Liyi Xu scite author profile

Liyi Xu

3Publications

100Citation Statements Received

170Citation Statements Given

How they've been cited

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138

169

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Johns Hopkins University

Publications

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Gastrointestinal-resident, shape-changing microdevices extend drug release in vivo

Ghosh

et al. 2020

Sci. Adv.

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Extended-release gastrointestinal (GI) luminal delivery substantially increases the ease of administration of drugs and consequently the adherence to therapeutic regimens. However, because of clearance by intrinsic GI motility, device gastroretention and extended drug release over a prolonged duration are very challenging. Here, we report that GI parasite–inspired active mechanochemical therapeutic grippers, or theragrippers, can reside within the GI tract of live animals for 24 hours by autonomously latching onto the mucosal tissue. We also observe a notable sixfold increase in the elimination half-life using theragripper-mediated delivery of a model analgesic ketorolac tromethamine. These results provide first-in-class evidence that shape-changing and self-latching microdevices enhance the efficacy of extended drug delivery.

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Autonomous Untethered Microinjectors for Gastrointestinal Delivery of Insulin

Ghosh

Liu

et al. 2022

ACS Nano

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The delivery of macromolecular drugs via the gastrointestinal (GI) tract is challenging as these drugs display low stability as well as poor absorption across the intestinal epithelium. While permeation-enhancing drug delivery methods can increase the bioavailability of low molecular weight drugs, the effective delivery of high molecular weight drugs across the tight epithelial cell junctions remains a formidable challenge. Here, we describe autonomous microinjectors that are deployed in the GI tract, then efficiently penetrate the GI mucosa to deliver a macromolecular drug, insulin, to the systemic circulation. We performed in vitro studies to characterize insulin release and assess the penetration capability of microinjectors and we measured the in vivo release of insulin in live rats. We found that the microinjectors administered within the luminal GI tract could deliver insulin transmucosally to the systemic circulation at levels similar to those with intravenously administered insulin. Due to their small size, tunability in sizing and dosing, wafer-scale fabrication, and parallel, autonomous operation, we anticipate that these microinjectors will significantly advance drug delivery across the GI tract mucosa to the systemic circulation in a safe manner.

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Autonomous untethered microinjectors for gastrointestinal delivery of insulin

Ghosh

Liu

et al. 2022

Preprint

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The delivery of macromolecular drugs via the gastrointestinal (GI) tract is challenging. Macromolecular drugs display low stability and poor absorption across the intestinal epithelium. While permeation-enhancing drug delivery methods can increase the bioavailability of low molecular weight drugs, the effective delivery of high molecular weight drugs across the tight epithelial cell junctions remains a formidable challenge. Here, we describe autonomous microinjectors that can efficiently penetrate the GI mucosa and deliver insulin systemically. In addition, we performed in vitro studies to characterize insulin release and the penetration capacity of microinjectors and measure in vivo release of insulin in live rats. We found that the microinjectors administered within the luminal GI tract could deliver insulin trans-mucosally to the systemic circulation at similar levels to intravenously administered insulin. Due to their small size, tunability in sizing and dosing, wafer-scale fabrication, and parallel, autonomous operation, we anticipate that these novel microinjectors could significantly advance drug delivery across the GI tract mucosa to the systemic circulation.

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Liyi Xu

Gastrointestinal-resident, shape-changing microdevices extend drug release in vivo

Autonomous Untethered Microinjectors for Gastrointestinal Delivery of Insulin

Autonomous untethered microinjectors for gastrointestinal delivery of insulin

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