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Items: 15

1.

Tissue-engineered transcatheter vein valve.

Syedain ZH, Jenson AC, Patel PS, Feagler C, Bahmer L, Faizer R, Tranquillo RT.

Biomaterials. 2019 Sep;216:119229. doi: 10.1016/j.biomaterials.2019.119229. Epub 2019 May 31.

PMID:
31195302
2.

A completely biological "off-the-shelf" arteriovenous graft that recellularizes in baboons.

Syedain ZH, Graham ML, Dunn TB, O'Brien T, Johnson SL, Schumacher RJ, Tranquillo RT.

Sci Transl Med. 2017 Nov 1;9(414). pii: eaan4209. doi: 10.1126/scitranslmed.aan4209.

PMID:
29093182
3.

In Vitro Evaluation of a Device for Intra-Pulmonary Aerosol Generation and Delivery.

Syedain ZH, Naqwi AA, Dolovich M, Somani A.

Aerosol Sci Technol. 2015 Sep 1;49(9):747-752. Epub 2015 Jul 6.

4.

Pediatric tubular pulmonary heart valve from decellularized engineered tissue tubes.

Reimer JM, Syedain ZH, Haynie BH, Tranquillo RT.

Biomaterials. 2015 Sep;62:88-94. doi: 10.1016/j.biomaterials.2015.05.009. Epub 2015 May 16.

5.

Blood outgrowth endothelial cells alter remodeling of completely biological engineered grafts implanted into the sheep femoral artery.

Meier LA, Syedain ZH, Lahti MT, Johnson SS, Chen MH, Hebbel RP, Tranquillo RT.

J Cardiovasc Transl Res. 2014 Mar;7(2):242-9. doi: 10.1007/s12265-013-9539-z. Epub 2014 Jan 16.

6.

Implantation of completely biological engineered grafts following decellularization into the sheep femoral artery.

Syedain ZH, Meier LA, Lahti MT, Johnson SL, Tranquillo RT.

Tissue Eng Part A. 2014 Jun;20(11-12):1726-34. doi: 10.1089/ten.TEA.2013.0550. Epub 2014 Feb 25.

7.

Tubular heart valves from decellularized engineered tissue.

Syedain ZH, Meier LA, Reimer JM, Tranquillo RT.

Ann Biomed Eng. 2013 Dec;41(12):2645-54. doi: 10.1007/s10439-013-0872-9. Epub 2013 Jul 30.

8.

Decellularized tissue-engineered heart valve leaflets with recellularization potential.

Syedain ZH, Bradee AR, Kren S, Taylor DA, Tranquillo RT.

Tissue Eng Part A. 2013 Mar;19(5-6):759-69. doi: 10.1089/ten.TEA.2012.0365. Epub 2012 Dec 10.

9.

Hypoxic culture and insulin yield improvements to fibrin-based engineered tissue.

Bjork JW, Meier LA, Johnson SL, Syedain ZH, Tranquillo RT.

Tissue Eng Part A. 2012 Apr;18(7-8):785-95. doi: 10.1089/ten.TEA.2011.0017. Epub 2011 Dec 5.

10.

TGF-β1 diminishes collagen production during long-term cyclic stretching of engineered connective tissue: implication of decreased ERK signaling.

Syedain ZH, Tranquillo RT.

J Biomech. 2011 Mar 15;44(5):848-55. doi: 10.1016/j.jbiomech.2010.12.007. Epub 2011 Jan 20.

11.

Implantable arterial grafts from human fibroblasts and fibrin using a multi-graft pulsed flow-stretch bioreactor with noninvasive strength monitoring.

Syedain ZH, Meier LA, Bjork JW, Lee A, Tranquillo RT.

Biomaterials. 2011 Jan;32(3):714-22. doi: 10.1016/j.biomaterials.2010.09.019. Epub 2010 Oct 8.

12.

Controlled compaction with ruthenium-catalyzed photochemical cross-linking of fibrin-based engineered connective tissue.

Syedain ZH, Bjork J, Sando L, Tranquillo RT.

Biomaterials. 2009 Dec;30(35):6695-701. doi: 10.1016/j.biomaterials.2009.08.039. Epub 2009 Sep 25.

13.

Controlled cyclic stretch bioreactor for tissue-engineered heart valves.

Syedain ZH, Tranquillo RT.

Biomaterials. 2009 Sep;30(25):4078-84. doi: 10.1016/j.biomaterials.2009.04.027. Epub 2009 May 26.

14.

Cyclic distension of fibrin-based tissue constructs: evidence of adaptation during growth of engineered connective tissue.

Syedain ZH, Weinberg JS, Tranquillo RT.

Proc Natl Acad Sci U S A. 2008 May 6;105(18):6537-42. doi: 10.1073/pnas.0711217105. Epub 2008 Apr 24.

15.

Protein fouling of virus filtration membranes: effects of membrane orientation and operating conditions.

Syedain ZH, Bohonak DM, Zydney AL.

Biotechnol Prog. 2006 Jul-Aug;22(4):1163-9.

PMID:
16889394

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