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Items: 1 to 20 of 74

1.

Tissue engineering by cell transplantation using degradable polymer substrates.

Cima LG, Vacanti JP, Vacanti C, Ingber D, Mooney D, Langer R.

J Biomech Eng. 1991 May;113(2):143-51. Review.

PMID:
1652042
2.

Design of synthetic polymeric structures for cell transplantation and tissue engineering.

Cohen S, Baño MC, Cima LG, Allcock HR, Vacanti JP, Vacanti CA, Langer R.

Clin Mater. 1993;13(1-4):3-10.

PMID:
10146238
3.

Biodegradable polymer scaffolds for tissue engineering.

Freed LE, Vunjak-Novakovic G, Biron RJ, Eagles DB, Lesnoy DC, Barlow SK, Langer R.

Biotechnology (N Y). 1994 Jul;12(7):689-93.

PMID:
7764913
4.

Poly(lactide-co-glycolide) microspheres as a moldable scaffold for cartilage tissue engineering.

Mercier NR, Costantino HR, Tracy MA, Bonassar LJ.

Biomaterials. 2005 May;26(14):1945-52.

PMID:
15576168
5.

Scaffolds in tissue engineering bone and cartilage.

Hutmacher DW.

Biomaterials. 2000 Dec;21(24):2529-43.

PMID:
11071603
6.
7.

Survival and function of hepatocytes on a novel three-dimensional synthetic biodegradable polymer scaffold with an intrinsic network of channels.

Kim SS, Utsunomiya H, Koski JA, Wu BM, Cima MJ, Sohn J, Mukai K, Griffith LG, Vacanti JP.

Ann Surg. 1998 Jul;228(1):8-13.

8.

Human polymer-based cartilage grafts for the regeneration of articular cartilage defects.

Endres M, Neumann K, Schröder SE, Vetterlein S, Morawietz L, Ringe J, Sittinger M, Kaps C.

Tissue Cell. 2007 Oct;39(5):293-301. Epub 2007 Aug 3. Erratum in: Tissue Cell. 2008 Jun;40(3):229.

PMID:
17688898
9.

Development of degradable polyesterurethanes for medical applications: in vitro and in vivo evaluations.

Saad B, Hirt TD, Welti M, Uhlschmid GK, Neuenschwander P, Suter UW.

J Biomed Mater Res. 1997 Jul;36(1):65-74.

PMID:
9212390
10.

Selective cell transplantation using bioabsorbable artificial polymers as matrices.

Vacanti JP, Morse MA, Saltzman WM, Domb AJ, Perez-Atayde A, Langer R.

J Pediatr Surg. 1988 Jan;23(1 Pt 2):3-9.

PMID:
2895175
11.

In vitro cartilage tissue engineering with 3D porous aqueous-derived silk scaffolds and mesenchymal stem cells.

Wang Y, Kim UJ, Blasioli DJ, Kim HJ, Kaplan DL.

Biomaterials. 2005 Dec;26(34):7082-94.

PMID:
15985292
12.

Cartilage reconstruction in head and neck surgery: comparison of resorbable polymer scaffolds for tissue engineering of human septal cartilage.

Rotter N, Aigner J, Naumann A, Planck H, Hammer C, Burmester G, Sittinger M.

J Biomed Mater Res. 1998 Dec 5;42(3):347-56.

PMID:
9788496
13.

[Development of novel biomaterials for bone and cartilage tissue engineering].

Kawazoe N, Chen G, Tateishi T.

Clin Calcium. 2008 Dec;18(12):1713-20. doi: CliCa081217131720. Review. Japanese.

PMID:
19043184
14.

Cell transplantation as replacement therapy for the future.

Asonuma K, Vacanti JP.

Crit Care Nurs Clin North Am. 1992 Jun;4(2):249-54. Review.

PMID:
1599646
15.

Cartilage engineered in predetermined shapes employing cell transplantation on synthetic biodegradable polymers.

Kim WS, Vacanti JP, Cima L, Mooney D, Upton J, Puelacher WC, Vacanti CA.

Plast Reconstr Surg. 1994 Aug;94(2):233-7; discussion 238-40.

PMID:
8041813
16.

Decreased fibroblast cell density on chemically degraded poly-lactic-co-glycolic acid, polyurethane, and polycaprolactone.

Vance RJ, Miller DC, Thapa A, Haberstroh KM, Webster TJ.

Biomaterials. 2004 May;25(11):2095-103.

PMID:
14741624
17.

The living shunt: a tissue engineering approach in the treatment of hydrocephalus.

Lee IW, Vacanti JP, Taylor GA, Madsen JR.

Neurol Res. 2000 Jan;22(1):105-10.

PMID:
10672587
18.

Engineering of cartilage tissue using bioresorbable polymer carriers in perfusion culture.

Sittinger M, Bujia J, Minuth WW, Hammer C, Burmester GR.

Biomaterials. 1994 May;15(6):451-6.

PMID:
8080936
19.

Comparative study of the use of poly(glycolic acid), calcium alginate and pluronics in the engineering of autologous porcine cartilage.

Cao Y, Rodriguez A, Vacanti M, Ibarra C, Arevalo C, Vacanti CA.

J Biomater Sci Polym Ed. 1998;9(5):475-87.

PMID:
9648028
20.

Cartilage regeneration using mesenchymal stem cells and a three-dimensional poly-lactic-glycolic acid (PLGA) scaffold.

Uematsu K, Hattori K, Ishimoto Y, Yamauchi J, Habata T, Takakura Y, Ohgushi H, Fukuchi T, Sato M.

Biomaterials. 2005 Jul;26(20):4273-9.

PMID:
15683651

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