Cephalopod-inspired jetting devices for gastrointestinal drug delivery
G. Arrick
1
,
D Sticker
2
,
A. Ghazal
2
,
Y. Lu
1
,
T. Duncombe
2
,
D Gwynne
1, 3
,
B. Mouridsen
2
,
Jacob Wainer
1, 3
,
J. P. H. Jepsen
2
,
T. S. Last
4
,
D Schultz
2
,
Kaitlyn Hess
1, 3, 4
,
E. Medina De Alba
2
,
Seokkee Min
1
,
M. Poulsen
2
,
C Anker
2
,
Paramesh Karandikar
1, 3
,
H.D. Pedersen
2
,
J. Collins
1
,
N E Egecioglu
2
,
S Tamang
1, 3
,
C Cleveland
2
,
K. ISHIDA
1, 3, 4
,
A. H. Uhrenfeldt
2
,
J Kuosmanen
1, 3
,
M. Pereverzina
2
,
A. HAYWARD
1, 3, 4
,
R K Kirk
2
,
S. You
1, 3, 4
,
C M Dalsgaard
2
,
S. B. Gunnarsson
2
,
I. Patsi
2
,
A. Bohr
2
,
A Azzarello
2
,
M. R. Frederiksen
2
,
P Herskind
2
,
J. Li
1
,
Niclas Roxhed
5
,
Ulrik Rahbek
2
,
J. J. Water
2
,
S T Buckley
2
,
Joy L. Collins
1, 3, 4, 6
4
Publication type: Journal Article
Publication date: 2024-11-20
scimago Q1
wos Q1
SJR: 18.288
CiteScore: 78.1
Impact factor: 48.5
ISSN: 00280836, 14764687
PubMed ID:
39567682
Abstract
Needle-based injections currently enable the administration of a wide range of biomacromolecule therapies across the body, including the gastrointestinal tract1–3, through recent developments in ingestible robotic devices4–7. However, needles generally require training, sharps management and disposal, and pose challenges for autonomous ingestible systems. Here, inspired by the jetting systems of cephalopods, we have developed and evaluated microjet delivery systems that can deliver jets in axial and radial directions into tissue, making them suitable for tubular and globular segments of the gastrointestinal tract. Furthermore, they are implemented in both tethered and ingestible formats, facilitating endoscopic applications or patient self-dosing. Our study identified suitable pressure and nozzle dimensions for different segments of the gastrointestinal tract and applied microjets in a variety of devices that support delivery across the various anatomic segments of the gastrointestinal tract. We characterized the ability of these systems to administer macromolecules, including insulin, a glucagon-like peptide-1 (GLP1) analogue and a small interfering RNA (siRNA) in large animal models, achieving exposure levels similar to those achieved with subcutaneous delivery. This research provides key insights into jetting design parameters for gastrointestinal administration, substantially broadening the possibilities for future endoscopic and ingestible drug delivery devices. Tethered or ingestible delivery systems that deliver liquid microjets in axial and radial directions can be used to deliver macromolecules to different parts of the gastrointestinal tract with good bioavailability.
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Metrics
31
Total citations:
31
Citations from 2024:
31
(100%)
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GOST
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Arrick G. et al. Cephalopod-inspired jetting devices for gastrointestinal drug delivery // Nature. 2024. Vol. 636. No. 8042. pp. 481-487.
GOST all authors (up to 50)
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Arrick G. et al. Cephalopod-inspired jetting devices for gastrointestinal drug delivery // Nature. 2024. Vol. 636. No. 8042. pp. 481-487.
Cite this
RIS
Copy
TY - JOUR
DO - 10.1038/s41586-024-08202-5
UR - https://www.nature.com/articles/s41586-024-08202-5
TI - Cephalopod-inspired jetting devices for gastrointestinal drug delivery
T2 - Nature
AU - Arrick, G.
AU - Sticker, D
AU - Ghazal, A.
AU - Lu, Y.
AU - Duncombe, T.
AU - Gwynne, D
AU - Mouridsen, B.
AU - Wainer, Jacob
AU - Jepsen, J. P. H.
AU - Last, T. S.
AU - Schultz, D
AU - Hess, Kaitlyn
AU - Medina De Alba, E.
AU - Min, Seokkee
AU - Poulsen, M.
AU - Anker, C
AU - Karandikar, Paramesh
AU - Pedersen, H.D.
AU - Collins, J.
AU - Egecioglu, N E
AU - Tamang, S
AU - Cleveland, C
AU - ISHIDA, K.
AU - Uhrenfeldt, A. H.
AU - Kuosmanen, J
AU - Pereverzina, M.
AU - HAYWARD, A.
AU - Kirk, R K
AU - You, S.
AU - Dalsgaard, C M
AU - Gunnarsson, S. B.
AU - Patsi, I.
AU - Bohr, A.
AU - Azzarello, A
AU - Frederiksen, M. R.
AU - Herskind, P
AU - Li, J.
AU - Roxhed, Niclas
AU - Rahbek, Ulrik
AU - Water, J. J.
AU - Buckley, S T
AU - Collins, Joy L.
PY - 2024
DA - 2024/11/20
PB - Springer Nature
SP - 481-487
IS - 8042
VL - 636
PMID - 39567682
SN - 0028-0836
SN - 1476-4687
ER -
Cite this
BibTex (up to 50 authors)
Copy
@article{2024_Arrick,
author = {G. Arrick and D Sticker and A. Ghazal and Y. Lu and T. Duncombe and D Gwynne and B. Mouridsen and Jacob Wainer and J. P. H. Jepsen and T. S. Last and D Schultz and Kaitlyn Hess and E. Medina De Alba and Seokkee Min and M. Poulsen and C Anker and Paramesh Karandikar and H.D. Pedersen and J. Collins and N E Egecioglu and S Tamang and C Cleveland and K. ISHIDA and A. H. Uhrenfeldt and J Kuosmanen and M. Pereverzina and A. HAYWARD and R K Kirk and S. You and C M Dalsgaard and S. B. Gunnarsson and I. Patsi and A. Bohr and A Azzarello and M. R. Frederiksen and P Herskind and J. Li and Niclas Roxhed and Ulrik Rahbek and J. J. Water and S T Buckley and Joy L. Collins and others},
title = {Cephalopod-inspired jetting devices for gastrointestinal drug delivery},
journal = {Nature},
year = {2024},
volume = {636},
publisher = {Springer Nature},
month = {nov},
url = {https://www.nature.com/articles/s41586-024-08202-5},
number = {8042},
pages = {481--487},
doi = {10.1038/s41586-024-08202-5}
}
Cite this
MLA
Copy
Arrick, G., et al. “Cephalopod-inspired jetting devices for gastrointestinal drug delivery.” Nature, vol. 636, no. 8042, Nov. 2024, pp. 481-487. https://www.nature.com/articles/s41586-024-08202-5.
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