Extracellular vesicles as a next-generation drug delivery platform

Inge Katrin Herrmann^{1

2}, Matthew John Andrew Wood³, Gregor Fuhrmann^{4

5

6}

Affiliations

¹ Nanoparticle Systems Engineering Laboratory, Institute of Energy and Process Engineering, Department of Mechanical and Process Engineering, ETH Zurich, Zurich, Switzerland. inge.herrmann@empa.ch.
² Particles-Biology Interactions, Department of Materials Meet Life, Swiss Federal Laboratories for Materials Science and Technology (Empa), St. Gallen, Switzerland. inge.herrmann@empa.ch.
³ Department of Paediatrics and Oxford Harrington Rare Disease Centre, University of Oxford, Oxford, UK.
⁴ Helmholtz Centre for Infection Research (HZI), Biogenic Nanotherapeutics Group (BION), Helmholtz Institute for Pharmaceutical Research Saarland (HIPS), Saarbrücken, Germany. gregor.fuhrmann@fau.de.
⁵ Department of Pharmacy, Saarland University, Saarbrücken, Germany. gregor.fuhrmann@fau.de.
⁶ Chair for Pharmaceutical Biology, Department of Biology, Friedrich-Alexander-University Erlangen Nuremberg, Erlangen, Germany. gregor.fuhrmann@fau.de.

PMID: 34211166
DOI: 10.1038/s41565-021-00931-2

Review

Extracellular vesicles as a next-generation drug delivery platform

Inge Katrin Herrmann et al. Nat Nanotechnol. 2021 Jul.

. 2021 Jul;16(7):748-759.

doi: 10.1038/s41565-021-00931-2. Epub 2021 Jul 1.

Authors

Inge Katrin Herrmann^{1

2}, Matthew John Andrew Wood³, Gregor Fuhrmann^{4

5

6}

Affiliations

¹ Nanoparticle Systems Engineering Laboratory, Institute of Energy and Process Engineering, Department of Mechanical and Process Engineering, ETH Zurich, Zurich, Switzerland. inge.herrmann@empa.ch.
² Particles-Biology Interactions, Department of Materials Meet Life, Swiss Federal Laboratories for Materials Science and Technology (Empa), St. Gallen, Switzerland. inge.herrmann@empa.ch.
³ Department of Paediatrics and Oxford Harrington Rare Disease Centre, University of Oxford, Oxford, UK.
⁴ Helmholtz Centre for Infection Research (HZI), Biogenic Nanotherapeutics Group (BION), Helmholtz Institute for Pharmaceutical Research Saarland (HIPS), Saarbrücken, Germany. gregor.fuhrmann@fau.de.
⁵ Department of Pharmacy, Saarland University, Saarbrücken, Germany. gregor.fuhrmann@fau.de.
⁶ Chair for Pharmaceutical Biology, Department of Biology, Friedrich-Alexander-University Erlangen Nuremberg, Erlangen, Germany. gregor.fuhrmann@fau.de.

PMID: 34211166
DOI: 10.1038/s41565-021-00931-2

Abstract

Extracellular-vesicle-based cell-to-cell communication is conserved across all kingdoms of life. There is compelling evidence that extracellular vesicles are involved in major (patho)physiological processes, including cellular homoeostasis, infection propagation, cancer development and cardiovascular diseases. Various studies suggest that extracellular vesicles have several advantages over conventional synthetic carriers, opening new frontiers for modern drug delivery. Despite extensive research, clinical translation of extracellular-vesicle-based therapies remains challenging. Here, we discuss the uniqueness of extracellular vesicles along with critical design and development steps required to utilize their full potential as drug carriers, including loading methods, in-depth characterization and large-scale manufacturing. We compare the prospects of extracellular vesicles with those of the well established liposomes and provide guidelines to direct the process of developing vesicle-based drug delivery systems.

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Extracellular vesicles as a next-generation drug delivery platform

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Extracellular vesicles as a next-generation drug delivery platform

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