Premarin, the major brand of CEEs in use, is manufactured by Pfizer and was first marketed in 1941 in Canada and in 1942 in the United States.[11] It is the most commonly used form of estrogen in menopausal hormone therapy in the United States.[16][17] However, it has begun to fall out of favor relative to bioidenticalestradiol, which is the most widely used form of estrogen in Europe for menopausal hormone therapy.[17][18][19][20] CEEs are available widely throughout the world.[10] An estrogen preparation very similar to CEEs but differing in source and composition is esterified estrogens.[1] In 2020, it was the 283rd most commonly prescribed medication in the United States, with more than 1million prescriptions.[21][22]
Medical uses
CEEs are a form of hormone therapy used in women.[23] It is used most commonly in postmenopausal women who have had a hysterectomy to treat hot flashes, and burning, itching, and dryness of the vagina and surrounding areas.[24] It must be used in combination with a progestogen in women who have not had a hysterectomy.[1] For women already taking the medication, it can be used to treat osteoporosis, although it is not recommended solely for this use.[25] Some lesser known uses are as a means of high-dose estrogen therapy in the treatment of breast cancer in both women and men and in the treatment of prostate cancer in men.[26][27] It has been used at a dosage of 2.5 mg three times per day (7.5 mg/day total) for prostate cancer.[28][29]
Footnotes:a = No longer used or recommended, due to health concerns. b = As a single patch applied once or twice per week (worn for 3–4 days or 7 days), depending on the formulation. Note: Dosages are not necessarily equivalent. Sources: See template.
Natural CEEs, as Premarin, are available in the form of oraltablets (0.3 mg, 0.625 mg, 0.9 mg, 1.25 mg, or 2.5 mg), creams for topical or vaginal administration (0.625 mg/g), and vials for intravenous or intramuscular injection (25 mg/vial).[2][33] Synthetic CEEs, such as Cenestin (Synthetic A), Enjuvia (Synthetic B), and generic formulations, are available in the form of oral tablets (0.3 mg, 0.45 mg, 0.625 mg, 0.9 mg, or 1.25 mg) and creams for topical or vaginal administration (0.625 mg/g).[2][34]
CEEs consists of the sodiumsalts of the sulfateesters of equine estrogens in a specific and consistent composition (see the table).[1][11] The major estrogens in CEEs are sodium estrone sulfate and sodium equilin sulfate, which together account for approximately 71.5–92.0% of the total content of CEEs.[10][1][11] CEEs are prodrugs of the active forms of the estrogens.[1][11][10] Sodium estrone sulfate is a prodrug of estrone, which in turn is a prodrug of estradiol, while sodium equilin sulfate is a prodrug of equilin and then of 17β-dihydroequilin.[1] As such, the major active estrogens with CEEs are estradiol and 17β-dihydroequilin, which have potent estrogenic activity and account for most of the effects of CEEs.[1] The 17α-estrogens in CEEs such as 17α-estradiol and 17α-dihydroequilin have low estrogenicity and are thought to contribute minimally to its effects.[1] There are many different steroids in natural CEE products like Premarin, as many as 230 compounds and including even androgens and progestogens, but only the estrogens are present in sufficient amounts to produce clinically-relevant effects.[11][45][16]
A dosage of 0.625 mg/day oral CEEs has been found to increase SHBG levels by 100%.[45][46] For comparison, 1 mg/day oral estradiol increased SHBG levels by 45%, while 50 μg/day transdermal estradiol increased SHBG levels by 12%.[45][46]Ethinylestradiol is more potent in its effects on liver protein synthesis than either CEEs or estradiol, with 10 μg/day oral ethinylestradiol having been found to be approximately equivalent to 1.25 mg/day CEEs.[45]
Notes: All listed compounds are present in conjugated estrogen products specifically in the form of the sodiumsalts of the sulfateesters (i.e., as sodium estrone sulfate, sodium equilin sulfate, etc.). Sources: See template.
Notes: Values are ratios, with estradiol as standard (i.e., 1.0). Abbreviations: HF = Clinical relief of hot flashes. VE = Increased proliferation of vaginal epithelium. UCa = Decrease in UCaTooltip urinary calcium. FSH = Suppression of FSHTooltip follicle-stimulating hormone levels. LH = Suppression of LHTooltip luteinizing hormone levels. HDL-C, SHBG, CBG, and AGT = Increase in the serum levels of these liver proteins. Liver = Ratio of liver estrogenic effects to general/systemic estrogenic effects (hot flashes/gonadotropins). Sources: See template.
Antigonadotropic effects
Testosterone levels with no treatment and with various estrogens in men with prostate cancer.[66] Determinations were made with an early radioimmunoassay (RIA).[66]
A preliminary study of ovulation inhibition in women found that oral CEEs was 33% effective at 1.25 mg/day and 94% at 3.75 mg/day.[67][68] A dosage of oral CEEs of 2.5 mg three times daily (7.5 mg/day total) has been found to suppress total testosterone levels in men to an equivalent extent as 3 mg/day oral diethylstilbestrol, which is the minimum dosage of diethylstilbestrol required to consistently suppress total testosterone levels into the castrate range (<50 ng/dL).[69]
CEEs are hydrolyzed in the intestines during first-pass metabolism upon oral administration.[70][10] Following their absorption, they are resulfated mainly in the liver also during the first pass.[70] Following this, they serve as a circulating reservoir and are slowly rehydrolyzed into their unconjugated active forms.[70]
Oral CEEs, at a daily dosage of 0.625 mg, achieve estrone and estradiol levels of 150 pg/mL and 30–50 pg/mL, respectively, while a daily oral dosage of 1.25 mg achieves levels of 120–200 pg/mL and 40–60 pg/mL of estrone and estradiol, respectively.[71] The oral ingestion of 10 mg CEEs, which contains about 4.5 mg sodium estrone sulfate and 2.5 mg sodium equilin sulfate, produces maximal plasma concentrations of estrone and equilin of 1,400 pg/mL and 560 pg/mL within three and five hours, respectively.[71] By 24 hours post-dose of 10 mg, the levels of estrone and equilin fall to 280 pg/mL and 125 pg/mL, respectively.[71] Oral CEEs 1.25 mg/daily and oral micronized estradiol 1 mg/daily result in similar plasma concentrations of estrone and estradiol (150–300 pg/mL and 30–50 pg/mL for micronized estradiol, respectively) (oral estradiol is extensively metabolized into estrone during hepaticfirst-pass metabolism),[71] although this does not account for equilin and other equine estrogens involved in the effects of CEEs, which may be significantly more potent in comparison to estrone.[72][73] The pharmacokinetics of vaginal CEEs[74] and of intravenous CEEs have been studied as well.[75]
Eoncentrations of equilin that are very high relative to those of other estrogens are produced by typical clinical doses of CEEs.[76] With a dosage of 1.25 mg oral CEEs, equilin levels of 1,082 to 2,465 pg/mL have been observed.[76] The clinical significance of these levels of equilin is unknown.[76]
This diagram illustrates the chemical structures of the active/unconjugated forms of the equine estrogens present in conjugated estrogens.
History
Conjugated estriol, an extract of the urine of pregnant women and sold under the brand names Progynon and Emmenin in the 1930s, was the predecessor of Premarin.[78] Both of these products contained conjugated estrogens similarly to Premarin, but the estrogens were human estrogens as opposed to equine estrogens and the composition differed. The major active ingredient in Progynon and Emmenin was estriol glucuronide.
Estrone sulfate was first isolated from the urine of pregnant mares in the late 1930s by researchers in the Department of Biochemistry at University of Toronto.[79] Premarin was first introduced in 1941 by Wyeth Ayerst as a treatment for hot flashes and other symptoms of menopause; at that time, Wyeth Ayerst only had to prove its safety, and not its efficacy.[80] In response to the 1962 Kefauver Harris Amendment the FDA had its efficacy reviewed, and in 1972 found it effective for menopausal symptoms and probably effective for osteoporosis.[81] The review also determined that two estrogens – estrone sulfate and equilin sulfate – were primarily responsible for the activity of Premarin, and it laid the groundwork for Abbreviated New Drug Application (ANDA) submissions of generic versions.[80] In 1984 an NIH consensus panel found that estrogens were effective for preventing osteoporosis[82] and 1986 the FDA announced in the Federal Register that Premarin was effective for preventing osteoporosis.[83] This announcement led to a rapid growth in sales, and interest from generic manufacturers to introduce generic versions.[80]
Conjugated estrogens was introduced for medical use under the brand name Premarin in Canada in 1941, in the United States in 1942, and in the United Kingdom in 1956.[84]
Estrogens, conjugated is the generic name of the drug and its USPTooltip United States Pharmacopeia and JANTooltip Japanese Accepted Name.[86] It is also known as conjugated estrogens or as conjugated equine estrogens.[9][unreliable medical source?] The brand name Premarin is a contraction of "pregnant mares' urine".[87][88][89]
CEEs are marketed under a large number of brand names throughout the world.[10] The major brand name of the natural form of CEEs manufactured from the urine of pregnant mares is Premarin.[10] Major brand names of fully synthetic versions of CEEs include Cenestin and Enjuvia in the United States and C.E.S. and Congest in Canada.[10][12][13] CEEs are also formulated in combination with progestins.[10] Major brand names of CEEs in combination with medroxyprogesterone acetate include Prempro and Premphase in the United States, Premplus in Canada, Premique in the United Kingdom and Ireland, Premia in Australia and New Zealand, and Premelle in South Africa.[10][90] Prempak-C is a combination of CEEs and norgestrel which is used in the United Kingdom and Ireland, and Prempak N is a combination of CEEs and medrogestone which is used in South Africa.[10] Many of the aforementioned brand names are also used in other, non-English-speaking countries.[10]
CEEs are marketed and available widely throughout the world.[10][30] This includes in all English-speaking countries, throughout the European Union, Latin America, Asia, and elsewhere in the world.[10][30]
Health effects
Research starting in 1975 showed substantially increased risk of endometrial cancer.[91][92] Since 1976, the drug has carried a label warning about the risk.[93] As part of the Women's Health Initiative sponsored by the National Institutes of Health, a large-scale clinical trial of menopausal HRT showed that long-term use of estrogen and a progestin may increase the risk of strokes, heart attacks, blood clots, and breast cancer.[94] Following these results, Wyeth experienced a significant decline in its sales of Premarin, Prempro (CEEs and medroxyprogesterone acetate), and related products, from over $2 billion in 2002 to just over $1 billion in 2006.[95]
Litigation
This drug has been the subject of litigation; more than 13,000 people have sued Wyeth between 2002 and 2009. Wyeth and Pharmacia & Upjohn prevailed in the vast majority of hormone therapy cases previously set for trial through a combination of rulings by judges, verdicts by juries, and dismissals by plaintiffs themselves.[96] Of the company's losses, two of the jury verdicts were reversed post-trial and others are being challenged on appeal. Wyeth also won five summary judgments on Prempro cases and had 15 cases voluntarily dismissed by plaintiffs. The company won dismissals in another 3,000 cases.[97] In 2006, Mary Daniel, in a trial in Philadelphia, was awarded $1.5 million in compensatory damages as well as undisclosed punitive damages. As of 2010, Wyeth had won the last four of five cases, most recently in Virginia, finding that they were not responsible for the breast cancer of plaintiff Georgia Torkie-Tork.[98] Wyeth has been quoted as saying "many risk factors associated with breast cancer have been identified, but science cannot establish what role any particular risk factor or combination play in any individual woman's breast cancer."[99] Wyeth's counsel in the case also noted that in the WHI trial, 99.62% of women took the drug and "did not get breast cancer".[97]
Animal welfare
Animal welfare groups claim that animal husbandry and urine collection methods used in the production of CEEs cause undue stress and suffering to the mares involved. Animal activists have made claims of abuses ranging from inadequate stall size, long periods of confinement, cumbersome urine collection, and continuous breeding cycles. After reaching advanced age, many of the mares are adopted for recreation use, while some are sent to feed lots for slaughter. Despite the controversy, the USDA called the CEEs HRT industry a model of self-regulation.[100]
^Holtorf K (January 2009). "The bioidentical hormone debate: are bioidentical hormones (estradiol, estriol, and progesterone) safer or more efficacious than commonly used synthetic versions in hormone replacement therapy?". Postgraduate Medicine. 121 (1): 73–85. doi:10.3810/pgm.2009.01.1949. PMID19179815. S2CID2060730.
^Lekovic D, Miljic P, Dmitrovic A, Thachil J (May 2017). "How do you decide on hormone replacement therapy in women with risk of venous thromboembolism?". Blood Reviews. 31 (3): 151–157. doi:10.1016/j.blre.2016.12.001. PMID27998619.
^Cline JM (April 2007). "Assessing the mammary gland of nonhuman primates: effects of endogenous hormones and exogenous hormonal agents and growth factors". Birth Defects Research. Part B, Developmental and Reproductive Toxicology. 80 (2): 126–146. doi:10.1002/bdrb.20112. PMID17443713.
^ abNachtigall LE, Raju U, Banerjee S, Wan L, Levitz M (2000). "Serum estradiol-binding profiles in postmenopausal women undergoing three common estrogen replacement therapies: associations with sex hormone-binding globulin, estradiol, and estrone levels". Menopause. 7 (4): 243–250. doi:10.1097/00042192-200007040-00006. PMID10914617. S2CID3076514.
^Lauritzen C (June 1977). "[Estrogen thearpy in practice. 3. Estrogen preparations and combination preparations]" [Estrogen therapy in practice. 3. Estrogen preparations and combination preparations]. Fortschritte Der Medizin (in German). 95 (21): 1388–92. PMID559617.
^Ryden AB (1950). "Natural and synthetic oestrogenic substances; their relative effectiveness when administered orally". Acta Endocrinologica. 4 (2): 121–39. doi:10.1530/acta.0.0040121. PMID15432047.
^Ryden AB (1951). "The effectiveness of natural and synthetic oestrogenic substances in women". Acta Endocrinologica. 8 (2): 175–91. doi:10.1530/acta.0.0080175. PMID14902290.
^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. ISSN0001-6349. 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.
^Martinez-Manautou J, Rudel HW (1966). "Antiovulatory Activity of Several Synthetic and Natural Estrogens". In Robert Benjamin Greenblatt (ed.). Ovulation: Stimulation, Suppression, and Detection. Lippincott. pp. 243–253.
^Herr F, Revesz C, Manson AJ, Jewell JB (1970). "Biological Properties of Estrogen Sulfates". Chemical and Biological Aspects of Steroid Conjugation. pp. 368–408. doi:10.1007/978-3-642-49793-3_8. ISBN978-3-642-49506-9.
^Herr F, Revesz C, Manson AJ, Jewell JB (1970). "Biological Properties of Estrogen Sulfates". Chemical and Biological Aspects of Steroid Conjugation. Springer. pp. 368–408. doi:10.1007/978-3-642-49793-3_8 (inactive 11 July 2025). ISBN978-3-642-49506-9.{{cite book}}: CS1 maint: DOI inactive as of July 2025 (link)
^ abcFotherby K (August 1996). "Bioavailability of orally administered sex steroids used in oral contraception and hormone replacement therapy". Contraception. 54 (2): 59–69. doi:10.1016/0010-7824(96)00136-9. PMID8842581.
^Punnonen R, Vilska S, Grönroos M, Rauramo L (December 1980). "The vaginal absorption of oestrogens in post-menopausal women". Maturitas. 2 (4): 321–326. doi:10.1016/0378-5122(80)90034-1. PMID7231202.
^Honjo H, Kitawaki J, Itoh M, Yasuda J, Iwasaku K, Urabe M, et al. (1987). "Serum and urinary estrone sulfate during the menstrual cycle, measured by a direct radioimmunoassay, and fate of exogenously injected estrone sulfate". Hormone Research. 27 (2): 61–68. doi:10.1159/000180788. PMID3653846.
^ abcHammond CB, Maxson WS (January 1982). "Current status of estrogen therapy for the menopause". Fertility and Sterility. 37 (1): 5–25. doi:10.1016/S0015-0282(16)45970-4. PMID6277697.
^Bhavnani BR, Tam SP, Lu X (October 2008). "Structure activity relationships and differential interactions and functional activity of various equine estrogens mediated via estrogen receptors (ERs) ERalpha and ERbeta". Endocrinology. 149 (10): 4857–70. doi:10.1210/en.2008-0304. PMID18599548.
^"Federal register [microform]". Washington : [Office of the Federal Register, National Archives and Records Service, General Services Administration : Distributed by the Supt. of Docs., U.S. G.P.O.] 3 June 1972 – via Internet Archive.
^National Institutes of Health Consensus Development Conference Statement. 2–4 April 1984 OsteoporosisArchived 21 November 2005 at the Wayback Machine
^Panay N, Briggs P, Kovacs G (20 August 2015). Managing the Menopause. Cambridge University Press. pp. 118–. ISBN978-1-107-45182-7. Premarin (Pregnant Mares Urine) was introduced in Canada in 1941, in the USA in 1942 and in the UK in 1956.
^Dominus S (1 February 2023). "Women Have Been Misled About Menopause". The New York Times. ISSN0362-4331. Retrieved 7 February 2023. Every woman has the right — indeed the duty — to counteract the chemical castration that befalls her during her middle years," the gynecologist Robert Wilson wrote in 1966. The U.S. Food and Drug Administration approved the first hormone-therapy drug in 1942, but Wilson's blockbuster book, "Feminine Forever," can be considered a kind of historical landmark...Within a decade of the book's publication, Premarin — a mix of estrogens derived from the urine of pregnant horses — was the fifth-most-prescribed drug in the United States. (Decades later, it was revealed that Wilson received funding from the pharmaceutical company that sold Premarin.)
^Alexander IM (2012). "The history of hormone therapy use and recent controversy related to heart disease and breast cancer arising from prevention trial outcomes". Journal of Midwifery & Women's Health. 57 (6): 547–557. doi:10.1111/j.1542-2011.2012.00247.x. PMID23217066.
^Ziel HK, Finkle WD (December 1975). "Increased risk of endometrial carcinoma among users of conjugated estrogens". The New England Journal of Medicine. 293 (23): 1167–1170. doi:10.1056/NEJM197512042932303. PMID171569.
^McDonald TW, Annegers JF, O'Fallon WM, Dockerty MB, Malkasian GD, Kurland LT (March 1977). "Exogenous estrogen and endometrial carcinoma: case-control and incidence study". American Journal of Obstetrics and Gynecology. 127 (6): 572–580. doi:10.1016/0002-9378(77)90351-9. PMID190887.
Bhavnani BR (November 1988). "The saga of the ring B unsaturated equine estrogens". Endocrine Reviews. 9 (4): 396–416. doi:10.1210/edrv-9-4-396. PMID3065072.
Egarter C, Geurts P, Boschitsch E, Speiser P, Huber J (April 1996). "The effects of estradiol valerate plus medroxyprogesterone acetate and conjugated estrogens plus medrogestone on climacteric symptoms and metabolic variables in perimenopausal women". Acta Obstetricia et Gynecologica Scandinavica. 75 (4): 386–393. doi:10.3109/00016349609033337. PMID8638462. S2CID44498140.
Bhavnani BR (January 1998). "Pharmacokinetics and pharmacodynamics of conjugated equine estrogens: chemistry and metabolism". Proceedings of the Society for Experimental Biology and Medicine. 217 (1): 6–16. doi:10.3181/00379727-217-44199. PMID9421201. S2CID45177839.
Campagnoli C, Ambroggio S, Biglia N, Sismondi P (December 1999). "Conjugated estrogens and breast cancer risk". Gynecological Endocrinology. 13 (Suppl 6): 13–19. PMID10862264.
Bhavnani BR (June 2003). "Estrogens and menopause: pharmacology of conjugated equine estrogens and their potential role in the prevention of neurodegenerative diseases such as Alzheimer's". The Journal of Steroid Biochemistry and Molecular Biology. 85 (2–5): 473–482. doi:10.1016/S0960-0760(03)00220-6. PMID12943738. S2CID45552896.
Ortmann J, Traupe T, Vetter W, Barton M (May 2004). "[Postmenopausal hormone replacement therapy and cardiovascular risk: role of conjugated equine estrogens and medroxyprogesterone acetate]". Praxis (in German). 93 (21): 904–914. doi:10.1024/0369-8394.93.21.904. PMID15216975.
Kurabayashi T (November 2007). "[New evidence of conjugated estrogen and 17beta-estradiol for treatment and prevention of osteoporosis]". Nihon Rinsho. Japanese Journal of Clinical Medicine (in Japanese). 65 (Suppl 9): 369–373. PMID18161134.
Lamba G, Kaur H, Adapa S, Shah D, Malhotra BK, Rafiyath SM, et al. (June 2013). "Use of conjugated estrogens in life-threatening gastrointestinal bleeding in hemodialysis patients--a review". Clinical and Applied Thrombosis/Hemostasis. 19 (3): 334–337. doi:10.1177/1076029612437575. PMID22411999. S2CID30468265.
Mirkin S, Komm BS, Pickar JH (January 2014). "Conjugated estrogens for the treatment of menopausal symptoms: a review of safety data". Expert Opinion on Drug Safety. 13 (1): 45–56. doi:10.1517/14740338.2013.824965. PMID23919270. S2CID24379298.
Bhavnani BR, Stanczyk FZ (July 2014). "Pharmacology of conjugated equine estrogens: efficacy, safety and mechanism of action". The Journal of Steroid Biochemistry and Molecular Biology. 142: 16–29. doi:10.1016/j.jsbmb.2013.10.011. PMID24176763. S2CID1360563.
Mattison DR, Karyakina N, Goodman M, LaKind JS (September 2014). "Pharmaco- and toxicokinetics of selected exogenous and endogenous estrogens: a review of the data and identification of knowledge gaps". Critical Reviews in Toxicology. 44 (8): 696–724. doi:10.3109/10408444.2014.930813. PMID25099693. S2CID11212469.
