Characterization of the biocompatibility and mechanical properties of polyurea organic aerogels with the vascular system: Potential as a blood implantable material

Wei Yin; Hongbing Lu; Nicholas Leventis; David A. Rubenstein

doi:10.1080/00914037.2012.698339

Characterization of the biocompatibility and mechanical properties of polyurea organic aerogels with the vascular system: Potential as a blood implantable material

Wei Yin
, Hongbing Lu
, Nicholas Leventis
, David A. Rubenstein

Biomedical Engineering

University of Texas at Dallas
Missouri University of Science and Technology

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

16 Scopus citations

Abstract

Our goal was to compare the biocompatibility of Desmodur N3300-derived polyurea aerogels to that of X-MP4-T045 templated mesoporous silica aerogels. The effects of N3300 polyurea aerogels on the vascular system were evaluated by hemolysis, platelet activity, endothelial cell activity, and inflammatory responses. Aerogel morphology was examined using SEM and nano-indentation. Results indicate that N3300 aerogels do not alter blood cell or inflammatory responses and did not absorb proteins. They are compatible with endothelial cells. Overall, N3300 aerogels share similar biocompatibility as X-MP4-T045 aerogels but changes were observed in gel morphology. Therefore, N3300 aerogels may be suitable for various cardiovascular applications.

Original language	English
Pages (from-to)	109-118
Number of pages	10
Journal	International Journal of Polymeric Materials and Polymeric Biomaterials
Volume	62
Issue number	2
DOIs	https://doi.org/10.1080/00914037.2012.698339
State	Published - Jan 31 2013

Keywords

Biocompatibility
blood implantable device
polyurea aerogels
relaxation modulus

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10.1080/00914037.2012.698339

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title = "Characterization of the biocompatibility and mechanical properties of polyurea organic aerogels with the vascular system: Potential as a blood implantable material",

abstract = "Our goal was to compare the biocompatibility of Desmodur N3300-derived polyurea aerogels to that of X-MP4-T045 templated mesoporous silica aerogels. The effects of N3300 polyurea aerogels on the vascular system were evaluated by hemolysis, platelet activity, endothelial cell activity, and inflammatory responses. Aerogel morphology was examined using SEM and nano-indentation. Results indicate that N3300 aerogels do not alter blood cell or inflammatory responses and did not absorb proteins. They are compatible with endothelial cells. Overall, N3300 aerogels share similar biocompatibility as X-MP4-T045 aerogels but changes were observed in gel morphology. Therefore, N3300 aerogels may be suitable for various cardiovascular applications.",

keywords = "Biocompatibility, blood implantable device, polyurea aerogels, relaxation modulus",

author = "Wei Yin and Hongbing Lu and Nicholas Leventis and Rubenstein, \{David A.\}",

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doi = "10.1080/00914037.2012.698339",

language = "English",

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Characterization of the biocompatibility and mechanical properties of polyurea organic aerogels with the vascular system: Potential as a blood implantable material. / Yin, Wei; Lu, Hongbing; Leventis, Nicholas et al.
In: International Journal of Polymeric Materials and Polymeric Biomaterials, Vol. 62, No. 2, 31.01.2013, p. 109-118.

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

TY - JOUR

T1 - Characterization of the biocompatibility and mechanical properties of polyurea organic aerogels with the vascular system

T2 - Potential as a blood implantable material

AU - Yin, Wei

AU - Lu, Hongbing

AU - Leventis, Nicholas

AU - Rubenstein, David A.

PY - 2013/1/31

Y1 - 2013/1/31

N2 - Our goal was to compare the biocompatibility of Desmodur N3300-derived polyurea aerogels to that of X-MP4-T045 templated mesoporous silica aerogels. The effects of N3300 polyurea aerogels on the vascular system were evaluated by hemolysis, platelet activity, endothelial cell activity, and inflammatory responses. Aerogel morphology was examined using SEM and nano-indentation. Results indicate that N3300 aerogels do not alter blood cell or inflammatory responses and did not absorb proteins. They are compatible with endothelial cells. Overall, N3300 aerogels share similar biocompatibility as X-MP4-T045 aerogels but changes were observed in gel morphology. Therefore, N3300 aerogels may be suitable for various cardiovascular applications.

AB - Our goal was to compare the biocompatibility of Desmodur N3300-derived polyurea aerogels to that of X-MP4-T045 templated mesoporous silica aerogels. The effects of N3300 polyurea aerogels on the vascular system were evaluated by hemolysis, platelet activity, endothelial cell activity, and inflammatory responses. Aerogel morphology was examined using SEM and nano-indentation. Results indicate that N3300 aerogels do not alter blood cell or inflammatory responses and did not absorb proteins. They are compatible with endothelial cells. Overall, N3300 aerogels share similar biocompatibility as X-MP4-T045 aerogels but changes were observed in gel morphology. Therefore, N3300 aerogels may be suitable for various cardiovascular applications.

KW - Biocompatibility

KW - blood implantable device

KW - polyurea aerogels

KW - relaxation modulus

UR - https://www.scopus.com/pages/publications/84872875785

U2 - 10.1080/00914037.2012.698339

DO - 10.1080/00914037.2012.698339

M3 - Article

AN - SCOPUS:84872875785

SN - 0091-4037

VL - 62

SP - 109

EP - 118

JO - International Journal of Polymeric Materials and Polymeric Biomaterials

JF - International Journal of Polymeric Materials and Polymeric Biomaterials

IS - 2

ER -

Characterization of the biocompatibility and mechanical properties of polyurea organic aerogels with the vascular system: Potential as a blood implantable material

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Keywords

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