Cellular Model Based on Laser Microsurgery of Cell Spheroids to Study the Repair Process
Kosheleva, N.V.; Ilina, I.V.; Kozhina, K.V.; Zurina, I.M.; Roskova, A.E.; Gorkun, A.A.; Ovchinnikov, A.V.; Agranat, M.B.; Morozov, S.G.; Saburina, I.N.
Ontogenez 48(1): 63-72
2017
ISSN/ISBN: 0475-1450 PMID: 30277222 Accession: 065722438
In this study, modern techniques of laser microsurgery of cell spheroids have been used to develop
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Related References
Kosheleva, N.V.,Ilina, I.V.,Kozhina, K.V.… 2017: Cellular model based on laser microsurgery of cell spheroids to study the repair process Russian Journal of Developmental Biology 48(1): 56-64Korner, I.J.; Kopp, J.; Malz, W. 1978: Radiation biological investigations with multi cellular spheroids as an in vitro tumor model part 2 cell contact modeled by small multi cellular spheroids enhances cell survival and dna single strand break rejoining Studia Biophysica 68(2): 161-162
Kopp, J. 1978: Radiation biological investigations with multi cellular spheroids as an in vitro tumor model part 3 comparative investigations of single cell survival after irradiation of v 79 4 multi cellular spheroids with x rays or fast neutrons Studia Biophysica 70(2): 161-162
Kopp, J. 1978: Radiation biological investigations with multi cellular spheroids as an in vitro tumor model part 1 growth of multi cellular spheroids Studia Biophysica 68(2): 159-160
Kopp, J.; Rakow, A. 1982: Multi cellular spheroids as in vitro model for the investigation of cell cell interaction Studia Biophysica 90: 239-240
Kopp, J. 1978: Radiation biological investigations with multi cellular spheroids as an in vitro tumor model part 4 comparative investigations of volume changes and re population of intact v 79 4 multi cellular spheroids after irradiation with x rays or fast neutrons Studia Biophysica 71(3): 207-208
Rakow, A. 1981: Multi cellular spheroids as an in vitro model for investigation of cell cell interaction tumor irradiation response and possibly of the mechanism of metastasization Studia Biophysica: 77-78
Handschack, W. 1981: Radiation biological investigations with multi cellular spheroids as an in vitro tumor model 9. estimation of dna double strand break rates of spheroid cells after x ray irradiation of spheroids Studia Biophysica 85(2): 125-129
Erzgraeber, G.; Kopp, J.; Abel, H. 1979: Radiation biological investigations with multi cellular spheroids as an in vitro tumor model 8. comparative investigations of the growth behavior of v 79 4 multi cellular spheroids after irradiation with cesium gamma rays x rays fast neutrons negative pions and heavy ions Studia Biophysica 75(1): 53-58
Ansari, N.; Müller, S.; Stelzer, E.H.K.; Pampaloni, F. 2013: Quantitative 3D cell-based assay performed with cellular spheroids and fluorescence microscopy Methods in Cell Biology 113: 295-309
Stuschke, M.; Budach, V.; Budach, W.; Dinges, S.; Sack, H.; Streffer, C.; Groneberg, M. 1992: Comparison of radioresponsiveness and capacity of sublethal damage repair of three human tumor cell lines in the xenograft model and as spheroids in vitro Fiebig, H H, Berger, D P Contributions to Oncology; Immunodeficient mice in oncology: 539-541
Song, L.; Yuan, X.; Jones, Z.; Griffin, K.; Zhou, Y.; Ma, T.; Li, Y. 2019: Assembly of Human Stem Cell-Derived Cortical Spheroids and Vascular Spheroids to Model 3-D Brain-like Tissues Scientific Reports 9(1): 5977
Hsu, S.-H.; Hsieh, P.-S. 2015: Self-assembled adult adipose-derived stem cell spheroids combined with biomaterials promote wound healing in a rat skin repair model Wound Repair and Regeneration: Official Publication of the Wound Healing Society and the European Tissue Repair Society 23(1): 57-64
Kim, C. 2015: Droplet-based microfluidics for making uniform-sized cellular spheroids in alginate beads with the regulation of encapsulated cell number BioChip Journal 9(2): 105-113
Quinto-Su, P.A.; Venugopalan, V. 2007: Mechanisms of laser cellular microsurgery Methods in Cell Biology 82: 113-151
Tadir, Y. 1990: From pelvic to cellular laser microsurgery Human Reproduction 5(Suppl): 63-64
Kosheleva, N.V.; Ilina, I.V.; Zurina, I.M.; Roskova, A.E.; Gorkun, A.A.; Ovchinnikov, A.V.; Agranat, M.B.; Saburina, I.N. 2016: Laser-based technique for controlled damage of mesenchymal cell spheroids: a first step in studying reparation in vitro Biology Open 5(7): 993-1000
Lauder, H.; Frost, E.E.; Hiley, C.R.; Fan, T.P. 1998: Quantification of the repair process involved in the repair of a cell monolayer using an in vitro model of mechanical injury Angiogenesis 2(1): 67-80
Palanker, D.; Ohad, S.; Lewis, A.; Simon, A.; Shenkar, J.; Penchas, S.; Laufer, N. 1991: Technique for cellular microsurgery using the 193-nm excimer laser Lasers in Surgery and Medicine 11(6): 580-586
Sawahel, W.A. 1996: Plant molecular and cellular laser microsurgery World Journal of Microbiology and Biotechnology 12(6): 561-565