DRC & Research News

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Diabetes and Babies

Could Benefits of Early Screening for Type 1 Diabetes Outweigh Costs?

Advances in science have improved the ability to identify warning signs for type 1 diabetes (T1D) early on. For instance, scientists can detect the destruction of insulin-producing beta cells before noticeable signs of diabetes emerge or conditions such as diabetic ketoacidosis (DKA) occur. They have also determined other key changes and factors that may put an individual at increased risk.

A recent study found that conducting health screenings on children can increase awareness regarding their risk of developing T1D, help prevent DKA occurrences, and encourage individuals to take better care of their health to reduce complications and impact of the disease.

Researchers at the Barbara Davis Center for Diabetes at the University of Colorado School of Medicine created the Autoimmunity Screening for Kids (ASK) study to determine if this type of health screening is beneficial. While it can be costly to conduct widespread screenings for children between the ages of 1 and 17, they found that there are a host of benefits such as those mentioned above. In addition, the long-term cost savings can quickly make up for screening expenses because when individuals know their risk and learn how to better manage their T1D, it can reduce complications and associated healthcare costs.

Now they are looking at how to effectively implement screenings, what the practice would look like, what the age schedule for screenings should be, and who would benefit most. Early detection can play an integral role in managing T1D and improving quality (and quantity) of life.

Diabetes research occurs at all stages of the disease, from the time patients are pre-symptomatic to those with the most serious complications. It covers everything from screenings to closed-loop systems for treatment to understanding the cellular and molecular impact of the disease. Diabetes Research Connection is committed to supporting a wide range of T1D research by providing critical funding to early-career scientists. Learn more about current projects and how to help by visiting https://diabetesresearchconnection.org.

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Role of the integrated stress response in type 1 diabetes pathogenesis
In individuals with type 1 diabetes (T1D), the insulin-producing beta cells are spontaneously destroyed by their own immune system. The trigger that provokes the immune system to destroy the beta cells is unknown. However, accumulating evidence suggest that signals are perhaps first sent out by the stressed beta cells that eventually attracts the immune cells. Stressed cells adapt different stress mitigation systems as an adaptive response. However, when these adaptive responses go awry, it results in cell death. One of the stress response mechanisms, namely the integrated stress response (ISR) is activated under a variety of stressful stimuli to promote cell survival. However, when ISR is chronically activated, it can be damaging to the cells and can lead to cell death. The role of the ISR in the context of T1D is unknown. Therefore, in this DRC funded study, we propose to study the ISR in the beta cells to determine its role in propagating T1D.
Wearable Skin Fluorescence Imaging Patch for the Detection of Blood Glucose Level on an Engineered Skin Platform
zhang
A Potential Second Cure for T1D by Re-Educating the Patient’s Immune System
L Ferreira
Validating the Hypothesis to Cure T1D by Eliminating the Rejection of Cells From Another Person by Farming Beta Cells From a Patient’s Own Stem Cells
Han Zhu
Taming a Particularly Lethal Category of Cells May Reduce/Eliminate the Onset of T1D
JRDwyer 2022 Lab 1
Can the Inhibition of One Specific Body Gene Prevent Type 1 Diabetes?
Melanie
Is Cholesterol Exacerbating T1D by Reducing the Functionality and Regeneration Ability of Residual Beta Cells?
Regeneration Ability of Residual Beta Cells
A Call to Question… Is T1D Caused by Dysfunctionality of Two Pancreatic Cells (β and α)?
Xin Tong
Novel therapy initiative with potential path to preventing T1D by targeting TWO components of T1D development (autoimmune response and beta-cell survival)
flavia pecanha