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Results: 1 to 20 of 136

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1.

Use of a special bioreactor for the cultivation of a new flexible polyurethane scaffold for aortic valve tissue engineering.

Aleksieva G, Hollweck T, Thierfelder N, Haas U, Koenig F, Fano C, Dauner M, Wintermantel E, Reichart B, Schmitz C, Akra B.

Biomed Eng Online. 2012 Dec 4;11:92. doi: 10.1186/1475-925X-11-92.

2.

Assessment of Parylene C Thin Films for Heart Valve Tissue Engineering.

Marei I, Chester A, Carubelli I, Prodromakis T, Trantidou T, Yacoub MH.

Tissue Eng Part A. 2015 Jun 23. [Epub ahead of print]

PMID:
26101808
3.

A triphasic constrained mixture model of engineered tissue formation under in vitro dynamic mechanical conditioning.

Soares JS, Sacks MS.

Biomech Model Mechanobiol. 2015 Jun 9. [Epub ahead of print]

PMID:
26055347
4.

Development of a Bioreactor to Culture Tissue Engineered Ureters Based on the Application of Tubular OPTIMAIX 3D Scaffolds.

Seifarth V, Gossmann M, Janke HP, Grosse JO, Becker C, Heschel I, Artmann GM, Temiz Artmann A.

Urol Int. 2015 Jan 29. [Epub ahead of print]

PMID:
25633970
5.

Lectin and antibody-based histochemical techniques for cardiovascular tissue engineering.

Simionescu A, Tedder ME, Chuang TH, Simionescu DT.

J Histotechnol. 2011 Mar;34(1):20-28.

6.

A review of: application of synthetic scaffold in tissue engineering heart valves.

Fallahiarezoudar E, Ahmadipourroudposht M, Idris A, Mohd Yusof N.

Mater Sci Eng C Mater Biol Appl. 2015 Mar;48:556-65. doi: 10.1016/j.msec.2014.12.016. Epub 2014 Dec 9.

PMID:
25579957
7.

Suitability of the rat subdermal model for tissue engineering of heart valves.

Christ T, Dohmen PM, Holinski S, Schönau M, Heinze G, Konertz W.

Med Sci Monit Basic Res. 2014 Dec 10;20:194-9. doi: 10.12659/MSMBR.893088.

8.

Tissue-engineered heart valve with a tubular leaflet design for minimally invasive transcatheter implantation.

Moreira R, Velz T, Alves N, Gesche VN, Malischewski A, Schmitz-Rode T, Frese J, Jockenhoevel S, Mela P.

Tissue Eng Part C Methods. 2015 Jun;21(6):530-40. doi: 10.1089/ten.TEC.2014.0214. Epub 2014 Dec 19.

9.

A novel bioreactor for mechanobiological studies of engineered heart valve tissue formation under pulmonary arterial physiological flow conditions.

Ramaswamy S, Boronyak SM, Le T, Holmes A, Sotiropoulos F, Sacks MS.

J Biomech Eng. 2014 Dec;136(12):121009. doi: 10.1115/1.4028815.

PMID:
25321615
10.

Computational simulations predict a key role for oscillatory fluid shear stress in de novo valvular tissue formation.

Salinas M, Ramaswamy S.

J Biomech. 2014 Nov 7;47(14):3517-23. doi: 10.1016/j.jbiomech.2014.08.028. Epub 2014 Sep 16.

PMID:
25262874
11.

Magnetically guided recellularization of decellularized stented porcine pericardium-derived aortic valve for TAVI.

Ghodsizad A, Bordel V, Wiedensohler H, Elbanayosy A, Koerner MM, Gonzalez Berjon JM, Barrios R, Farag M, Zeriouh M, Loebe M, Noon GP, Koegler G, Karck M, Ruhparwar A.

ASAIO J. 2014 Sep-Oct;60(5):582-6. doi: 10.1097/MAT.0000000000000110.

PMID:
25000385
12.

A novel pulsatile bioreactor for mechanical stimulation of tissue engineered cardiac constructs.

Hollweck T, Akra B, Häussler S, Uberfuhr P, Schmitz C, Pfeifer S, Eblenkamp M, Wintermantel E, Eissner G.

J Funct Biomater. 2011 Jul 20;2(3):107-18. doi: 10.3390/jfb2030107.

13.

A Pulsatile Bioreactor for Conditioning of Tissue-Engineered Cardiovascular Constructs under Endoscopic Visualization.

König F, Hollweck T, Pfeifer S, Reichart B, Wintermantel E, Hagl C, Akra B.

J Funct Biomater. 2012 Jul 19;3(3):480-96. doi: 10.3390/jfb3030480.

14.

Effects of shear stress pattern and magnitude on mesenchymal transformation and invasion of aortic valve endothelial cells.

Mahler GJ, Frendl CM, Cao Q, Butcher JT.

Biotechnol Bioeng. 2014 Nov;111(11):2326-37. doi: 10.1002/bit.25291. Epub 2014 Aug 5.

15.

Design and testing of a cyclic stretch and flexure bioreactor for evaluating engineered heart valve tissues based on poly(glycerol sebacate) scaffolds.

Masoumi N, Howell MC, Johnson KL, Niesslein MJ, Gerber G, Engelmayr GC Jr.

Proc Inst Mech Eng H. 2014 Jun 4;228(6):576-586. [Epub ahead of print]

PMID:
24898445
16.

Modeling the Role of Oscillator Flow and Dynamic Mechanical Conditioning on Dense Connective Tissue Formation in Mesenchymal Stem Cell-Derived Heart Valve Tissue Engineering.

Soares JS, B Le T, Sotiropoulos F, S Sacks M.

J Med Device. 2013 Dec;7(4):0409271-409272. Epub 2013 Dec 5. No abstract available.

17.

In vitro generation of atrioventricular heart valve neoscaffolds.

Weymann A, Radovits T, Schmack B, Li S, Korkmaz S, Soós P, Istók R, Veres G, Chaimow N, Karck M, Szabó G.

Artif Organs. 2014 Jul;38(7):E118-28. doi: 10.1111/aor.12321. Epub 2014 May 20.

PMID:
24842040
18.

Progress in developing a living human tissue-engineered tri-leaflet heart valve assembled from tissue produced by the self-assembly approach.

Dubé J, Bourget JM, Gauvin R, Lafrance H, Roberge CJ, Auger FA, Germain L.

Acta Biomater. 2014 Aug;10(8):3563-70. doi: 10.1016/j.actbio.2014.04.033. Epub 2014 May 6.

PMID:
24813743
19.

Quantifying the bioadhesive properties of surface-modified polyurethane-urea nanoparticles in the vascular network.

Melgar-Lesmes P, Morral-Ruíz G, Solans C, García-Celma MJ.

Colloids Surf B Biointerfaces. 2014 Jun 1;118:280-8. doi: 10.1016/j.colsurfb.2014.03.041. Epub 2014 Apr 18.

PMID:
24802966
20.

TexMi: development of tissue-engineered textile-reinforced mitral valve prosthesis.

Moreira R, Gesche VN, Hurtado-Aguilar LG, Schmitz-Rode T, Frese J, Jockenhoevel S, Mela P.

Tissue Eng Part C Methods. 2014 Sep;20(9):741-8. doi: 10.1089/ten.tec.2013.0426. Epub 2014 Mar 25.

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