Dienestrol diacetate

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Dienestrol diacetate
Clinical data
Trade namesFaragynol, Gynocyrol
Other namesDienestrol acetate; Lipamone
Drug classNonsteroidal estrogen; Estrogen ester
Identifiers
  • [4-[(2Z,4E)-4-(4-acetyloxyphenyl)hexa-2,4-dien-3-yl]phenyl] acetate
CAS Number
PubChem CID
DrugBank
ChemSpider
UNII
ChEMBL
CompTox Dashboard (EPA)
Chemical and physical data
FormulaC22H22O4
Molar mass350.414 g·mol−1
3D model (JSmol)
  • C\C=C(c1ccc(OC(C)=O)cc1)/C(=C/C)c2ccc(OC(C)=O)cc2
  • InChI=1S/C22H22O4/c1-5-21(17-7-11-19(12-8-17)25-15(3)23)22(6-2)18-9-13-20(14-10-18)26-16(4)24/h5-14H,1-4H3/b21-5-,22-6+
  • Key:YWLLGDVBTLPARJ-LWKKFVLGSA-N

Dienestrol diacetate (brand names Faragynol, Gynocyrol, others) is a synthetic nonsteroidal estrogen of the stilbestrol group related to diethylstilbestrol.[1] It is an ester of dienestrol.[1]

Potencies of oral estrogens[data sources 1]
Compound Dosage for specific uses (mg usually)[a]
ETD[b] EPD[b] MSD[b] MSD[c] OID[c] TSD[c]
Estradiol (non-micronized) 30 ≥120–300 120 6 - -
Estradiol (micronized) 6–12 60–80 14–42 1–2 >5 >8
Estradiol valerate 6–12 60–80 14–42 1–2 - >8
Estradiol benzoate - 60–140 - - - -
Estriol ≥20 120–150[d] 28–126 1–6 >5 -
Estriol succinate - 140–150[d] 28–126 2–6 - -
Estrone sulfate 12 60 42 2 - -
Conjugated estrogens 5–12 60–80 8.4–25 0.625–1.25 >3.75 7.5
Ethinylestradiol 200 μg 1–2 280 μg 20–40 μg 100 μg 100 μg
Mestranol 300 μg 1.5–3.0 300–600 μg 25–30 μg >80 μg -
Quinestrol 300 μg 2–4 500 μg 25–50 μg - -
Methylestradiol - 2 - - - -
Diethylstilbestrol 2.5 20–30 11 0.5–2.0 >5 3
DES dipropionate - 15–30 - - - -
Dienestrol 5 30–40 42 0.5–4.0 - -
Dienestrol diacetate 3–5 30–60 - - - -
Hexestrol - 70–110 - - - -
Chlorotrianisene - >100 - - >48 -
Methallenestril - 400 - - - -
Sources and footnotes:
  1. ^ Dosages are given in milligrams unless otherwise noted.
  2. ^ a b c Dosed every 2 to 3 weeks
  3. ^ a b c Dosed daily
  4. ^ a b In divided doses, 3x/day; irregular and atypical proliferation.
Parenteral potencies and durations of nonsteroidal estrogens
Estrogen Form Major brand name(s) EPD (14 days) Duration
Diethylstilbestrol (DES) Oil solution Metestrol 20 mg 1 mg ≈ 2–3 days; 3 mg ≈ 3 days
Diethylstilbestrol dipropionate Oil solution Cyren B 12.5–15 mg 2.5 mg ≈ 5 days
Aqueous suspension ? 5 mg ? mg = 21–28 days
Dimestrol (DES dimethyl ether) Oil solution Depot-Cyren, Depot-Oestromon, Retalon Retard 20–40 mg ?
Fosfestrol (DES diphosphate)a Aqueous solution Honvan ? <1 day
Dienestrol diacetate Aqueous suspension Farmacyrol-Kristallsuspension 50 mg ?
Hexestrol dipropionate Oil solution Hormoestrol, Retalon Oleosum 25 mg ?
Hexestrol diphosphatea Aqueous solution Cytostesin, Pharmestrin, Retalon Aquosum ? Very short
Note: All by intramuscular injection unless otherwise noted. Footnotes: a = By intravenous injection. Sources: See template.

See also[edit]

References[edit]

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  16. ^ Kottmeier HL (1947). "Ueber blutungen in der menopause: Speziell der klinischen bedeutung eines endometriums mit zeichen hormonaler beeinflussung: Part I". Acta Obstetricia et Gynecologica Scandinavica. 27 (s6): 1–121. doi:10.3109/00016344709154486. ISSN 0001-6349. There is no doubt that the conversion of the endometrium with injections of both synthetic and native estrogenic hormone preparations succeeds, but the opinion whether native, orally administered preparations can produce a proliferation mucosa changes with different authors. PEDERSEN-BJERGAARD (1939) was able to show that 90% of the folliculin taken up in the blood of the vena portae is inactivated in the liver. Neither KAUFMANN (1933, 1935), RAUSCHER (1939, 1942) nor HERRNBERGER (1941) succeeded in bringing a castration endometrium into proliferation using large doses of orally administered preparations of estrone or estradiol. Other results are reported by NEUSTAEDTER (1939), LAUTERWEIN (1940) and FERIN (1941); they succeeded in converting an atrophic castration endometrium into an unambiguous proliferation mucosa with 120–300 oestradiol or with 380 oestrone.
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