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Dipeptidyl Peptidase 4 Inhibitors01:23

Dipeptidyl Peptidase 4 Inhibitors

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Dipeptidyl peptidase 4 (DPP-4) is a serine protease widely distributed in the body. It's involved in the inactivation of GLP-1 and GIP hormones, which are crucial for insulin regulation. DPP-4 inhibitors, such as sitagliptin (Januvia), saxagliptin (Onglyza), linagliptin (Tradjenta), alogliptin (Nesina), and vildagliptin (Galvus), help increase the proportion of active GLP-1, enhancing insulin secretion. These inhibitors work by competitively binding to DPP-4. This binding causes a...
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Repaglinide (Prandin) and Nateglinide (Starlix), known as glinides, are oral insulin secretagogues that stimulate insulin release from pancreatic β cells by closing the ATP-sensitive potassium channels (KATP channel). Repaglinide controls insulin release from pancreatic β cells by managing potassium efflux. It shares two binding sites with sulfonylureas and also has a unique site, indicating overlapping mechanisms of action. With a rapid onset and a 4-7 hour duration, it effectively...
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Incretins include glucagon-like peptide-1 (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP), which stimulate insulin secretion post-meals. In type 2 diabetes, GIP's efficacy is reduced, making GLP-1 a viable drug target. GIP originates from preproGIP.
GLP-1, when administered in high doses intravenously, triggers insulin secretion, inhibits glucagon release, slows gastric emptying, reduces food intake, and restores normal insulin secretion. However, its rapid inactivation by...
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Oral Hypoglycemic Agents: Biguanides and Glitazones01:26

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Biguanides, particularly metformin (Glucophage), are insulin sensitizers that enhance glucose uptake, thereby reducing insulin resistance. Unlike sulfonylureas, metformin doesn't prompt insulin secretion, which helps to curb hypoglycemia risk. Metformin is beneficial in treating conditions like polycystic ovary syndrome due to its insulin-resistance reduction capability. The drug's primary action involves curtailing hepatic gluconeogenesis, a significant contributor to high blood...
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Insulin-replacement therapy usually includes both long-acting insulin (basal) and short-acting insulin (to cater to postprandial needs). In a diverse group of type 1 diabetes patients, the average daily insulin dose is typically 0.5-0.7 units/kg body weight. However, obese patients and pubertal adolescents may need more due to insulin resistance.
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α-glucosidase inhibitors, including acarbose (Precose), miglitol (Glyset), and voglibose (Voglib) (primarily available in Asia), are drugs that control blood sugar levels by delaying the digestion of starch and disaccharides. They achieve this by inhibiting α-glucosidase enzymes in the intestine, which slow the absorption of carbohydrates in the intestine, which in turn leads to a prolonged release of the glucoregulatory hormone GLP-1 from intestinal L-cells.
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林格利平:一个全面的个人资料.

Mohamed Fawzy Kabil1, Jude Majed Lababidi1, Hassan Mohamed El-Said Azzazy1

  • 1Department of Chemistry, School of Sciences and Engineering, The American University in Cairo, AUC Avenue, New Cairo, Egypt.

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概括
此摘要是机器生成的。

林格利平是治疗2型糖尿病的口服双基酸酶IV抑制剂. 本综述涵盖了其特性,合成,分析和热特性,以更好地了解这一重要的抗糖尿病药物.

关键词:
通过HPLC进行分析.林纳格利普丁 (Linagliptin) 是一种药物.对NMR分析进行NMR分析.药理动力学 药理动力学热分析是一种热分析.紫外线光谱中的紫外线光谱

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科学领域:

  • 药理学和药物化学 药理学和药物化学
  • 分析化学 分析化学

背景情况:

  • 林格利普丁 (LINA) 是一种新型的口服二二酶IV (DPP-IV) 抑制剂.
  • 它是管理2型糖尿病成年人高血糖症的关键治疗剂.

研究的目的:

  • 为了提供对Linagliptin的全面审查.
  • 详细说明其命名,物理化学性质,合成和热分析.
  • 介绍林纳格利普丁的各种分析技术.

主要方法:

  • 文献综述和对Linagliptin现有数据的综合.
  • 物理化学特征的分析.
  • 对合成途径的审查.
  • 对热分析数据的检查.
  • 分析方法的调查,用于Linagliptin的量化和识别.

主要成果:

  • 突出了作为口服DPP-IV抑制剂的林加利普丁的独特特性.
  • 详细介绍了其化学结构,物理特性和合成路径的详细信息.
  • 讨论了对其评估的各种分析方法.

结论:

  • 本综述整合了关于林加利普丁的基本信息.
  • 它是参与糖尿病管理和制药分析的研究人员和临床医生的宝贵资源.