This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
AGGARWAL BB, DANDA D, GUPTA S, GEHLOT P. Models for prevention and treatment of cancer: Problems vs promises. Biochemical Pharmacology, 2009;78(9):1083–1094.AGGARWALBBDANDADGUPTASGEHLOTPModels for prevention and treatment of cancer: Problems vs promises200978910831094Search in Google Scholar
AMELIAN A, WASILEWSKA K, MEGIAS D, WINNICKA K. Application of standard cell cultures and 3D in vitro tissue models as an effective tool in drug design and development. Pharmacological Reports, 2017; 69(5):861–870.AMELIANAWASILEWSKAKMEGIASDWINNICKAKApplication of standard cell cultures and 3D in vitro tissue models as an effective tool in drug design and development2017695861870Search in Google Scholar
BAKER BM, CHEN CS. Deconstructing the third dimension – how 3D culture microenvironments alter cellular cues. Journal of Cell Science, 2012;125(13):3015–3024.BAKERBMCHENCSDeconstructing the third dimension – how 3D culture microenvironments alter cellular cues20121251330153024Search in Google Scholar
BRESLIN S, O’DRISCOLL L. Three-dimensional cell culture: the missing link in drug discovery. Drug Discovery Today, 2013;18(5–6):240–249.BRESLINSO’DRISCOLLLThree-dimensional cell culture: the missing link in drug discovery2013185–6240249Search in Google Scholar
COSTA EC, DE MELO-DIOGO D, MOREIRA AF, CARVALHO MP, CORREIA IJ. Spheroids Formation on Non-Adhesive Surfaces by Liquid Overlay Technique: Considerations and Practical Approaches. Biotechnology Journal, 2017;13(1).COSTAECDE MELO-DIOGODMOREIRAAFCARVALHOMPCORREIAIJSpheroids Formation on Non-Adhesive Surfaces by Liquid Overlay Technique: Considerations and Practical Approaches2017131Search in Google Scholar
COSTA EC, GASPAR VM, COUTINHO P, CORREIA IJ. Optimization of liquid overlay technique to formulate heterogenic 3D co-cultures models. Biotechnology and Bioengineering, 2014;111(8):1672–1685.COSTAECGASPARVMCOUTINHOPCORREIAIJOptimization of liquid overlay technique to formulate heterogenic 3D co-cultures models2014111816721685Search in Google Scholar
COSTA EC, MOREIRA AF, DE MELO-DIOGO D, GASPAR VM, CARVALH MP, CORREIA IJ. 3D tumor spheroids: an overview on the tools and techniques used for their analysis. Biotechnology Advances. 2016;1427–1441.COSTAECMOREIRAAFDE MELO-DIOGODGASPARVMCARVALHMPCORREIAIJ3D tumor spheroids: an overview on the tools and techniques used for their analysis201614271441Search in Google Scholar
DUVAL K, GROVER H, HAN LH, MOU Y, PEGORARO AF, FREDBERG J, CHEN Z. Modeling Physiological Events in 2D vs. 3D Cell Culture. Physiology, 2017;32(4):266–277.DUVALKGROVERHHANLHMOUYPEGORAROAFFREDBERGJCHENZModeling Physiological Events in 2D vs. 3D Cell Culture2017324266277Search in Google Scholar
EDMONDSON R, BROGLIE JJ, ADCOCK AF, YANG L. Three-dimensional cell culture systems and their applications in drug discovery and cell-based biosensors. Assay Drug Dev Technol. 2014;12(4):207–218.EDMONDSONRBROGLIEJJADCOCKAFYANGLThree-dimensional cell culture systems and their applications in drug discovery and cell-based biosensors2014124207218Search in Google Scholar
HARRISON RH, GREENMAN MJ, FRANKLIN PM, JACKSON JM. Observations of the living developing nerve fibes. The Anatomical Record. 1907; 1 (5):116–128.HARRISONRHGREENMANMJFRANKLINPMJACKSONJMObservations of the living developing nerve fibes190715116128Search in Google Scholar
HOARAU-VÉCHOT J, RAFII A, TOUBOUL C, PASQUIER J. Halfway between 2D and Animal Models: Are 3D Cultures the Ideal Tool to Study Cancer-Microenvironment Interactions? International Journal of Molecular Sciences. 2018;(1):181.HOARAU-VÉCHOTJRAFIIATOUBOULCPASQUIERJHalfway between 2D and Animal Models: Are 3D Cultures the Ideal Tool to Study Cancer-Microenvironment Interactions?20181181Search in Google Scholar
JENSEN C, TENG Y. Isittime to start transitioning from 2D to 3D cell culture? Frontiers in Molecular Biosciences. 2020;7:33.JENSENCTENGYIsittime to start transitioning from 2D to 3D cell culture?2020733Search in Google Scholar
JOSEPH JS, MALINDISA ST, NTWASA M. Two-Dimensional (2D) and Three-Dimensional (3D) Cell Culturing in Drug Discovery. Intechopen. 2018.JOSEPHJSMALINDISASTNTWASAMIntechopen2018Search in Google Scholar
KAPAŁCZYŃSKA M, KOLENDA T, PRZYBYŁA W, et al. 2D and 3D cell cultures – a comparison of different types of cancer cell cultures. Archives of Medical Science. 2018;14(4):910–919.KAPAŁCZYŃSKAMKOLENDATPRZYBYŁAW2D and 3D cell cultures – a comparison of different types of cancer cell cultures2018144910919Search in Google Scholar
KHAITAN D, CHANDNA S, ARYA M, DWARAKANATH B. Establishment and characterization of multicellular spheroids from a human glioma cell line; Implications for tumor therapy. J Transl Med. 2006;4:12.KHAITANDCHANDNASARYAMDWARAKANATHBEstablishment and characterization of multicellular spheroids from a human glioma cell line; Implications for tumor therapy2006412Search in Google Scholar
LANDECKER, H. Culturing Life: How Cells Became Technologies. Harvard University Press. 2010. ISBN 9780-6740-3990-2.LANDECKERHHarvard University Press2010ISBN 9780-6740-3990-2.Search in Google Scholar
LANDRY J, BERNIER D, OUELLET C, GOYETTE R, MARCEAU N. Spheroidal Aggregate Culture of Rat Liver Cells: Histotypic Reorganization, Biomatrix Deposition, and Maintenance of Functional Activities. J Cell Bio. 1985;101(3):914–23.LANDRYJBERNIERDOUELLETCGOYETTERMARCEAUNSpheroidal Aggregate Culture of Rat Liver Cells: Histotypic Reorganization, Biomatrix Deposition, and Maintenance of Functional Activities1985101391423Search in Google Scholar
LAZZARI G, COUVVREUR P, MURA S. Multicellular tumor spheroids: a relevant 3D model for the in vitro preclinical investigation of polymer nanomedicines. Polymer Chemistry. 2017;8:4947–4969.LAZZARIGCOUVVREURPMURASMulticellular tumor spheroids: a relevant 3D model for the in vitro preclinical investigation of polymer nanomedicines2017849474969Search in Google Scholar
LEE J, CUDDIHY MJ, KOTOV NA. Three-dimensional cell culture matrices: state of the art. Tissue Eng part B Rev. 2008;14 (1): 61–86.LEEJCUDDIHYMJKOTOVNAThree-dimensional cell culture matrices: state of the art20081416186Search in Google Scholar
LI H, FAN X, HOUGHTON JM. Tumor microenvironment: The role of the tumor stroma in cancer. Journal of Cellular Biochemistry. 2007;805–815.LIHFANXHOUGHTONJMTumor microenvironment: The role of the tumor stroma in cancer2007805815Search in Google Scholar
MEHTA G, HSIAO AY, INGRAM M, LUKER GD, TAKAYAMA S. Opportunities and Challenges for use of Tumor Spheroids as Models to Test Drug Delivery and Efficacy. J Control Release. 2012;164(2):192–204.MEHTAGHSIAOAYINGRAMMLUKERGDTAKAYAMASOpportunities and Challenges for use of Tumor Spheroids as Models to Test Drug Delivery and Efficacy20121642192204Search in Google Scholar
PAMPALONI F, REYNAUD EG, STELZER EH. K. The third dimension bridges the gap between cell culture and live tissue. Nature Reviews Molecular Cell Biology, 2007;8(10):839–845.PAMPALONIFREYNAUDEGSTELZEREH. K.The third dimension bridges the gap between cell culture and live tissue2007810839845Search in Google Scholar
WANG L, GUO H, LIN C, YANG L, WANG X. Enrichment and characterization of cancer stem-like cells from a cervical cancer cell line. Molecular Medicine Reports. 2014;7:2117–2123.WANGLGUOHLINCYANGLWANGXEnrichment and characterization of cancer stem-like cells from a cervical cancer cell line2014721172123Search in Google Scholar