Laser printing of skin cells and human stem cells

Tissue Engineering - Part C: Methods

Volumn 16, Issue 5, 2010, Pages 847-854

  Koch, Lothar ^a   Kuhn, Stefanie ^b   Sorg, Heiko ^b,c   Gruene, Martin ^a   Schlie, Sabrina ^a   Gaebel, Ralf ^c   Polchow, Bianca ^c   Reimers, Kerstin ^b   Stoelting, Stephanie ^c   Ma, Nan ^c   Vogt, Peter M ^b   Steinhoff, Gustav ^c   Chichkov, Boris ^a  

^a LASER ZENTRUM HANNOVER E V   (Germany)

^b HANNOVER MEDICAL SCHOOL   (Germany)

^c UNIVERSITY OF ROSTOCK   (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

BIOLOGICAL MATERIALS; CELL CULTURE; CELL DEATH; CELL MEMBRANES; COMPUTER CONTROL SYSTEMS; DAMAGE DETECTION; DNA; GENES; PRINTING; PRINTING PRESSES;

APOPTOSIS; APOPTOTIC ACTIVITY; BIOFABRICATION; CELL LINES; CELL SURFACE MARKER; CELL TYPES; DNA DAMAGES; DNA FRAGMENTATION; EX-VIVO; FLUORESCENCE ACTIVATED CELL SORTING; FUTURE APPLICATIONS; HIGH POTENTIAL; HUMAN MESENCHYMAL STEM CELLS; HUMAN SKIN; LASER PRINTING; LASER-INDUCED FORWARD TRANSFER; LIVING CELL; NEW APPLICATIONS; STANDARD ERROR OF THE MEANS; STEM CELL THERAPY; SURVIVAL RATE; TISSUE REPLACEMENT;

STEM CELLS;

ANIMAL; APOPTOSIS; ARTICLE; CELL SEPARATION; CELL STRAIN 3T3; CYTOLOGY; DNA FRAGMENTATION; FLOW CYTOMETRY; HUMAN; LASER; MESENCHYMAL STEM CELL; MOUSE; SKIN;

ANIMALS; APOPTOSIS; CELL SEPARATION; DNA FRAGMENTATION; FLOW CYTOMETRY; HUMANS; LASERS; MESENCHYMAL STEM CELLS; MICE; NIH 3T3 CELLS; SKIN;

EID: 77957358891     PISSN: 19373384     EISSN: 19373392     Source Type: Journal    
DOI: 10.1089/ten.tec.2009.0397     Document Type: Article

References (30)

1. MacNeil, S. Progress and opportunities for tissue-engineered skin. Nature 445, 874, 2007.
2. Summer, R., and Fine, A. Mesenchymal progenitor cell research: limitations and recommendations. Proc Am Thorac Soc 5, 707, 2008.
3. Ng, K.W., and Hutmacher, D.W. Reduced contraction of skin equivalent engineered using cell sheets cultured in 3D matrices. Biomaterials 27, 4591, 2006.
4. Nakamura, M., Kobayashi, A., Takagi, F., Watanebe, A., Hiruma, Y., Ohuchi, K., Iwasaki, Y., Horie M., Morita, I., and Takatani, S. Biocompatible inkjet printing technique for designed seeding of individual living cells. Tissue Eng 11, 1658, 2005.
5. Cooley, P., Wallace, D., and Antohe, B. Applications of inkjet printing technology to BioMEMS and microfluidic systems. JALA Charlottesv Va 7, 33, 2002.
6. Nakamura, M., Nishiyama, Y., and Henmi, C. 3D mircofabrication by inkjet 3D biofabrication for 3D tissue engineering. In: Micro-NanoMechatronics and Human Science. Piscataway, NJ: IEEE, 2008, p. 7.
7. Arnold, C.B., Serra, P., and Piqué, A. Laser direct-write techniques for printing of complex materials. MRS Bull 32, 23, 2007.
8. Schiele, N.R., Koppes, R.A., Corr, D.T., Ellison, K.S., Thompson, D.M., Ligon, L.A., Lippert, T.K.M., and Chrisey, D.B. Laser direct writing of combinatorial libraries of idealized cellular constructs: biomedical applications. Appl Surf Sci 255, 5444, 2009A.
9. Alper, J. Biology and the inkjets. Science 305, 1895, 2004C.
10. Calvert, P. Printing cells. Science 318, 208, 2007W.
11. Wilson, W.C., and Boland, T. Cell and organ printing 1: protein and cell printers. Anat Rec Part A 272A, 491, 2003S.
12. Sun, W., Starly, B., Darling, A., and Gomez, C. Computeraided tissue engineering: application to biomimetic modeling and design of tissue scaffolds. Biotechnol Appl Biochem 39, 49, 2004B.
13. Born, C., Zhang, Z., Al-Rubeai, M., and Thomas, C.R. Estimation of disruption of animal cells by laminar shear stress. Biotechnol Bioeng 40, 1004, 1992.
14. Fedorovich, N.E., Alblas, J., De Wijn, J.R., Hennink, W.E., Verbout, A.J., and Ddhert, W.J.A. Hydrogels as extracellular matrices for skeletal tissue engineering: state-of-the-art and novel application in organ printing. Tissue Eng 13, 1905, 2007.
15. Hopp, B., Smausz, T., Antal, Zs., Kresz, N., Bor, Zs., and Chrisey, D. Absorbing film assisted laser induced forward transfer of fungi. J Appl Phys 96, 3478, 2004.
16. Hopp, B., Smausz, T., Kresz, N., Barna, N., Bor, Z., Kolozsva ́ ri, L., Chrisey, D., Szabó, A., and Nó gradi, A. Survival and proliferative ability of various living cell types after laser-induced forward transfer. Tissue Eng 11, 1817, 2005.
17. Barron, J.A., Spargo, B.J., and Ringeisen, B.R. Biological laser printing of three dimensional cellular structures. Appl Phys A 79, 1027, 2004.
18. Ringeisen, B.R., Kim, H., Barron, J.A., Krizman, D.B., Chrisey, D.B., Jackman, S., Auyeung, R.Y.C., and Spargo, B.J. Laser printing of pluripotent embryonal carcinoma cells. Tissue Eng 10, 483, 2004.
19. Doraiswamy, A., Narayan, R.J., Lippert, T., Urecht, L., Wokaun, A., Nagel, M., Hopp, B., Dinescu, M., Modi, R., Auyeung, R.C.Y., and Chrisey, D.B. Eximer laser forward transfer of mammalian cells using a novel triazene absorbing layer. Appl Surf Sci 252, 4743, 2006.
20. Barron, J.A., Wu, P., Ladouceur, H.D., and Ringeisen, B.R. Biological Laser Printing: A novel technique for creating heterogeneous 3-dimensional cell patterns. Biomed Microdevices 6, 139, 2004.
21. Othon, C.M., Wu, X., Anders, J.J., and Ringeisen, B.R. Singlecell printing to form three-dimensional lines of olfactory ensheathing cells. Biomed Mater 3, 1, 2008.
22. Schlie, S., Ngezahayo, A., Ovsianikov, A., Fabian, T., Kolb, H.A., Haferkamp, H., and Chichkov, B.N. Three-dimensional cell growth on structures fabricated from ORMOCER- by two-photon polymerisation technique. J Biomater Appl 22, 275, 2007.
23. Vogt, P.M., Kolokythas, P., Niederbichler, A., Knobloch, K., Reimers, K., and Choi, C.Y. Innovative Wundtherapie und Hautersatz bei Verbrennungen. Chirurg 78, 335, 2007.
24. Supp, D., and Boyce, S.T. Engineered skin substitutes: practices and potentials. Clin Dermatol 23, 403, 2005.
25. Singer, A.J., and Clark, R.A.F. Cutaneous wound healing. N Engl J Med 341, 738, 1999.
26. Boorboor, P., Vogt, P.M., Bechara, F.G., Alkandari, Q., Aust, M., Gohritz, A., and Spies, M. Toxic epidermal necrolysis: use of Biobrane or skin coverage reduces pain, improves mobilisation and decreases infection in elderly patients. Burns 34, 487, 2008.
27. Nie, X., Zhang, J.Y., Cai, K.J., Yang, M.H., Xiao, A.H., Da Hu, H., Liu, L.Y., Wang, H.J., Wen, N., and Jin, Y. Cosmetic improvement in various acute skin defects treated with tissue-engineered skin. Artif Organs 31, 703, 2007.
28. Lal, S., Barrow, R.E., Wolf, S.E., Chinkes, D.L., Hart, D.W., Heggers, J.P., and Herndon, D.N. Biobrane improves wound healing in burned children without increased risk of infection. Shock 14, 314, 2000.
29. Pittenger, M.F., Mackay, A.M., Beck, S.C., Jaiswal, R.K., Douglas, R., Mosca, J.D., Moorman, M.A., Simonetti, D.W., Craig, S., and Marshak, D.R. Multilineage potential of adult human mesenchymal stem cells. Science 284, 143, 1999.
30. Porada, C.D., Zanjani, E.D., and Almeida-Porad, G. Adult mesenchymal stem cells: a pluripotent population with multiple applications. Curr Stem Cell Res Ther 1, 365, 2006.