Dowling R H, Hussaini S H, Murphy G M, Besser G M, Wass J A
Gastroenterology Unit, UMDS of Guy's Hospital, London, England.
Metabolism. 1992 Sep;41(9 Suppl 2):22-33. doi: 10.1016/0026-0495(92)90027-8.
Gallbladder stones (GBS) are found in up to 50% of patients receiving octreotide, but the reported prevalence of cholecystolithiasis in patients treated with octreotide is variable and little is known about gallstone incidence, composition, pathogenetic mechanisms, dissolvability, and primary prevention. Octreotide treatment apart, in industrialised societies most GBS are mixed in composition, cholesterol-rich (arbitrarily greater than 70% cholesterol by weight), radiolucent (70%), and, given a patent cystic duct (70%), dissolvable in bile rendered unsaturated in cholesterol by oral ursodeoxycholic (UDCA) +/- chenodeoxycholic (CDCA) acid treatment. They form when (1) GB bile becomes supersaturated with cholesterol (as the molar ratio of cholesterol to phospholipids in biliary vesicles approaches 1:1, the vesicles become unstable); (2) there is an imbalance between pro- and anti-nucleating factors, which favors cholesterol crystal precipitation; and (3) there is stasis within the GB as a result of altered motor function and/or excess mucus that traps the crystals. These changes may be associated with altered (4) biliary bile acid composition (more DCA and less CDCA than normal), and/or (5) phospholipid fatty acid composition (arachidonyl-rich lecithin acting as a substrate for mucosal prostaglandin synthesis which, in turn, may influence both gallbladder motility, and mucus glycoprotein synthesis and secretion). During octreotide treatment, meal-stimulated cholecystokinin (CCK) release is impaired leading to GB hypomotility, but little is known about the effects of octreotide on biliary cholesterol saturation, crystal nucleation time, mucus glycoprotein concentration, bile acid or phospholipid fatty acid composition. Most, but not all, reports suggest that the prevalence of GBS in octreotide-treated patients is considerably greater than that in age-, sex-, and weight-matched controls, but proof (by pre-treatment and on-treatment ultrasound) that the GBS were absent before, but developed during, therapy is not always available. Furthermore, there are few data on analysis of GBS composition in patients developing stones during treatment, although initial reports suggest that octreotide-associated GBS are also radiolucent, cholesterol-rich, and dissolve with oral bile acid treatment. Maximum GBS attenuation values, measured in Hounsfield Units (HU) by localized computerized tomography scanning of the GB, predict stone composition and dissolvability: GBS with scores of less than 100 HU are cholesterol-rich and dissolve well with oral bile acid treatment. However, preliminary results in 11 acromegalic patients treated with 200 to 600 micrograms octreotide/d for 29 to 68 months show that the HU scores range from 23 to 490 (mean +/- SEM, 116 +/- 41), suggesting that at least four of these 11 patients have non-cholesterol stones.(ABSTRACT TRUNCATED AT 400 WORDS)
在接受奥曲肽治疗的患者中,高达50%被发现有胆囊结石(GBS),但报道的接受奥曲肽治疗患者的胆石症患病率存在差异,对于胆结石的发病率、成分、发病机制、溶解性及一级预防知之甚少。除奥曲肽治疗外,在工业化社会中,大多数GBS成分混合,富含胆固醇(按重量计胆固醇含量任意大于70%),透X线(70%),并且在胆囊管通畅(70%)的情况下,通过口服熊去氧胆酸(UDCA)+/-鹅去氧胆酸(CDCA)酸治疗使胆汁中胆固醇不饱和时可溶解于胆汁。它们在以下情况形成:(1)胆囊胆汁中的胆固醇变得过饱和(当胆囊小泡中胆固醇与磷脂的摩尔比接近1:1时,小泡变得不稳定);(2)促核化因子与抗核化因子之间存在失衡,这有利于胆固醇晶体沉淀;(3)由于运动功能改变和/或捕获晶体的过多黏液,胆囊内出现淤滞。这些变化可能与以下改变相关:(4)胆汁酸成分改变(与正常相比,脱氧胆酸更多,鹅去氧胆酸更少),和/或(5)磷脂脂肪酸成分改变(富含花生四烯酸的卵磷脂作为黏膜前列腺素合成的底物,进而可能影响胆囊运动以及黏液糖蛋白的合成与分泌)。在奥曲肽治疗期间,进餐刺激的胆囊收缩素(CCK)释放受损,导致胆囊运动减弱,但关于奥曲肽对胆汁胆固醇饱和度、晶体成核时间、黏液糖蛋白浓度、胆汁酸或磷脂脂肪酸成分的影响知之甚少。大多数(但并非全部)报告表明,接受奥曲肽治疗患者的GBS患病率显著高于年龄、性别和体重匹配的对照组,但通过治疗前和治疗中超声证明治疗前无GBS而治疗期间出现GBS的情况并不总是存在。此外,关于治疗期间发生结石患者的GBS成分分析数据很少,尽管初步报告表明奥曲肽相关的GBS也是透X线、富含胆固醇的,并且口服胆汁酸治疗可溶解。通过对胆囊进行局部计算机断层扫描以亨氏单位(HU)测量的GBS最大衰减值可预测结石成分和溶解性:得分低于100 HU的GBS富含胆固醇,口服胆汁酸治疗溶解良好。然而,对11例肢端肥大症患者进行200至600微克奥曲肽/天治疗29至68个月的初步结果显示,HU得分范围为23至490(平均值+/-标准误,116+/-41),表明这11例患者中至少有4例有非胆固醇结石。(摘要截于400字)
