^Wu YL, Chow WZ, Hou CC (October 1965). "Synthesis of 6-alpha-methylprogesterone from hyodesoxycholic acid". Scientia Sinica. 14 (10): 1533–1535.
PMID5881565.
^Brown TR, Bullock LP, Bardin CW (1979). "In Vivo Metabolism and Binding of 6α-Methylprogesterone; A Progestin with Anti-Androgenic and Synandrogenic Activities". Steroid Hormone Receptor Systems. Advances in Experimental Medicine and Biology. Vol. 117. pp. 269–280.
doi:
10.1007/978-1-4757-6589-2_14.
ISBN978-1-4757-6591-5.
PMID474281.
^Brown TR, Bullock LP, Bardin CW (December 1981). "The nuclear uptake of 6 alpha-[3H]methylprogesterone and its 20 alpha-hydroxy metabolite: the requirement for multiple receptors". Endocrinology. 109 (6): 1821–1829.
doi:
10.1210/endo-109-6-1821.
PMID7308133.
^Brown TR, Bullock LP, Bardin CW (December 1981). "The biological actions and metabolism of 6 alpha-methylprogesterone: a progestin that mimics and modifies the effects of testosterone". Endocrinology. 109 (6): 1814–1820.
doi:
10.1210/endo-109-6-1814.
PMID7308132.
^
abcdeBardin CW, Brown T, Isomaa VV, Jänne OA (1983). "Progestins can mimic, inhibit and potentiate the actions of androgens". Pharmacology & Therapeutics. 23 (3): 443–459.
doi:
10.1016/0163-7258(83)90023-2.
PMID6371845.
^Wayne Bardin C, Janne OA (1986). "Steroids of One Class Can Mimic, Inhibit and Potentiate the Biological Effects of Other Steroid Classes when Administered at High Doses". In Gregoire AT, Blye RP (eds.). Contraceptive Steroids. pp. 123–143.
doi:
10.1007/978-1-4613-2241-2_6.
ISBN978-1-4612-9313-2.