A readily available blood test that measures insulin resistance can identify Alzheimer's disease patients who are four times more likely to experience rapid cognitive decline, according to new research presented at the European Academy of Neurology's annual meeting.
The triglyceride-glucose (TyG) index, commonly used to assess diabetes risk, emerged as a powerful predictor of disease progression in a three-year study of 315 non-diabetic patients with cognitive decline, including 200 with confirmed Alzheimer's disease.
Metabolic Marker Reveals Disease Vulnerability
"Once mild cognitive impairment is diagnosed, families always ask how fast it will progress," said lead investigator Dr. Bianca Gumina, a neurology resident at the University of Brescia's Brain Health Center in Italy. "Our data show that a simple metabolic marker available in every hospital laboratory can help identify more vulnerable subjects who may be suitable candidates for targeted therapy or specific intervention strategies."
The study revealed that the third of Alzheimer's patients with the highest levels of insulin resistance had a quadrupled risk of faster cognitive decline compared to those with the least insulin resistance. Notably, this effect was specific to Alzheimer's disease and did not appear in other neurodegenerative conditions.
"We were surprised to see the effect only in the Alzheimer's spectrum and not in other neurodegenerative diseases," Gumina noted. "It suggests a disease-specific vulnerability to metabolic stress during the prodromal window, when interventions may still change the trajectory."
Mechanisms Behind Metabolic Impact
Insulin resistance is believed to advance Alzheimer's through multiple pathways, including impeding blood sugar uptake to neurons, promoting accumulation of toxic beta amyloid proteins, disrupting the blood-brain barrier, and fueling inflammation. The current study confirmed that high TyG-assessed insulin resistance was associated with blood-brain barrier disruption.
Importantly, insulin resistance did not appear to interact with genetic risk factors for Alzheimer's, indicating these represent separate, independently operating risk pathways.
Clinical Applications and Future Directions
The TyG index test offers a cost-effective screening tool that could complement existing diagnostic approaches. Researchers are now investigating whether TyG levels correlate with imaging scans of Alzheimer's pathology, as combining these methods could enhance early detection capabilities.
"If targeting metabolism can delay progression, we will have a readily modifiable target that works alongside emerging disease-modifying drugs," Gumina said.
The findings, presented at the EAN meeting in Helsinki, represent preliminary results that require validation through peer-reviewed publication. However, they suggest that metabolic interventions targeting insulin resistance could provide a new therapeutic avenue for slowing Alzheimer's progression, particularly when combined with existing treatment approaches.
