A translational framework to DELIVER nanomedicines to the clinic

Paul Joyce; Christine J. Allen; María José Alonso; Marianne Ashford; Michelle S. Bradbury; Matthieu Germain; Maria Kavallaris; Robert Langer; Twan Lammers; Maria Teresa Peracchia; Amirali Popat; Clive A. Prestidge; Cristianne J. F. Rijcken; Bruno Sarmento; Ruth B. Schmid; Avi Schroeder; Santhni Subramaniam; Chelsea R. Thorn; Kathryn A. Whitehead; Chun-Xia Zhao; Hélder A. Santos

doi:10.1038/s41565-024-01754-7

A translational framework to DELIVER nanomedicines to the clinic

Paul Joyce^*, Christine J. Allen, María José Alonso, Marianne Ashford, Michelle S. Bradbury, Matthieu Germain, Maria Kavallaris, Robert Langer, Twan Lammers, Maria Teresa Peracchia, Amirali Popat, Clive A. Prestidge, Cristianne J. F. Rijcken, Bruno Sarmento, Ruth B. Schmid, Avi Schroeder, Santhni Subramaniam, Chelsea R. Thorn, Kathryn A. Whitehead, Chun-Xia ZhaoHélder A. Santos^*

^*Corresponding author voor dit werk

Onderzoeksoutput › peer review

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Nanomedicines have created a paradigm shift in healthcare. Yet fundamental barriers still exist that prevent or delay the clinical translation of nanomedicines. Critical hurdles inhibiting clinical success include poor understanding of nanomedicines’ physicochemical properties, limited exposure in the cell or tissue of interest, poor reproducibility of preclinical outcomes in clinical trials, and biocompatibility concerns. Barriers that delay translation include industrial scale-up or scale-down and good manufacturing practices, funding and navigating the regulatory environment. Here we propose the DELIVER framework comprising the core principles to be realized during preclinical development to promote clinical investigation of nanomedicines. The proposed framework comes with design, experimental, manufacturing, preclinical, clinical, regulatory and business considerations, which we recommend investigators to carefully review during early-stage nanomedicine design and development to mitigate risk and enable timely clinical success. By reducing development time and clinical trial failure, it is envisaged that this framework will help accelerate the clinical translation and maximize the impact of nanomedicines.

Originele taal-2	English
Pagina's (van-tot)	1597–1611
Aantal pagina's	15
Tijdschrift	Nature Nanotechnology
Volume	19
Vroegere onlinedatum	6-sep.-2024
DOI's	https://doi.org/10.1038/s41565-024-01754-7
Status	Published - nov.-2024

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A translational framework to DELIVER nanomedicines to the clinicFinal publisher's version, 1,12 MBLicentie: Taverne

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Joyce, P., Allen, C. J., Alonso, M. J., Ashford, M., Bradbury, M. S., Germain, M., Kavallaris, M., Langer, R., Lammers, T., Peracchia, M. T., Popat, A., Prestidge, C. A., Rijcken, C. J. F., Sarmento, B., Schmid, R. B., Schroeder, A., Subramaniam, S., Thorn, C. R., Whitehead, K. A., ... Santos, H. A. (2024). A translational framework to DELIVER nanomedicines to the clinic. Nature Nanotechnology, 19, 1597–1611. https://doi.org/10.1038/s41565-024-01754-7

@article{8c6c438773fa405abf93e760f8a9a5d6,

title = "A translational framework to DELIVER nanomedicines to the clinic",

abstract = "Nanomedicines have created a paradigm shift in healthcare. Yet fundamental barriers still exist that prevent or delay the clinical translation of nanomedicines. Critical hurdles inhibiting clinical success include poor understanding of nanomedicines{\textquoteright} physicochemical properties, limited exposure in the cell or tissue of interest, poor reproducibility of preclinical outcomes in clinical trials, and biocompatibility concerns. Barriers that delay translation include industrial scale-up or scale-down and good manufacturing practices, funding and navigating the regulatory environment. Here we propose the DELIVER framework comprising the core principles to be realized during preclinical development to promote clinical investigation of nanomedicines. The proposed framework comes with design, experimental, manufacturing, preclinical, clinical, regulatory and business considerations, which we recommend investigators to carefully review during early-stage nanomedicine design and development to mitigate risk and enable timely clinical success. By reducing development time and clinical trial failure, it is envisaged that this framework will help accelerate the clinical translation and maximize the impact of nanomedicines.",

author = "Paul Joyce and Allen, {Christine J.} and Alonso, {Mar{\'i}a Jos{\'e}} and Marianne Ashford and Bradbury, {Michelle S.} and Matthieu Germain and Maria Kavallaris and Robert Langer and Twan Lammers and Peracchia, {Maria Teresa} and Amirali Popat and Prestidge, {Clive A.} and Rijcken, {Cristianne J. F.} and Bruno Sarmento and Schmid, {Ruth B.} and Avi Schroeder and Santhni Subramaniam and Thorn, {Chelsea R.} and Whitehead, {Kathryn A.} and Chun-Xia Zhao and Santos, {H{\'e}lder A.}",

year = "2024",

month = nov,

doi = "10.1038/s41565-024-01754-7",

language = "English",

volume = "19",

pages = "1597–1611",

journal = "Nature Nanotechnology",

issn = "1748-3387",

publisher = "Nature Publishing Group",

}

Joyce, P, Allen, CJ, Alonso, MJ, Ashford, M, Bradbury, MS, Germain, M, Kavallaris, M, Langer, R, Lammers, T, Peracchia, MT, Popat, A, Prestidge, CA, Rijcken, CJF, Sarmento, B, Schmid, RB, Schroeder, A, Subramaniam, S, Thorn, CR, Whitehead, KA, Zhao, C-X & Santos, HA 2024, 'A translational framework to DELIVER nanomedicines to the clinic', Nature Nanotechnology, vol. 19, blz. 1597–1611. https://doi.org/10.1038/s41565-024-01754-7

TY - JOUR

T1 - A translational framework to DELIVER nanomedicines to the clinic

AU - Joyce, Paul

AU - Allen, Christine J.

AU - Alonso, María José

AU - Ashford, Marianne

AU - Bradbury, Michelle S.

AU - Germain, Matthieu

AU - Kavallaris, Maria

AU - Langer, Robert

AU - Lammers, Twan

AU - Peracchia, Maria Teresa

AU - Popat, Amirali

AU - Prestidge, Clive A.

AU - Rijcken, Cristianne J. F.

AU - Sarmento, Bruno

AU - Schmid, Ruth B.

AU - Schroeder, Avi

AU - Subramaniam, Santhni

AU - Thorn, Chelsea R.

AU - Whitehead, Kathryn A.

AU - Zhao, Chun-Xia

AU - Santos, Hélder A.

PY - 2024/11

Y1 - 2024/11

N2 - Nanomedicines have created a paradigm shift in healthcare. Yet fundamental barriers still exist that prevent or delay the clinical translation of nanomedicines. Critical hurdles inhibiting clinical success include poor understanding of nanomedicines’ physicochemical properties, limited exposure in the cell or tissue of interest, poor reproducibility of preclinical outcomes in clinical trials, and biocompatibility concerns. Barriers that delay translation include industrial scale-up or scale-down and good manufacturing practices, funding and navigating the regulatory environment. Here we propose the DELIVER framework comprising the core principles to be realized during preclinical development to promote clinical investigation of nanomedicines. The proposed framework comes with design, experimental, manufacturing, preclinical, clinical, regulatory and business considerations, which we recommend investigators to carefully review during early-stage nanomedicine design and development to mitigate risk and enable timely clinical success. By reducing development time and clinical trial failure, it is envisaged that this framework will help accelerate the clinical translation and maximize the impact of nanomedicines.

AB - Nanomedicines have created a paradigm shift in healthcare. Yet fundamental barriers still exist that prevent or delay the clinical translation of nanomedicines. Critical hurdles inhibiting clinical success include poor understanding of nanomedicines’ physicochemical properties, limited exposure in the cell or tissue of interest, poor reproducibility of preclinical outcomes in clinical trials, and biocompatibility concerns. Barriers that delay translation include industrial scale-up or scale-down and good manufacturing practices, funding and navigating the regulatory environment. Here we propose the DELIVER framework comprising the core principles to be realized during preclinical development to promote clinical investigation of nanomedicines. The proposed framework comes with design, experimental, manufacturing, preclinical, clinical, regulatory and business considerations, which we recommend investigators to carefully review during early-stage nanomedicine design and development to mitigate risk and enable timely clinical success. By reducing development time and clinical trial failure, it is envisaged that this framework will help accelerate the clinical translation and maximize the impact of nanomedicines.

U2 - 10.1038/s41565-024-01754-7

DO - 10.1038/s41565-024-01754-7

M3 - Review article

SN - 1748-3387

VL - 19

SP - 1597

EP - 1611

JO - Nature Nanotechnology

JF - Nature Nanotechnology

ER -

A translational framework to DELIVER nanomedicines to the clinic

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