doi: 10.1371/journal.pone.0155681.
eCollection 2016.
A Tubular Biomaterial Construct Exhibiting a Negative Poisson's Ratio
Affiliations
- PMID: 27232181
- PMCID: PMC4883790
- DOI: 10.1371/journal.pone.0155681
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A Tubular Biomaterial Construct Exhibiting a Negative Poisson's Ratio
PLoS One.
.
Abstract
Developing functional small-diameter vascular grafts is an important objective in tissue engineering research. In this study, we address the problem of compliance mismatch by designing and developing a 3D tubular construct that has a negative Poisson's ratio νxy (NPR). NPR constructs have the unique ability to expand transversely when pulled axially, thereby resulting in a highly-compliant tubular construct. In this work, we used projection stereolithography to 3D-print a planar NPR sheet composed of photosensitive poly(ethylene) glycol diacrylate biomaterial. We used a step-lithography exposure and a stitch process to scale up the projection printing process, and used the cut-missing rib unit design to develop a centimeter-scale NPR sheet, which was rolled up to form a tubular construct. The constructs had Poisson's ratios of -0.6 ≤ νxy ≤ -0.1. The NPR construct also supports higher cellular adhesion than does the construct that has positive νxy. Our NPR design offers a significant advance in the development of highly-compliant vascular grafts.
Conflict of interest statement
Figures
The walls of the unit-cells (denoted as ribs) are approximately 40 micrometers wide and 100 micrometers deep.
A) PPR construct having intact rib unit-cells. B) NPR construct with cut-missing rib unit-cells.
(Three strain-dependent experiments were performed for each type of construct; each strain test was conducted with a different construct. Dark blue: test 1; orange: test 2; green: test 3; red: average of NPR constructs; blue: average of PPR constructs. Circles: NPR constructs; squares, PPR constructs. Dotted red lines: logarithmic fits to the average of NPR constructs; Dotted blue lines: logarithmic fits to the average of PPR constructs.)
A) a PPR construct showing a radial contraction and B) an NPR construct demonstrating a radial expansion in the tubular construct.
(Large blue-color square: simulation result at PPR construct, Large red-color circle: simulation result at NPR construct, small blue-color square: experiment result at PPR construct, small red-color circle: experiment result at NPR construct.)
A) ~ C) Cut-missing rib (NPR) construct, D) ~ F) Intact rib (PPR) construct.
Bars: 1 S.D., n = 6. Asterisks: columns below line are significantly different (p < 0.05)
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References
-
- Ounpuu S, Anand S, Yusuf S. The impending global epidemic of cardiovascular diseases. Eur Heart J. 2000; 21: 880–883. - PubMed
-
- Perler BA. Cost-efficacy issues in the treatment of peripheral vascular disease: primary amputation or revascularisation for limb-threatening ischemia. J Vasc Interv Radiol. 1995; 6: 111S–115S. - PubMed
-
- Association AH. Biostatistical factsheet: cardiovascular procedures. American Heart Association, 2003.
-
- Conte MS. The ideal small arterial substitute: a search for the Holy Grail. FASEB J. 1998; 12: 43–45. - PubMed
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