A 3D bioprinted complex structure for engineering the muscle-tendon unit

Biofabrication

Volumn 7, Issue 3, 2015, Pages

  Merceron, Tyler K ^a,b   Burt, Morgan ^a   Seol, Young Joon ^a   Kang, Hyun Wook ^a   Lee, Sang Jin ^a   Yoo, James J ^a   Atala, Anthony ^a  

^a WAKE FOREST SCHOOL OF MEDICINE   (United States)

^b VANDERBILT UNIVERSITY SCHOOL OF MEDICINE   (United States)

Author keywords

biomaterials; bioprinting; interface; muscletendon unit; tissue engineering

Indexed keywords

3D PRINTERS; BIOMATERIALS; BIOMECHANICS; CELLS; CYTOLOGY; HISTOLOGY; HYDROGELS; INTERFACES (MATERIALS); MECHANICAL PROPERTIES; MUSCLE; MUSCULOSKELETAL SYSTEM; PRINTING; TISSUE; TISSUE ENGINEERING;

BIOPRINTING; FUNCTIONAL PROPERTIES; MECHANICAL CHARACTERISTICS; MUSCLE DEVELOPMENT; MUSCLETENDON UNIT; REGIONAL DIFFERENCES; THERMOPLASTIC POLYURETHANES; TISSUE DEVELOPMENT;

TENDONS;

EID: 84945206002     PISSN: 17585082     EISSN: 17585090     Source Type: Journal    
DOI: 10.1088/1758-5090/7/3/035003     Document Type: Article

References (37)

1. Atala A, Bauer S B, Soker S, Yoo J J and Retik A B 2006 Tissue-engineered autologous bladders for patients needing cystoplasty Lancet 367 1241-6
2. Atala A, Kasper F K and Mikos A G 2012 Engineering complex tissues Sci. Transl. Med. 4 160rv12
3. Calve S, Dennis R G, Kosnik P E 2nd, Baar K, Grosh K and Arruda E M 2004 Engineering of functional tendon Tissue Eng. 10 755-61
4. Choi J S, Lee S J, Christ G J, Atala A and Yoo J J 2008 The influence of electrospun aligned poly(epsilon-caprolactone)/collagen nanofiber meshes on the formation of self-aligned skeletal muscle myotubes Biomaterials 29 2899-906
5. Cohen D L, Malone E, Lipson H and Bonassar L J 2006 Direct freeform fabrication of seeded hydrogels in arbitrary geometries Tissue Eng. 12 1325-35
6. Corona B T, Machingal M A, Criswell T, Vadhavkar M, Dannahower A C, Bergman C, Zhao W and Christ G J 2012 Further development of a tissue engineered muscle repair construct in vitro for enhanced functional recovery following implantation in vivo in a murine model of volumetric muscle loss injury Tissue Eng. A 18 1213-28
7. Deng D, Liu W, Xu F, Yang Y, Zhou G, Zhang W J, Cui L and Cao Y 2009 Engineering human neo-tendon tissue in vitro with human dermal fibroblasts under static mechanical strain Biomaterials 30 6724-30
8. Fedorovich N E, DE Wijn J R, Verbout A J, Alblas J and Dhert W J 2008 Three-dimensional fiber deposition of cell-laden, viable, patterned constructs for bone tissue printing Tissue Eng. A 14 127-33
9. Frenette J and Tidball J G 1998 Mechanical loading regulates expression of talin and its mRNA, which are concentrated at myotendinous junctions Am. J. Physiol. 275 C818-25
10. Garvin J, Qi J, Maloney M and Banes A J 2003 Novel system for engineering bioartificial tendons and application of mechanical load Tissue Eng. 9 967-79
11. Goldspink D F, Cox V M, Smith S K, Eaves L A, Osbaldeston N J, Lee D M and Mantle D 1995 Muscle growth in response to mechanical stimuli Am. J. Physiol. 268 E288-97
12. Hall B K and Herring S W 1990 Paralysis and growth of the musculoskeletal system in the embryonic chick J. Morphol. 206 45-56
13. Hutmacher D W, Sittinger M and Risbud M V 2004 Scaffold-based tissue engineering: rationale for computer-aided design and solid free-form fabrication systems Trends Biotechnol. 22 354-62
14. Jarvinen T A, Jozsa L, Kannus P, Jarvinen T L, Hurme T, Kvist M, Pelto-Huikko M, Kalimo H and Jarvinen M 2003 Mechanical loading regulates the expression of tenascin-C in the myotendinous junction and tendon but does not induce de novo synthesis in the skeletal muscle J. Cell Sci. 116 857-66
15. Killian M L, Cavinatto L, Galatz L M and Thomopoulos S 2012 The role of mechanobiology in tendon healing J. Shoulder Elbow Surg. 21 228-37
16. Ladd M, Lee S, Stitzel J, Atala A and Yoo J 2011 Co-electrospun dual scaffolding system with potential for muscle-tendon junction tissue engineering Biomaterials 32 1549-59
17. Langer R and Vacanti J P 1993 Tissue engineering Science 260 920-6
18. Larkin L M, Calve S, Kostrominova T Y and Arruda E M 2006 Structure and functional evaluation of tendon-skeletal muscle constructs engineered in vitro Tissue Eng. 12 3149-58
19. Levenberg S et al 2005 Engineering vascularized skeletal muscle tissue Nat. Biotechnol. 23 879-84
20. Liu W, Chen B, Deng D, Xu F, Cui L and Cao Y 2006 Repair of tendon defect with dermal fibroblast engineered tendon in a porcine model Tissue Eng. 12 775-88
21. Lu H H, Subramony S D, Boushell M K and Zhang X 2010 Tissue engineering strategies for the regeneration of orthopedic interfaces Ann. Biomed. Eng. 38 2142-54
22. Macchiarini P et al 2008 Clinical transplantation of a tissue-engineered airway Lancet 372 2023-30
23. Matsumoto T, Sasaki J, Alsberg E, Egusa H, Yatani H and Sohmura T 2007 Three-dimensional cell and tissue patterning in a strained fibrin gel system PLoS One 2 e1211
24. Melchels F, Domingos M, Klein T, Malda J, Bartolo P and Hutmacher D 2012 Additive manufacturing of tissues and organs Prog. Polym. Sci. 37 1079-104
25. Moon DU G, Christ G, Stitzel J D, Atala A and Yoo J J 2008 Cyclic mechanical preconditioning improves engineered muscle contraction Tissue Eng. A 14 473-82
26. Murphy S V and Atala A 2014 3D bioprinting of tissues and organs Nat. Biotechnol. 32 773-85
27. Orlando G et al 2012 Regenerative medicine as applied to general surgery Ann. Surg. 255 867-80
28. Powell C A, Smiley B L, Mills J and Vandenburgh H H 2002 Mechanical stimulation improves tissue-engineered human skeletal muscle Am. J. Physiol. Cell Physiol. 283 C1557-65
29. Seol Y J, Kang H W, Lee S J, Atala A and Yoo J J 2014 Bioprinting technology and its applications Eur. J. Cardiothorac. Surg. 46 342-8
30. Shim J, Lee J, Kim J and Cho D 2012 Bioprinting of a mechanically enhanced three-dimensional dual cell-laden construct for osteochondral tissue engineering using a multi-head tissue/organ building system J. Micromech. Microeng. 22 085014
31. Shin'oka T, Imai Y and Ikada Y 2001 Transplantation of a tissue-engineered pulmonary artery N. Engl. J. Med. 344 532-3
32. Valentin J, Turner N, Gilbert T and Badylak S 2010 Functional skeletal muscle formation with a biologic scaffold Biomaterials 31 7475-84
33. Vandenburgh H H 1982 Dynamic mechanical orientation of skeletal myofibers in vitro Dev. Biol. 93 438-43
34. Visser J, Peters B, Burger T J, Boomstra J, Dhert W J, Melchels F P and Malda J 2013 Biofabrication of multi-material anatomically shaped tissue constructs Biofabrication 5 035007
35. Wang J H 2006 Mechanobiology of tendon J. Biomech. 39 1563-82
36. Whitlock P W, Smith T L, Poehling G G, Shilt J S and Van Dyke M 2007 A naturally derived, cytocompatible, and architecturally optimized scaffold for tendon and ligament regeneration Biomaterials 28 4321-9
37. Yang P J and Temenoff J S 2009 Engineering orthopedic tissue interfaces Tissue Eng. B 15 127-41