History of cultured animal cells in vitro and its significance at present
DOI:
https://doi.org/10.18041/2390-0512/bioc..2.2293Keywords:
culture, cells, animal,, in vitro,, Biotechnology, Fabrics, Bodies, Research, MedicalAbstract
The in vitro cell culture animals is an area of biotechnology that currently making strides due to its large field of action; medical research, drug research and environmental effects, tissue transplants and reconstructive surgeries in fusion techniques and genetic engineering, cell products and byproducts. And its great advantages and benefits comprising the use of this technique as: ease of recreating controlled conditions for cellular development, the potential for developing research that can work in small, medium and large scale in small and large scale, the alternative to use of animals, and cost reduction among others, from the first tests on living cells outside agencies, until the establishment of the first cell lines, and already today GM controlled cells, the development of media serum-free culture media and development of animal-free culture components that develop with aseptic working techniques and specific material. They allow provide a real solution to many diseases, injuries and disorders to which man is exposed, hence the importance of knowing their history and possible exploration.
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References
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BrandT, AndréeB, Schneider A, Buchberger A, Arnold HH. (1997). Chicken NKx2–8, a novel homeobox gene expressed during early yeart and foregut development. Mec of dev. 1997;64(1), 53-59.
Carrel A. On the permanent life of tissue outside the organism. Jouof ExpMed. 1912; 15 (1): 516–528.
Cooper G, Hausman RE.The Cell. 4 Edition. Editorial ASM Press. USA. pp. 4-37.
Driscoll, D. A., Salvin, J., Sellinger, B., Budarf, M. L., McDonald-McGinn, D. M., Zackai, E. H., & Emanuel, B. S. (1993). Prevalence of 22q11 microdeletions in Di George and velocardiofacial syndromes: implications for genetic counselling and prenatal diagnosis. Journal of Medical Genetics, 30 (10), 813-817.
Fogh, J., Holmgren, N. B., & Ludovici, P. P. (1971). A review of cell culture contaminations. In vitro, 7 (1), 26-41.
Freshney R.I. 2005. Culture of animal cells: a manual of basic techniques. Ed. John Wiley. USA. pp 4-37.
Freshney, R. I. (2006). Basic principles of cell culture. Culture of cells for tissue engineering, 11-14.
Gentilini, E., Reinoso, E., Echeverría, M., &Leardini, N. (2007). Microbiología veterinaria. N. O. Stanchi, & P. E. Martino (Eds.). Inter-Médica.
Gil-Loyzaga, P. (2011). Cultivo de células animales y humanas: aplicaciones en medicina regenerativa. Visión.
Ham, R.G., McKeehan, W.L. (1978) Development of improved media and culture conditions for clonal growth of normal diploid cells. In Vitro 14: 11–22.
Harrison R.G. 1907. Observations on the living developing nerve fiber. Proceedings of the Society of Experimental Biology and Medicine. 4(1):140-143.
Hermersdörfer, H. (1995). RI Freshney: Culture of Animal Cells. A Manual of Basic Technique. 486 Seiten, zahlr. Abb. undTab. Wiley‐Liss, a John Wiley and Sons, Inc., Publication. New York, Chichester, Brisbane, Toronto. Singapore 1994.
Karmiol, S. (2000) Development of serum-free media. In Masters, J.R.W, ed., Animal Cell Culture, 3rd Ed. Oxford, Oxford University Press, pp. 105–121.
Koneman, E. W., & Allen, S. (2008). Koneman. Diagnostico Microbiológico diagnosis: Texto Y Atlas En Color/Text and Color Atlas. Ed. MédicaPanamericana.
Mather, J.P. (1998) Making informed choices: medium, serum, and serum-free medium. How to choose the appropriate medium and culture system for the model you wish to create. Methods Cell Biol. 57: 19–30.
Mazzarello, P. 1999. A unifying concept: the history of cell theory. NatureCellBiology. 1 (1):13-15.
Montalván, C. A. T., García, A. O., González, I. D., Mondaca, S. E., y Acosta, A. M. (2009). Alcances y perspectivas del cultivo de células animales en la biotecnología farmacéutica. Revista Mexicana de Ciencias Farmacéuticas, 40 (4), 35-46.
Morier, L., Gómez, M., Rodríguez, J. J., & Pérez, L. (2004). Obtención y caracterización de una línea celular diploide de riñón humano. Revista Cubana de Medicina Tropical, 56(1), 42-48.
Nardone, R. M. (2007). Eradication of cross-contaminated cell lines: a call for action. Cell biology and toxicology, 23 (6), 367-372.
Nelson D.L., Cox M.M. 2004. Lehninger: Principles of Biochemistry. 4ª Edición. MPS Publishers. USA. pp. 3-12.
Pauwels, K., Van Vaerenbergh, B., Dai Do Thi, C., Berghmans, L., Waeterloos, G., Van Bockstaele, D., &Sneyers, M. (2007). Animal cell cultures: Risk Assessment and biosafety recommendations. ApplBiosafety, 12, (1), 26- 38.
Rivera-Tapia, J. A., Cedillo-Ramírez, M. L., & Juárez, C. G. (2002). Somebiologicalfeatures of Mollicutes. Revista Latinoamericana de microbiología - México, 44 (2), 53-57.
Rivera-Tapia, J. A., Zurita, G. M., & Méndez, C. R. (2006). Contaminación por micoplasmas en cultivos celulares. AnMed (Mex), 51 (3), 109-112.
Robertson JS, Cook P, Attwell AM, et al. Replicative advantage in tissue culture of egg-adapted influenza virus over tissue-culture derived virus implications for vaccine manufacture. Vaccine 1995; 13:1583–8.
Sánchez, M. A. O., Ortega, M. L. O., & Barrientos, J. V. R. (2007). Leucemia linfoblástica aguda. Medicina Interna de México, 23 (1).
Segretín, M. E. (2006). Los cultivos celulares y sus aplicaciones I (cultivos de células animal). Consejo argentino para la información y el desarrollo de la biotecnología.
Segretín, M. E. (2006). Los cultivos celulares y sus aplicaciones II (cultivos de células vegetales). Consejo argentino para la información y el desarrollo de la biotecnología.
Van Kuppeveld, F., van der Logt, J., Johansson, K. E., &Melchers, W. (1996). Demonstration of Mycoplasma Contamination in Cell Cultures by a Mycoplasma Group-Specific Polymerase Chain Reaction. Human Cell Culture Protocols, 525-538.
Vesely, P. (2004). Molecular biology of thecell. By Bruce Alberts, Alexander Johnson, Julian Lewis, Martin Raff, Keith Roberts and Peter Walter. Scanning, 26 (3), 153-153.
Visconti R.P., Kasyanov V., Gentile C., Zhang J., Markwald R.R., Mironov V. 2010. Towards organ printing: engineering an intra-organ branched vascular tree. Expert Opinion Biological Therapy. 10 (3): 409-20.
Wiktor T.J., Fernández M.V., Koprowski H. 1964. Cultivation of Rabies Virus in Human Diploid Cell Strain WI - 38. Journal of Immunology. 93 (1): 353 -366.
Williams D.F. On the nature of biomaterials. 2009. Biomaterials. 30 (30): 897-909.
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2017-06-25
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