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Baibakov, B.; Frank, G. A.; Sergeeva, N., et al.In vivo growth patterns of human lung tumors in three-dimensional histoculture. In Vitro Cell. Dev. Biol. 27A:897–899; 1991.
Frater, R.; Whitmore, P. G. Thein-vitro growth of post-embryonic hair. J. Invest. Dermatol. 61:72–81; 1973.
Freeman, A. E.; Hoffman, R. M.In vivo-like growth of human tumorsin vitro. Proc. Natl. Acad. Sci. USA 83:2694–2698; 1986.
Furukawa, T.; Kubota, T.; Watanabe, M., et al. Highin vitro-in vivo correlation of drug response using sponge-gel supported three-dimensional histoculture and the MTT end-point. Int. J. Cancer. In press.
Guadagni, F.; Li, L.; Hoffman, R. M. Targeting antibodies to live tumor tissue in 3-D histoculture. In Vitro Cell. Dev. Biol. 28A:297–299; 1992.
Guadagni, F.; Roselli, M.; Hoffman, R. M. Maintenance of expression of tumor antigens in three-dimensional in vitro human tumor gel-supported histoculture. Anticancer Res. 11:543–546; 1991.
Hardy, M. H. The development of pelage hairs and vibrissae from skin in tissue culture. Ann. NY Acad. Sci. 53:546–561; 1951.
Hoffman, R. M. In vitro sensitivity assays in cancer: a review, analysis and prognosis. J. Clin. Lab. Anal. 5:133–143; 1991a.
Hoffman, R. M. Three-dimensional gel-supported native-state histoculture for evaluation of tumor-specific pharmacological activity: principles, practices, and possibilities. J. Cell. Pharmacol. 2:189–201; 1991b.
Hoffman, R. M. Three-dimensional histoculture: origins and applications in cancer research. Cancer Cells 3:86–92; 1991c.
Hoffman, R. M.; Connors, K. M.; Meerson-Monosov, A. Z., et al. A general native-state method for determination of proliferation capacity of human normal and tumor tissue in vitro. Proc. Natl. Acad. Sci. USA 86:2013–2017; 1989.
Leighton, J. A sponge matrix method for tissue culture. Formation of organized aggregates of cells in vitro. J. Natl. Cancer Inst. 12:545–561; 1951.
Leighton, J. The Spread of Cancer. New York-London: Academic Press; 1967.
Li, L.; Margolis, L. B.; Hoffman, R. M. Skin Toxicity determined in vitro by three dimensional, native-state histoculture. Proc. Natl. Acad. Sci. USA 88:1908–1912; 1991.
Murray, M. R. Development of the hair follicle and hair in vitro. Anat. Rec. 57 (Supplement):74; 1933.
Philpott, M.; Green, M.; Kealey, T. Studies on the biochemistry and morphology of freshly isolated and maintained rat hair follicles. J. Cell Sci. 93:409–418; 1989.
Philpott, M.; Green, M.; Kealey, T. Human hair growth in vitro. J. Cell Sci. 97:463–471; 1990.
Strangeways, D. H. The growth of hair in vitro. Arch. Exp. Zellforsch. 11:344; 1931.
Vescio, R. A.; Connors, K. M.; Bordin, G. M., et al. The distinction of small cell and non-small cell cancer by growth in native-state histoculture. Cancer Res. 50:6095–6099; 1990.
Vescio, R. A.; Connors, K. M.; Youngkin, T., et al. Cancer biology for individualized therapy: correlation of growth fraction index in native-state histoculture with tumor grade and stage. Proc. Natl. Acad. Sci. USA 87:691–695; 1990.
Vescio, R. A.; Redfern, C. H.; Nelson, T. J., et al. In vivo-like drug responses of human tumors growing in three-dimensional, gel-supported, primary culture. Proc. Natl. Acad. Sci. USA 84:5029–5033; 1987.
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Li, L., Paus, R., Margolis, L.B. et al. Hair growth in vitro from histocultured skin. In Vitro Cell Dev Biol - Animal 28, 479–481 (1992). https://doi.org/10.1007/BF02634130
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DOI: https://doi.org/10.1007/BF02634130