Epileptic seizures are more common in patients with frontotemporal dementia (FTD) than previously known, according to a recent study. This discovery sheds new light on the symptoms of this memory disorder and emphasizes the importance of considering epileptic seizures in treatment and monitoring patients.

The research project, led by Neurocenter Finland, analyzed data from 12,490 medical records at the University Hospitals of Kuopio and Oulu between 2010-2021. The study identified 245 patients with FTD and found that epilepsy was significantly more common among them than those with Alzheimer’s disease or healthy controls.

“Our results show that epilepsy is considerably more common among those with FTD than those with Alzheimer’s disease or in healthy controls,” says Doctoral Researcher Annemari Kilpeläinen, the first author of the research article and a medical specialist in neurology. “It is noteworthy that epilepsy occurred in some patients with FTD already ten years before their dementia diagnosis, and it was more common in all the examined stages of the disease than previous international studies have reported.”

The prevalence of epilepsy increased over time in patients with FTD, reaching approximately 11% five years after the diagnosis. In addition to diagnosing epilepsy, medications used for epilepsy were more common among patients with FTD, further strengthening the reliability of the results.

Diagnosing epilepsy in patients with FTD can be challenging due to the resemblance between the symptoms of the disease and epileptic seizures. However, untreated epilepsy can significantly worsen patients’ condition. Identifying epilepsy is essential because its treatment can improve patients’ functional capacity and quality of life.

“Knowledge about the association between epilepsy and FTD raises new research questions: do these diseases share some pathophysiological mechanisms and could some FTD symptoms be caused by alterations in the specific electrical systems of the brain?” asks Associate Professor Eino Solje, the principal investigator of the project.

The recently published study is part of an extensive project that combines real-life patient data with different kinds of unique registers. The project involves a strong cooperation between the University of Oulu and the University of Eastern Finland as well as different fields of science, including between researchers in medicine and law.

Breaking New Ground: Immune System Discovery Offers Potential Solution to Alzheimer’s

A groundbreaking study has shed new light on the relationship between the immune system and Alzheimer’s disease. Researchers at the University of Virginia School of Medicine have discovered that an immune molecule called STING plays a crucial role in driving the formation of amyloid plaques and tau tangles, hallmarks of Alzheimer’s.

The study found that blocking STING activity in lab mice protected them from mental decline, suggesting a promising new target for developing treatments. This breakthrough has far-reaching implications for understanding and treating not only Alzheimer’s but also other neurodegenerative diseases like Parkinson’s disease, amyotrophic lateral sclerosis (ALS), and dementia.

“The findings demonstrate that the DNA damage that naturally accumulates during aging triggers STING-mediated brain inflammation and neuronal damage in Alzheimer’s disease,” said researcher John Lukens, PhD. “These results help to explain why aging is associated with increased Alzheimer’s risk and uncover a novel pathway to target in the treatment of neurodegenerative diseases.”

The study, published in Alzheimer’s & Dementia: The Journal of the Alzheimer’s Association, involved a team of researchers from UVA’s Department of Neuroscience and Center for Brain Immunology and Glia (BIG Center). They found that removing STING dampened microglial activation around amyloid plaques, protected nearby neurons from damage, and improved memory function in Alzheimer’s model mice.

The discovery of STING as a key player in the development of neurodegenerative diseases opens new doors for research into potential treatments. While much more work is needed to translate these findings into effective therapies, this breakthrough has sparked hope among researchers and patients alike.

“Our hope is that this work moves us close to finding safer and more effective ways to protect the aging brain,” said Lukens. “Shedding light on how STING contributes to that damage may help us target similar molecules and ultimately develop effective disease-modifying treatments.”

Research has discovered that men who carry a common genetic variant are twice as likely to develop dementia in their lifetime compared to women. This groundbreaking study, published in Neurology, used data from the ASPirin in Reducing Events in the Elderly (ASPREE) trial to investigate whether people with variants in the haemochromatosis (HFE) gene might be at increased risk of dementia.

One in three people carry one copy of the H63D variant, while one in 36 carry two copies. Having just one copy of this gene variant does not impact someone’s health or increase their risk of dementia. However, having two copies of the variant more than doubled the risk of dementia in men, but not women.

The researchers emphasize that the genetic variant itself cannot be changed, but the brain pathways affected by it could potentially be treated if we understood more about it. Further research is needed to investigate why this genetic variant increased the risk of dementia for males but not females.

The findings suggest that perhaps testing for the HFE gene could be offered to men more broadly, considering its routine testing in most Western countries, including Australia, when assessing people for haemochromatosis – a disorder that causes the body to absorb too much iron. The study found no direct link between iron levels in the blood and increased dementia risk in affected men.

This points to other mechanisms at play, possibly involving the increased risk of brain injury from inflammation and cell damage in the body. Understanding why men with the double H63D variant are at higher risk could pave the way for more personalized approaches to prevention and treatment.

The ASPREE trial was a groundbreaking study that created a treasure trove of healthy ageing data, which has underpinned a wealth of research studies. This collaboration between Curtin University, Monash University, The University of Melbourne, The Royal Children’s Hospital, Murdoch Children’s Research Institute, and Fiona Stanley Hospital demonstrates the importance of diverse Australian research groups working together to improve health outcomes for people around the world.

The implications of this study are significant, considering that more than 400,000 Australians are currently living with dementia, with around a third of those being men. This discovery could lead to improved outcomes for people at risk of developing dementia and ultimately contribute to a better understanding of these progressive diseases.