二氮嗪
二氮嗪(英語:Diazoxide)以Proglycem等品牌於市面上銷售,是一種用於治療多種特定原因引起的低血糖藥物,[2]包括無法切除的胰神經內分泌瘤和楓香氨酸敏感性嬰兒低血糖症。[2]也可用於治療難治性磺醯脲類中毒。[3]一般採口服方式給藥。[2]
臨床資料 | |
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商品名 | Proglycem |
AHFS/Drugs.com | Monograph |
核准狀況 | |
懷孕分級 |
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给药途径 | 口服給藥, 靜脈注射 |
ATC碼 | |
法律規範狀態 | |
法律規範 |
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藥物動力學數據 | |
血漿蛋白結合率 | 90% |
药物代谢 | 肝臟 氧化及硫酸鹽偶聯 |
生物半衰期 | 21-45小時 |
排泄途徑 | 腎臟 |
识别信息 | |
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CAS号 | 364-98-7 |
PubChem CID | |
IUPHAR/BPS | |
DrugBank | |
ChemSpider | |
UNII | |
KEGG | |
ChEBI | |
ChEMBL | |
CompTox Dashboard (EPA) | |
ECHA InfoCard | 100.006.063 |
化学信息 | |
化学式 | C8H7ClN2O2S |
摩尔质量 | 230.67 g·mol−1 |
3D模型(JSmol) | |
熔点 | 330至331 °C(626至628 °F) |
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使用後常見的副作用有高血糖、水腫、血小板減少症、心率加快、毛髮生長加快和噁心。[3]其他嚴重的副作用有肺高壓和心臟衰竭。[3]此藥物的化學性質與噻嗪類利尿劑相似,[3]透過減少胰臟的胰島素釋放和增加肝臟的葡萄糖釋放而發揮作用。[3]
二氮嗪於1973年被美國食品藥物管理局(FDA)批准用於醫療用途。[3]它已被列入世界衛生組織基本藥物標準清單之中。[4][5]市面上有其通用名藥物流通。[6]
FDA將二氮嗪列為懷孕安全等級C类藥物(動物實驗存在潛在風險、缺乏人類臨床試驗數據及雖然存在潛在風險,但在某些特定情況下,藥物治療益處可能大於對胎兒的潜潛在危害。醫生會權衡利弊後决定是否用藥。)。在動物的繁殖研究顯示該藥物對多個胎兒組織(包括骨骼和心臟組織)具有毒性和致畸型性。二氮嗪可穿越動物的胎盤,導致胎兒胰臟的β細胞退化。但目前尚未確定此藥物在人類懷孕期間的安全性。然而孕婦暴露於該藥物可能會導致新生兒黃疸、血小板减少症以及碳水化合物代謝紊亂(包括脫髮和先天性遺傳多毛症)。哺乳期婦女在服用此藥物之前應諮詢醫生。[7]
醫療用途
二氮嗪是種血管舒張劑,用於治療急性高血壓或嚴重高血壓。[8]
此藥物也透過打開胰臟β細胞的ATP敏感鉀通道來抑制胰島素分泌。它因此可用於對抗胰島素瘤(產生胰島素的腫瘤)[9]或先天性高胰島素血症等疾病而發生的低血糖。
副作用
二氮嗪透過其對鉀通道的作用而干擾胰島素釋放。[11]二氮嗪是胰臟中產生胰島素的β細胞上的ATP鉀通道最有效的開放劑之一。打開這些通道會導致細胞膜超極化,鈣流入減少,隨後胰島素釋放減少。[3]這種作用機轉與磺醯脲類藥物的作用機轉相反,磺醯脲類藥物是一類用於增加第2型糖尿病患者胰島素釋放的藥物。此藥物因此不適合第2型糖尿病患者服用。
FDA於2015年7月發佈一項安全通告,強調使用該藥物治療的新生兒和嬰兒可能會出現肺高壓。[12]
禁忌症
包括如下:[13]
與其他藥物交互作用
一般而言,二氮嗪與其他藥物沒嚴重的交互作用。[14]
合成
研究
由二氮氧化物和氯化膽鹼組成的二氮嗪正被作為一種實驗性抗肥胖藥物,為患有普瑞德威利症候群[[15][16][17]和由SH2B1、PCSK1或SIM1基因突變所引起的單基因肥胖症患者中進行測試。[18]
參考文獻
- ^ Product monograph brand safety updates. Health Canada. 2016-07-06 [2024-04-03].
- ^ 2.0 2.1 2.2 Diazoxide Monograph for Professionals. Drugs.com. [11 October 2019] (英语).
- ^ 3.0 3.1 3.2 3.3 3.4 3.5 3.6 Doyle ME, Egan JM. Pharmacological agents that directly modulate insulin secretion. Pharmacological Reviews. March 2003, 55 (1): 105–131. PMID 12615955. S2CID 11121340. doi:10.1124/pr.55.1.7.
- ^ World Health Organization. World Health Organization model list of essential medicines: 21st list 2019. Geneva: World Health Organization. 2019. hdl:10665/325771 . WHO/MVP/EMP/IAU/2019.06. License: CC BY-NC-SA 3.0 IGO.
- ^ World Health Organization. World Health Organization model list of essential medicines: 22nd list (2021). Geneva: World Health Organization. 2021. hdl:10665/345533 . WHO/MHP/HPS/EML/2021.02.
- ^ British national formulary : BNF 76 76. Pharmaceutical Press. 2018: 708. ISBN 9780857113382.
- ^ Farris, F.F. Encyclopedia of Toxicology Reference Work • Third Edition • 2014 https://www.sciencedirect.com/topics/chemistry/diazoxide. [20240702]. 缺少或
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为空 (帮助) - ^ van Hamersvelt HW, Kloke HJ, de Jong DJ, Koene RA, Huysmans FT. Oedema formation with the vasodilators nifedipine and diazoxide: direct local effect or sodium retention?. Journal of Hypertension. August 1996, 14 (8): 1041–1045. PMID 8884561. S2CID 3283469. doi:10.1097/00004872-199608000-00016.
- ^ Huang Q, Bu S, Yu Y, Guo Z, Ghatnekar G, Bu M, Yang L, Lu B, Feng Z, Liu S, Wang F. Diazoxide prevents diabetes through inhibiting pancreatic beta-cells from apoptosis via Bcl-2/Bax rate and p38-beta mitogen-activated protein kinase. Endocrinology. January 2007, 148 (1): 81–91. PMID 17053028. doi:10.1210/en.2006-0738 .
- ^ Randle JC, Biton C, Lepagnol JM. Allosteric potentiation by diazoxide of AMPA receptor currents and synaptic potentials. European Journal of Pharmacology. November 1993, 247 (3): 257–265. PMID 8307099. doi:10.1016/0922-4106(93)90193-D.
- ^ Panten U, Burgfeld J, Goerke F, Rennicke M, Schwanstecher M, Wallasch A, Zünkler BJ, Lenzen S. Control of insulin secretion by sulfonylureas, meglitinide and diazoxide in relation to their binding to the sulfonylurea receptor in pancreatic islets. Biochemical Pharmacology. April 1989, 38 (8): 1217–1229. PMID 2650685. doi:10.1016/0006-2952(89)90327-4.
- ^ FDA Drug Safety Communication: FDA warns about a serious lung condition in infants and newborns treated with Proglycem (diazoxide) (新闻稿). Food and Drug Administration. 2015-07-16 [2015-07-19].
- ^ Diazoxide. Padiatric Oncall. [2024-07-02].
- ^ 14.0 14.1 14.2 DIAZOXIDE. RxList. [2024-07-02].
- ^ Miller JL, Gevers E, Bridges N, Yanovski JA, Salehi P, Obrynba KS, Felner EI, Bird LM, Shoemaker AH, Angulo M, Butler MG, Stevenson D, Goldstone AP, Wilding J, Lah M, Shaikh MG, Littlejohn E, Abuzzahab MJ, Fleischman A, Hirano P, Yen K, Cowen NM, Bhatnagar A. Diazoxide choline extended-release tablet in people with Prader-Willi syndrome: results from long-term open-label study. Obesity. February 2024, 32 (2): 252–261. PMID 37919617. S2CID 264973612. doi:10.1002/oby.23928 . hdl:10044/1/107689 .
- ^ Kimonis V, Surampalli A, Wencel M, Gold JA, Cowen NM. A randomized pilot efficacy and safety trial of diazoxide choline controlled-release in patients with Prader-Willi syndrome. PLOS ONE. 23 September 2019, 14 (9): e0221615. Bibcode:2019PLoSO..1421615K. PMC 6756513 . PMID 31545799. doi:10.1371/journal.pone.0221615 .
- ^ Miller JL, Gevers E, Bridges N, Yanovski JA, Salehi P, Obrynba KS, Felner EI, Bird LM, Shoemaker AH, Angulo M, Butler MG, Stevenson D, Abuzzahab J, Barrett T, Lah M, Littlejohn E, Mathew V, Cowen NM, Bhatnagar A. Diazoxide Choline Extended-Release Tablet in People With Prader-Willi Syndrome: A Double-Blind, Placebo-Controlled Trial. The Journal of Clinical Endocrinology and Metabolism. June 2023, 108 (7): 1676–1685. PMC 10271219 . PMID 36639249. doi:10.1210/clinem/dgad014.
- ^ Clinical trial number NCT05532020 for "An Open-Label Study of Diazoxide Choline in Patients With Genetic Obesities" at ClinicalTrials.gov