A Review on in-vivo and in-vitro Models of Obesity and Obesity-Associated Co-Morbidities.

Endocrine, metabolic & immune disorders drug targets Pub Date : 2024-08-12 DOI:10.2174/0118715303312932240801073903

Digbijoy Nath, Pervej Alom Barbhuiya, Saikat Sen, Manash Pratim Pathak

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Abstract

Background: Obesity is becoming a global pandemic with pandemic proportions. According to the WHO estimates, there were over 1.9 billion overweight individuals and over 650 million obese adults in the globe in 2016. In recent years, scientists have encountered difficulties in choosing acceptable animal models, leading to a multitude of contradicting aspects and incorrect outcomes. This review comprehensively evaluates different screening models of obesity and obesity-associated comorbidities to reveal the advantages and disadvantages/limitations of each model while also mentioning the time duration each model requires to induce obesity.

Methodology: For this review, the authors have gone through a vast number of article sources from different scientific databases, such as Google Scholar, Web of Science, Medline, and PubMed.

Results: In-vivo models used to represent a variety of obesity-inducing processes, such as diet-induced, drug-induced, surgical, chemical, stress-induced, and genetic models, are discussed. Animal cell models are examined with an emphasis on their use in understanding the molecular causes of obesity, for which we discussed in depth the important cell lines, including 3T3-L1, OP9, 3T3-F442A, and C3H10T1/2. Screening models of obesity-associated co-morbidities like diabetes, asthma, cardiovascular disorders, cancer, and polycystic ovarian syndrome (PCOS) were discussed, which provided light on the complex interactions between obesity and numerous health problems.

Conclusion: Mimicking obesity in an animal model reflects multifactorial aspects is a matter of challenge. Future studies could address the ethical issues surrounding the use of animals in obesity research as well as investigate newly developed models, such as non-mammalian models. In conclusion, improving our knowledge and management of obesity and related health problems will require ongoing assessment and improvement of study models.

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肥胖症和肥胖症相关并发症的体内和体外模型综述。

背景：肥胖症正在成为一种全球性大流行病。据世界卫生组织估计，2016 年全球有超过 19 亿人超重，超过 6.5 亿成年人肥胖。近年来，科学家们在选择可接受的动物模型时遇到了困难，导致了许多相互矛盾的方面和不正确的结果。这篇综述全面评估了肥胖和肥胖相关合并症的不同筛选模型，揭示了每种模型的优缺点/局限性，同时还提到了每种模型诱导肥胖所需的时间：为了撰写这篇综述，作者从不同的科学数据库（如 Google Scholar、Web of Science、Medline 和 PubMed）中查阅了大量的文章资料：结果：讨论了用于代表各种肥胖诱发过程的体内模型，如饮食诱发、药物诱发、手术诱发、化学诱发、压力诱发和遗传诱发模型。我们深入讨论了重要的细胞系，包括 3T3-L1、OP9、3T3-F442A 和 C3H10T1/2。我们还讨论了肥胖相关并发症的筛选模型，如糖尿病、哮喘、心血管疾病、癌症和多囊卵巢综合征（PCOS），这些模型揭示了肥胖与众多健康问题之间复杂的相互作用：结论：在动物模型中模拟肥胖症反映了多因素方面的问题，这是一个挑战。未来的研究可以解决肥胖研究中使用动物的伦理问题，并调查新开发的模型，如非哺乳动物模型。总之，要提高我们对肥胖症及相关健康问题的认识和管理水平，就需要不断评估和改进研究模型。

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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Endocrine, metabolic & immune disorders drug targets

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