Harnessing the potential clinical use of medicinal plants as anti-diabetic agents

J. Campbell-Tofte, P. Mølgaard, K. Winther
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引用次数: 28

Abstract

Correspondence: Joan Campbell-Tofte Department of Clinical Biochemistry, Coordinating Research Unit, Frederiksberg University Hospital, Nordre Fasanvej 57, 2000 Frederiksberg, Denmark Tel +45 38 16 34 48 Fax +45 38 16 47 19 Email joan.campbell-tofte@frh.regionh.dk Abstract: Diabetes is a metabolic disorder arising from complex interactions between multiple genetic and/or environmental factors. The characteristic high blood sugar levels result from either lack of the hormone insulin (type 1 diabetes, T1D), or because body tissues do not respond to the hormone (type 2 diabetes, T2D). T1D patients currently need exogenous insulin for life, while for T2D patients who do not respond to diet and exercise regimes, oral anti-diabetic drugs (OADs) and sometimes insulin are administered to help keep their blood glucose as normal as possible. As neither the administration of insulin nor OADs is curative, many patients develop tissue degenerative processes that result in life-threatening diabetes comorbidities. Several surveys of medicinal plants used as anti-diabetic agents amongst different peoples have been published. Some of this interest is driven by the ongoing diabetes pandemic coupled with the inadequacies associated with the current state of-the-art care and management of the syndrome. However, there is a huge cleft between traditional medicine and modern (Western) medicine, with the latter understandably demanding meaningful and scientific validation of anecdotal evidence for acceptance of the former. The main problems for clinical evaluation of medicinal plants with promising anti-diabetic properties reside both with the complexity of components of the plant materials and with the lack of full understanding of the diabetes disease etiology. This review is therefore focused on why research activities involving an integration of Systems Biology-based technologies of pharmacogenomics, metabolomics, and bioinformatics with standard clinical data, should be used for cost-effective validation of the safety and anti-diabetic efficacy of promising medicinal plants. The application of such approaches to studying entire mixtures of plant materials will ensure proper elucidation of novel therapies with improved mechanisms of action, as well as facilitate a personalized clinical use of medicinal plants as anti-diabetic agents.
利用药用植物作为抗糖尿病药物的潜在临床应用
通信:Joan Campbell-Tofte临床生物化学系,协调研究单位,Frederiksberg, Nordre Fasanvej 57, 2000丹麦Frederiksberg电话+45 38 16 34 48传真+45 38 16 47 19电子邮件joan.campbell-tofte@frh.regionh.dk摘要:糖尿病是多种遗传和/或环境因素复杂相互作用引起的代谢性疾病。特征性的高血糖水平要么是由于缺乏激素胰岛素(1型糖尿病,T1D),要么是因为身体组织对激素没有反应(2型糖尿病,T2D)。目前,T1D患者需要外源性胰岛素维持生命,而对于对饮食和运动方案没有反应的T2D患者,口服抗糖尿病药物(oad)和有时使用胰岛素来帮助保持血糖尽可能正常。由于胰岛素和OADs都无法治愈,许多患者出现组织退行性过程,导致危及生命的糖尿病合并症。关于在不同民族中用作抗糖尿病药物的药用植物的若干调查已经发表。这种兴趣部分是由于持续的糖尿病大流行以及与当前最先进的综合征护理和管理状态相关的不足。然而,传统医学和现代(西方)医学之间存在着巨大的鸿沟,后者要求对轶事证据进行有意义和科学的验证才能接受前者,这是可以理解的。临床评价具有抗糖尿病前景的药用植物的主要问题在于植物材料成分的复杂性和对糖尿病病因缺乏充分的了解。因此,这篇综述的重点是,为什么应该将基于系统生物学的药物基因组学、代谢组学和生物信息学技术与标准临床数据相结合的研究活动,用于具有成本效益的验证有前途的药用植物的安全性和抗糖尿病功效。应用这些方法来研究植物材料的整体混合物将确保正确阐明具有改进作用机制的新疗法,并促进药用植物作为抗糖尿病药物的个性化临床使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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