Aortic customize: An in vivo feasibility study of a percutaneous technique for the repair of aortic aneurysms using injectable elastomer

W. M.P.F. Bosman; J. Vlot; T. J. Van Der Steenhoven; O. Van Den Berg; J. F. Hamming; A. C. De Vries; H. L.F. Brom; M. J. Jacobs

doi:10.1016/j.ejvs.2010.02.019

Aortic customize: An in vivo feasibility study of a percutaneous technique for the repair of aortic aneurysms using injectable elastomer

W. M.P.F. Bosman^*, J. Vlot, T. J. Van Der Steenhoven, O. Van Den Berg, J. F. Hamming, A. C. De Vries, H. L.F. Brom, M. J. Jacobs

^*Corresponding author for this work

Neonatal and Pediatric Intensive Care

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22 Citations (Scopus)

Abstract

Objective:

This study aimed to test a percutaneous technique for aneurysm-sac filling by means of in situ polymerisation in an in vivo model.

Design:

Aortic Customize is a new endovascular treatment concept for aortic aneurysms: a non-cross-linked liquid elastomer is injected to fill the aneurysm sac around a ballooncatheter. With this method, a compliant elastomer mould with a patent lumen is buiecreated.

Material:

The formulation used in the experiments consisted of a two-component additioncure liquid-silicone formulation, based on vinyl-terminated polydimethylsiloxane (PDMS).

Methods:

The concept of aneurysm-sac filling was tested in vivo in porcine experiments (nZ3).

Results:

In vivo porcine experiments with the sac-filling application showed successful exclusion of the created aneurysms with patent lumens and absence of endoleaks. The aneurysms were excluded successfully in the in vivo model, injecting elastomer through a 7-French catheter, filling up the entire aneurysm sac.

Conclusions:

These in vivo experiments demonstrate that the principle of aneurysm-sac filling by means of in situ curing is feasible, excluding the aneurysm and creating a new lumen. Further long-term animal experiments must be done prior to consideration of clinical application.

Original language	English
Pages (from-to)	65-70
Number of pages	6
Journal	European Journal of Vascular and Endovascular Surgery
Volume	40
Issue number	1
DOIs	https://doi.org/10.1016/j.ejvs.2010.02.019
Publication status	Published - Jul 2010

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10.1016/j.ejvs.2010.02.019

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Bosman, W. M. P. F., Vlot, J., Van Der Steenhoven, T. J., Van Den Berg, O., Hamming, J. F., De Vries, A. C., Brom, H. L. F., & Jacobs, M. J. (2010). Aortic customize: An in vivo feasibility study of a percutaneous technique for the repair of aortic aneurysms using injectable elastomer. European Journal of Vascular and Endovascular Surgery, 40(1), 65-70. https://doi.org/10.1016/j.ejvs.2010.02.019

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title = "Aortic customize: An in vivo feasibility study of a percutaneous technique for the repair of aortic aneurysms using injectable elastomer",

abstract = "Objective: This study aimed to test a percutaneous technique for aneurysm-sac filling by means of in situ polymerisation in an in vivo model. Design: Aortic Customize is a new endovascular treatment concept for aortic aneurysms: a non-cross-linked liquid elastomer is injected to fill the aneurysm sac around a ballooncatheter. With this method, a compliant elastomer mould with a patent lumen is buiecreated. Material: The formulation used in the experiments consisted of a two-component additioncure liquid-silicone formulation, based on vinyl-terminated polydimethylsiloxane (PDMS). Methods: The concept of aneurysm-sac filling was tested in vivo in porcine experiments (nZ3). Results: In vivo porcine experiments with the sac-filling application showed successful exclusion of the created aneurysms with patent lumens and absence of endoleaks. The aneurysms were excluded successfully in the in vivo model, injecting elastomer through a 7-French catheter, filling up the entire aneurysm sac. Conclusions: These in vivo experiments demonstrate that the principle of aneurysm-sac filling by means of in situ curing is feasible, excluding the aneurysm and creating a new lumen. Further long-term animal experiments must be done prior to consideration of clinical application.",

author = "Bosman, {W. M.P.F.} and J. Vlot and {Van Der Steenhoven}, {T. J.} and {Van Den Berg}, O. and Hamming, {J. F.} and {De Vries}, {A. C.} and Brom, {H. L.F.} and Jacobs, {M. J.}",

year = "2010",

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doi = "10.1016/j.ejvs.2010.02.019",

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Bosman, WMPF, Vlot, J, Van Der Steenhoven, TJ, Van Den Berg, O, Hamming, JF, De Vries, AC, Brom, HLF & Jacobs, MJ 2010, 'Aortic customize: An in vivo feasibility study of a percutaneous technique for the repair of aortic aneurysms using injectable elastomer', European Journal of Vascular and Endovascular Surgery, vol. 40, no. 1, pp. 65-70. https://doi.org/10.1016/j.ejvs.2010.02.019

Aortic customize: An in vivo feasibility study of a percutaneous technique for the repair of aortic aneurysms using injectable elastomer. / Bosman, W. M.P.F.; Vlot, J.; Van Der Steenhoven, T. J. et al.
In: European Journal of Vascular and Endovascular Surgery, Vol. 40, No. 1, 07.2010, p. 65-70.

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

TY - JOUR

T1 - Aortic customize

T2 - An in vivo feasibility study of a percutaneous technique for the repair of aortic aneurysms using injectable elastomer

AU - Bosman, W. M.P.F.

AU - Vlot, J.

AU - Van Der Steenhoven, T. J.

AU - Van Den Berg, O.

AU - Hamming, J. F.

AU - De Vries, A. C.

AU - Brom, H. L.F.

AU - Jacobs, M. J.

PY - 2010/7

Y1 - 2010/7

N2 - Objective: This study aimed to test a percutaneous technique for aneurysm-sac filling by means of in situ polymerisation in an in vivo model. Design: Aortic Customize is a new endovascular treatment concept for aortic aneurysms: a non-cross-linked liquid elastomer is injected to fill the aneurysm sac around a ballooncatheter. With this method, a compliant elastomer mould with a patent lumen is buiecreated. Material: The formulation used in the experiments consisted of a two-component additioncure liquid-silicone formulation, based on vinyl-terminated polydimethylsiloxane (PDMS). Methods: The concept of aneurysm-sac filling was tested in vivo in porcine experiments (nZ3). Results: In vivo porcine experiments with the sac-filling application showed successful exclusion of the created aneurysms with patent lumens and absence of endoleaks. The aneurysms were excluded successfully in the in vivo model, injecting elastomer through a 7-French catheter, filling up the entire aneurysm sac. Conclusions: These in vivo experiments demonstrate that the principle of aneurysm-sac filling by means of in situ curing is feasible, excluding the aneurysm and creating a new lumen. Further long-term animal experiments must be done prior to consideration of clinical application.

AB - Objective: This study aimed to test a percutaneous technique for aneurysm-sac filling by means of in situ polymerisation in an in vivo model. Design: Aortic Customize is a new endovascular treatment concept for aortic aneurysms: a non-cross-linked liquid elastomer is injected to fill the aneurysm sac around a ballooncatheter. With this method, a compliant elastomer mould with a patent lumen is buiecreated. Material: The formulation used in the experiments consisted of a two-component additioncure liquid-silicone formulation, based on vinyl-terminated polydimethylsiloxane (PDMS). Methods: The concept of aneurysm-sac filling was tested in vivo in porcine experiments (nZ3). Results: In vivo porcine experiments with the sac-filling application showed successful exclusion of the created aneurysms with patent lumens and absence of endoleaks. The aneurysms were excluded successfully in the in vivo model, injecting elastomer through a 7-French catheter, filling up the entire aneurysm sac. Conclusions: These in vivo experiments demonstrate that the principle of aneurysm-sac filling by means of in situ curing is feasible, excluding the aneurysm and creating a new lumen. Further long-term animal experiments must be done prior to consideration of clinical application.

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SN - 1078-5884

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JO - European Journal of Vascular and Endovascular Surgery

JF - European Journal of Vascular and Endovascular Surgery

IS - 1

ER -

Aortic customize: An in vivo feasibility study of a percutaneous technique for the repair of aortic aneurysms using injectable elastomer

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