Estradiol Cypionate is a pro-drug ester of DB00783, a naturally occurring hormone that circulates endogenously within the human body. Estradiol is the most potent form of all mammalian estrogenic steroids and acts as the major female sex hormone. As a pro-drug of estradiol, estradiol cypionate therefore has the same downstream effects within the body through binding to the Estrogen Receptor (ER) including ER? and ER? subtypes, which are located in various tissues and organs such as the breasts, uterus, ovaries, skin, prostate, bone, fat, and brain.
DB00783 is commonly produced with an ester side-chain as endogenous estradiol has very low oral bioavailability on its own (2-10%). First-pass metabolism by the gut and the liver quickly degrades the estradiol molecule before it gets a chance to enter systemic circulation and exert its estrogenic effects A12102. Esterification of estradiol aims to improve absorption and bioavailability after oral administration (such as with Estradiol Valerate) or to sustain release from depot intramuscular injections (such as with Estradiol Cypionate) through improved lipophilicity. Following absorption, the esters are cleaved, resulting in the release of endogenous estradiol, or 17?-estradiol. Ester pro-drugs of estradiol are therefore considered to be bioidentical forms of estrogen T84.
Estradiol cypionate is commercially available as Depo-Estradiol, an intramuscular depot injection used for the treatment of moderate to severe vasomotor symptoms associated with menopause and for the treatment of hypoestrogenism due to hypogonadism FDA Label.
The primary source of estrogen in normally cycling adult women is the ovarian follicle, which secretes 70 to 500 mcg of estradiol daily, depending on the phase of the menstrual cycle. However, after menopause, most endogenous estrogen is produced by conversion of androstenedione, secreted by the adrenal cortex, to estrone by peripheral tissues. Thus, estrone and the sulfate conjugated form, estrone sulfate, are the most abundant circulating estrogens in postmenopausal women FDA Label. Although circulating estrogens exist in a dynamic equilibrium of metabolic interconversions, estradiol is the principal intracellular human estrogen and is substantially more potent than its metabolites, estrone and estriol at the receptor level. Because of the difference in potency between estradiol and estrone, menopause (and a change in primary hormone from estradiol to estrone) is associated with a number of symptoms associated with this reduction in potency and in estrogenic effects. These include hot flashes, vaginal dryness, mood changes, irregular menses, chills, and sleeping problems. Administration of synthetic and bioidentical forms of estrogen, such as estradiol cypionate, has shown to improve these menopausal symptoms.
Fitur visualisasi ini dikembangkan menggunakan pendekatan Graph Theory untuk memetakan hubungan polifarmasi dan molekuler. Entitas (Obat, Target, Gen) direpresentasikan sebagai Simpul (Nodes), sedangkan hubungan biologisnya sebagai Sisi (Edges).
drugbank-id dan name pada skema XML DrugBank.targets/target yang memuat polipeptida sasaran.gene-name dan varian snp-effects.Tata letak grafik menggunakan algoritma Force-Directed Graph (Barnes-Hut). Model fisika ini menerapkan gaya tolak-menolak antar simpul (Gravitasi: -3000) agar tidak tumpang tindih, serta gaya pegas (Spring: 0.04) pada garis penghubung untuk fleksibilitas interaksi.
| Aripiprazole | The metabolism of Aripiprazole can be increased when combined with Estradiol cypionate. |
| Aripiprazole lauroxil | The metabolism of Aripiprazole lauroxil can be increased when combined with Estradiol cypionate. |
| Deferasirox | The serum concentration of Estradiol cypionate can be increased when it is combined with Deferasirox. |
| Peginterferon alfa-2b | The serum concentration of Estradiol cypionate can be increased when it is combined with Peginterferon alfa-2b. |
| Leflunomide | The serum concentration of Estradiol cypionate can be decreased when it is combined with Leflunomide. |
| Teriflunomide | The serum concentration of Estradiol cypionate can be decreased when it is combined with Teriflunomide. |
| Exenatide | Exenatide can cause a decrease in the absorption of Estradiol cypionate resulting in a reduced serum concentration and potentially a decrease in efficacy. |
| Thalidomide | Estradiol cypionate may increase the thrombogenic activities of Thalidomide. |
| Zolmitriptan | The metabolism of Zolmitriptan can be decreased when combined with Estradiol cypionate. |
| Mifepristone | The serum concentration of Estradiol cypionate can be increased when it is combined with Mifepristone. |
| Ifosfamide | The metabolism of Ifosfamide can be increased when combined with Estradiol cypionate. |
| Perampanel | The metabolism of Perampanel can be increased when combined with Estradiol cypionate. |
| Warfarin | The metabolism of Warfarin can be increased when combined with Estradiol cypionate. |
| Acenocoumarol | The metabolism of Acenocoumarol can be increased when combined with Estradiol cypionate. |
| (R)-warfarin | The metabolism of (R)-warfarin can be increased when combined with Estradiol cypionate. |
| R,S-Warfarin alcohol | The metabolism of R,S-Warfarin alcohol can be increased when combined with Estradiol cypionate. |
| S,R-Warfarin alcohol | The metabolism of S,R-Warfarin alcohol can be increased when combined with Estradiol cypionate. |
| (S)-Warfarin | The metabolism of (S)-Warfarin can be increased when combined with Estradiol cypionate. |
| Zidovudine | The metabolism of Estradiol cypionate can be increased when combined with Zidovudine. |
| Ethinylestradiol | The metabolism of Estradiol cypionate can be increased when combined with Ethinylestradiol. |
| Testosterone propionate | The metabolism of Estradiol cypionate can be increased when combined with Testosterone propionate. |
| Prasterone | The risk or severity of adverse effects can be increased when Prasterone is combined with Estradiol cypionate. |
| Exemestane | The therapeutic efficacy of Exemestane can be decreased when used in combination with Estradiol cypionate. |
| Hyaluronidase (ovine) | The therapeutic efficacy of Hyaluronidase (ovine) can be decreased when used in combination with Estradiol cypionate. |
| Hyaluronidase (human recombinant) | The therapeutic efficacy of Hyaluronidase (human recombinant) can be decreased when used in combination with Estradiol cypionate. |
| Hyaluronidase | The therapeutic efficacy of Hyaluronidase can be decreased when used in combination with Estradiol cypionate. |
| Lenalidomide | Estradiol cypionate may increase the thrombogenic activities of Lenalidomide. |
| Ospemifene | The risk or severity of adverse effects can be increased when Estradiol cypionate is combined with Ospemifene. |
| Abiraterone | The serum concentration of Estradiol cypionate can be increased when it is combined with Abiraterone. |
| Cetuximab | Estradiol cypionate may increase the thrombogenic activities of Cetuximab. |
| Human immunoglobulin G | Estradiol cypionate may increase the thrombogenic activities of Human immunoglobulin G. |
| Omalizumab | Estradiol cypionate may increase the thrombogenic activities of Omalizumab. |
| Gemtuzumab ozogamicin | Estradiol cypionate may increase the thrombogenic activities of Gemtuzumab ozogamicin. |
| Indium In-111 satumomab pendetide | Estradiol cypionate may increase the thrombogenic activities of Indium In-111 satumomab pendetide. |
| Trastuzumab | Estradiol cypionate may increase the thrombogenic activities of Trastuzumab. |
| Rituximab | Estradiol cypionate may increase the thrombogenic activities of Rituximab. |
| Basiliximab | Estradiol cypionate may increase the thrombogenic activities of Basiliximab. |
| Muromonab | Estradiol cypionate may increase the thrombogenic activities of Muromonab. |
| Digoxin Immune Fab (Ovine) | Estradiol cypionate may increase the thrombogenic activities of Digoxin Immune Fab (Ovine). |
| Ibritumomab tiuxetan | Estradiol cypionate may increase the thrombogenic activities of Ibritumomab tiuxetan. |
| Alemtuzumab | Estradiol cypionate may increase the thrombogenic activities of Alemtuzumab. |
| Efalizumab | Estradiol cypionate may increase the thrombogenic activities of Efalizumab. |
| Antithymocyte immunoglobulin (rabbit) | Estradiol cypionate may increase the thrombogenic activities of Antithymocyte immunoglobulin (rabbit). |
| Natalizumab | Estradiol cypionate may increase the thrombogenic activities of Natalizumab. |
| Palivizumab | Estradiol cypionate may increase the thrombogenic activities of Palivizumab. |
| Daclizumab | Estradiol cypionate may increase the thrombogenic activities of Daclizumab. |
| Bevacizumab | Estradiol cypionate may increase the thrombogenic activities of Bevacizumab. |
| Technetium Tc-99m arcitumomab | Estradiol cypionate may increase the thrombogenic activities of Technetium Tc-99m arcitumomab. |
| Eculizumab | Estradiol cypionate may increase the thrombogenic activities of Eculizumab. |
| Panitumumab | Estradiol cypionate may increase the thrombogenic activities of Panitumumab. |
| Ranibizumab | Estradiol cypionate may increase the thrombogenic activities of Ranibizumab. |
| Galiximab | Estradiol cypionate may increase the thrombogenic activities of Galiximab. |
| Pexelizumab | Estradiol cypionate may increase the thrombogenic activities of Pexelizumab. |
| Epratuzumab | Estradiol cypionate may increase the thrombogenic activities of Epratuzumab. |
| Bectumomab | Estradiol cypionate may increase the thrombogenic activities of Bectumomab. |
| Oregovomab | Estradiol cypionate may increase the thrombogenic activities of Oregovomab. |
| IGN311 | Estradiol cypionate may increase the thrombogenic activities of IGN311. |
| Adecatumumab | Estradiol cypionate may increase the thrombogenic activities of Adecatumumab. |
| Labetuzumab | Estradiol cypionate may increase the thrombogenic activities of Labetuzumab. |
| Matuzumab | Estradiol cypionate may increase the thrombogenic activities of Matuzumab. |
| Fontolizumab | Estradiol cypionate may increase the thrombogenic activities of Fontolizumab. |
| Bavituximab | Estradiol cypionate may increase the thrombogenic activities of Bavituximab. |
| CR002 | Estradiol cypionate may increase the thrombogenic activities of CR002. |
| Rozrolimupab | Estradiol cypionate may increase the thrombogenic activities of Rozrolimupab. |
| Girentuximab | Estradiol cypionate may increase the thrombogenic activities of Girentuximab. |
| Obiltoxaximab | Estradiol cypionate may increase the thrombogenic activities of Obiltoxaximab. |
| XTL-001 | Estradiol cypionate may increase the thrombogenic activities of XTL-001. |
| NAV 1800 | Estradiol cypionate may increase the thrombogenic activities of NAV 1800. |
| Briakinumab | Estradiol cypionate may increase the thrombogenic activities of Briakinumab. |
| Otelixizumab | Estradiol cypionate may increase the thrombogenic activities of Otelixizumab. |
| AMG 108 | Estradiol cypionate may increase the thrombogenic activities of AMG 108. |
| Iratumumab | Estradiol cypionate may increase the thrombogenic activities of Iratumumab. |
| Enokizumab | Estradiol cypionate may increase the thrombogenic activities of Enokizumab. |
| Ramucirumab | Estradiol cypionate may increase the thrombogenic activities of Ramucirumab. |
| Farletuzumab | Estradiol cypionate may increase the thrombogenic activities of Farletuzumab. |
| Veltuzumab | Estradiol cypionate may increase the thrombogenic activities of Veltuzumab. |
| Ustekinumab | Estradiol cypionate may increase the thrombogenic activities of Ustekinumab. |
| PRO-542 | Estradiol cypionate may increase the thrombogenic activities of PRO-542. |
| TNX-901 | Estradiol cypionate may increase the thrombogenic activities of TNX-901. |
| RI 624 | Estradiol cypionate may increase the thrombogenic activities of RI 624. |
| Stamulumab | Estradiol cypionate may increase the thrombogenic activities of MYO-029. |
| CT-011 | Estradiol cypionate may increase the thrombogenic activities of CT-011. |
| Leronlimab | Estradiol cypionate may increase the thrombogenic activities of Leronlimab. |
| Glembatumumab vedotin | Estradiol cypionate may increase the thrombogenic activities of Glembatumumab vedotin. |
| Olaratumab | Estradiol cypionate may increase the thrombogenic activities of Olaratumab. |
| IPH 2101 | Estradiol cypionate may increase the thrombogenic activities of IPH 2101. |
| TB-402 | Estradiol cypionate may increase the thrombogenic activities of TB-402. |
| Caplacizumab | Estradiol cypionate may increase the thrombogenic activities of Caplacizumab. |
| IMC-1C11 | Estradiol cypionate may increase the thrombogenic activities of IMC-1C11. |
| Eldelumab | Estradiol cypionate may increase the thrombogenic activities of Eldelumab. |
| Lumiliximab | Estradiol cypionate may increase the thrombogenic activities of Lumiliximab. |
| Nimotuzumab | Estradiol cypionate may increase the thrombogenic activities of Nimotuzumab. |
| Clenoliximab | Estradiol cypionate may increase the thrombogenic activities of Clenoliximab. |
| BIIB015 | Estradiol cypionate may increase the thrombogenic activities of BIIB015. |
| Sonepcizumab | Estradiol cypionate may increase the thrombogenic activities of Sonepcizumab. |
| Motavizumab | Estradiol cypionate may increase the thrombogenic activities of Motavizumab. |
| Elotuzumab | Estradiol cypionate may increase the thrombogenic activities of Elotuzumab. |
| Carotuximab | Estradiol cypionate may increase the thrombogenic activities of Carotuximab. |
| XmAb 2513 | Estradiol cypionate may increase the thrombogenic activities of XmAb 2513. |
| Lucatumumab | Estradiol cypionate may increase the thrombogenic activities of Lucatumumab. |