Diabetes Research Focus: Diabetic Mouse Modeling from Marina Barrow's blog
Diabetes
mellitus is a chronic, systemic, metabolic disease caused by the long-term
combination of genetic factors and environmental factors, characterized by
increased plasma glucose levels, mainly due to insufficient insulin secretion
or dysfunction in the body (insulin resistance). Diabetes can be categorized
into three primary forms - type 1, type 2, and gestational diabetes - each with
distinct underlying causes. With the prevalence of diabetes increasing at an
alarming rate, there is a critical need for innovative research solutions to
better understand and combat this epidemic. The use of mouse models enables the
study of diabetes in a way that closely mirrors the disease in humans, helping
to explore disease mechanisms, find biomarkers, and evaluate potential
treatments.
Ace
Therapeutics provides diverse diabetic mouse models targeting type 1 diabetes
mellitus (T1DM), type 2 diabetes mellitus (T2DM), and gestational
diabetes mellitus (GDM). The T1DM mouse models allow researchers to study the
mechanism of type 1 diabetes, identify biomarkers, and test potential
therapies. Mouse models for T2DM study is generated by feeding mice a high-fat
or high-sugar diet or genetically modifying mice to develop obesity and insulin
resistance. These models matter a lot in type 2 diabetes research. Different from
T2DM mouse models, GDM mouse models involve feeding mice a high-fat or
high-sugar diet during pregnancy or genetically modifying mice to develop
impaired glucose tolerance and insulin resistance during pregnancy.
“With
the launch of our diabetic mouse models, we are excited to provide researchers
with a reliable and versatile platform to advance their understanding of
diabetes and develop novel treatments,” said the marketing manager of Ace
Therapeutics. “Our models offer a high level of accuracy and reproducibility,
allowing for more precise and reliable results in preclinical studies.”
Ace
Therapeutics’ mouse models mimic the key characteristics of human diabetes,
such as hyperglycemia, insulin resistance, and pancreatic dysfunction, making
them invaluable for investigating disease pathology and testing new
therapeutics. These mouse models are available for purchase immediately and can
be customized to meet specific research needs as well.
The Wall