Early online date	22 Jan 2025
DOIs	https://doi.org/10.1002/adhm.202403615
Publication status	Published - 14 Mar 2025

Keywords

islatravir
high drug‐load
microarray patches
treatment
HIV
long‐acting
prevention

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/adhm.202403615Licence: CC BY

Delivery of islatravir via high drug‐load, long‐acting microarray patches for the prevention or treatment of human immunodeficiency virus
Copyright 2025 the authors. This is an open access article published under a Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
Final published version, 3.51 MBLicence: CC BY

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Anjani, Q. K., Johnson, A. R., Sabri, A. H., Lutz, R., Tignor, S., Ballard, J., Rudd, N., Zhao, L., Vora, L. K., Barrett, S. E., Wagner, A., & Donnelly, R. F. (2025). Delivery of islatravir via high drug‐load, long‐acting microarray patches for the prevention or treatment of human immunodeficiency virus. Advanced Healthcare Materials, 14(7), Article 2403615. https://doi.org/10.1002/adhm.202403615

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title = "Delivery of islatravir via high drug‐load, long‐acting microarray patches for the prevention or treatment of human immunodeficiency virus",

abstract = "This research focuses on developing and characterizing islatravir-loaded dissolving microarray patches (MAPs) to provide an effective, minimally invasive treatment option for human immunodeficiency virus (HIV-1) prevention and treatment. The research involves manufacturing these MAPs using a double-casting approach, and conducting in vitro and in vivo evaluations. Results show that the MAPs have excellent needle fidelity, structural integrity, and mechanical strength. in vitro studies demonstrate that the MAPs can penetrate skin up to 580 µm and dissolve within 2 hours. Permeation studies reveal that the delivery efficiency of islatravir across the skin is around 40%. In rodent models, these dissolving MAPs sustain islatravir delivery for up to 3 months. Scaling up the MAPs and increasing drug loading produced detectable levels in minipig. Projections from animal data suggest that these dissolving MAPs can achieve effective islatravir levels for a month after a single application in humans. These findings indicate dissolving MAPs as a minimally invasive approach to sustained release of islatravir.",

keywords = "islatravir, high drug‐load, microarray patches, treatment, HIV, long‐acting, prevention",

author = "Anjani, {Qonita Kurnia} and Johnson, {Ashley R.} and Sabri, {Akmal H.} and Ryan Lutz and Steven Tignor and Jeanine Ballard and Nathan Rudd and Li Zhao and Vora, {Lalitkumar K.} and Barrett, {Stephanie E.} and Angela Wagner and Donnelly, {Ryan F.}",

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Anjani, QK, Johnson, AR, Sabri, AH, Lutz, R, Tignor, S, Ballard, J, Rudd, N, Zhao, L, Vora, LK, Barrett, SE, Wagner, A & Donnelly, RF 2025, 'Delivery of islatravir via high drug‐load, long‐acting microarray patches for the prevention or treatment of human immunodeficiency virus', Advanced Healthcare Materials, vol. 14, no. 7, 2403615. https://doi.org/10.1002/adhm.202403615

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T1 - Delivery of islatravir via high drug‐load, long‐acting microarray patches for the prevention or treatment of human immunodeficiency virus

AU - Anjani, Qonita Kurnia

AU - Johnson, Ashley R.

AU - Sabri, Akmal H.

AU - Lutz, Ryan

AU - Tignor, Steven

AU - Ballard, Jeanine

AU - Rudd, Nathan

AU - Zhao, Li

AU - Vora, Lalitkumar K.

AU - Barrett, Stephanie E.

AU - Wagner, Angela

AU - Donnelly, Ryan F.

PY - 2025/3/14

Y1 - 2025/3/14

N2 - This research focuses on developing and characterizing islatravir-loaded dissolving microarray patches (MAPs) to provide an effective, minimally invasive treatment option for human immunodeficiency virus (HIV-1) prevention and treatment. The research involves manufacturing these MAPs using a double-casting approach, and conducting in vitro and in vivo evaluations. Results show that the MAPs have excellent needle fidelity, structural integrity, and mechanical strength. in vitro studies demonstrate that the MAPs can penetrate skin up to 580 µm and dissolve within 2 hours. Permeation studies reveal that the delivery efficiency of islatravir across the skin is around 40%. In rodent models, these dissolving MAPs sustain islatravir delivery for up to 3 months. Scaling up the MAPs and increasing drug loading produced detectable levels in minipig. Projections from animal data suggest that these dissolving MAPs can achieve effective islatravir levels for a month after a single application in humans. These findings indicate dissolving MAPs as a minimally invasive approach to sustained release of islatravir.

AB - This research focuses on developing and characterizing islatravir-loaded dissolving microarray patches (MAPs) to provide an effective, minimally invasive treatment option for human immunodeficiency virus (HIV-1) prevention and treatment. The research involves manufacturing these MAPs using a double-casting approach, and conducting in vitro and in vivo evaluations. Results show that the MAPs have excellent needle fidelity, structural integrity, and mechanical strength. in vitro studies demonstrate that the MAPs can penetrate skin up to 580 µm and dissolve within 2 hours. Permeation studies reveal that the delivery efficiency of islatravir across the skin is around 40%. In rodent models, these dissolving MAPs sustain islatravir delivery for up to 3 months. Scaling up the MAPs and increasing drug loading produced detectable levels in minipig. Projections from animal data suggest that these dissolving MAPs can achieve effective islatravir levels for a month after a single application in humans. These findings indicate dissolving MAPs as a minimally invasive approach to sustained release of islatravir.

KW - islatravir

KW - high drug‐load

KW - microarray patches

KW - treatment

KW - HIV

KW - long‐acting

KW - prevention

U2 - 10.1002/adhm.202403615

DO - 10.1002/adhm.202403615

M3 - Article

SN - 2192-2659

VL - 14

JO - Advanced Healthcare Materials

JF - Advanced Healthcare Materials

IS - 7

M1 - 2403615

ER -

Delivery of islatravir via high drug‐load, long‐acting microarray patches for the prevention or treatment of human immunodeficiency virus

Abstract

Keywords

UN SDGs

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