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A three-year study of nearly 4,000 adults ranging from age 19 to 94 found that brain health can improve at any age, challenging the common belief that mental sharpness must decline as we get older. Participants spent just a few minutes a day on brain-training activities, and researchers found measurable gains across multiple aspects of brain health, including thinking clarity, emotional well-being, and sense of purpose.

Learning a musical instrument later in life may help keep the brain younger for longer. In a four-year study, older adults who continued practicing maintained their memory performance and showed less age-related brain shrinkage than those who quit. The benefits were especially noticeable in brain regions tied to memory and learning.

CONCLUSIONS: This study challenges the prevailing assumption that the "digital divide inevitably isolates the older adults from participating in a digitized society." By integrating digital technologies into older adults care services, we demonstrate that smart elderly care is positively associated with bridging technological barriers and addressing the unmet needs of aging populations. These findings further propose a synergistic mechanism-policy innovation, technological adaptation, and...

CONCLUSIONS: Multidomain predictors spanning objective movement behaviours, body-composition indicators, and built-environment measures showed value for identifying education-stratified MoCA-defined MCI in community-dwelling older adults. LightGBM achieved the best overall performance among the candidate models. These findings support the potential utility of integrating behavioural, biological, and environmental information for community-based cognitive-risk stratification, although external...

A child psychologist says grandparents are more important than ever as youth mental health challenges continue to rise. He argues that children need supportive relationships, meaningful conversations, and a sense of purpose—not just pressure to achieve. Grandparents can help by listening, encouraging, and creating positive experiences that strengthen emotional resilience.

Scientists have uncovered a surprising new genetic cause of a rare movement disorder after analyzing nearly 3,000 patients with conditions affecting coordination and muscle control. The team identified mutations in a gene called CD99L2, previously linked only to the immune system, and showed that it plays an essential role in keeping nerve-cell communication running smoothly.

A new experimental vaccine developed by Scripps Research could offer a powerful new way to prevent fentanyl overdoses by stopping the drug before it reaches the brain. Rather than targeting only fentanyl itself, the vaccine trains the immune system to recognize a broad range of fentanyl-related designer drugs, including some of the most dangerous variants.

A new nature-inspired membrane uses perfectly uniform one-nanometer pores to filter molecules with remarkable precision. The technology could transform industries such as pharmaceuticals and textiles by reducing energy consumption, improving water reuse, and delivering separation performance far beyond current filters.

A low-calorie fasting-style diet significantly reduced inflammation linked to gum disease in a small clinical study. The findings suggest that what people eat may influence gum health almost as much as what they do with a toothbrush.

Researchers discovered that mutations linked to blood cancers may help trigger Alzheimer’s disease by creating overly inflammatory immune cells in the brain. The unexpected finding could lead to new blood-based screening methods and potential treatments borrowed from cancer medicine.

A new treatment that blocks an aging-related protein restored lost cartilage in old mice and helped prevent arthritis after knee injuries. Human cartilage samples showed similar signs of regeneration, raising hopes for a future drug that could repair joints instead of replacing them.

Neurodegenerative diseases share common pathophysiological mechanisms, including chronic neuroinflammation, glutamatergic excitotoxicity, oxidative stress, mitochondrial dysfunction, and disruptions in synaptic and lipid homeostasis. In this context, the endocannabinoid system has emerged as a key modulator of neuroimmune communication and neuronal survival. Within this system, Monoacylglycerol Lipase (MAGL) plays a central role by regulating the levels of the endocannabinoid...

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CONCLUSION: Operational definitions of multimorbidity substantially influence prevalence estimates, while associations with mortality appear more robust across count-based approaches. Clustering analyses provide complementary insights into heterogeneity within multimorbid populations. Future translational studies are warranted to determine how multimorbidity definitions can be optimized to ultimately improve clinical management and health outcomes in practice.

Metaplasticity is homeostatic regulation of brain excitability through which neurons change their threshold for response based on synaptic history. Transcranial direct current stimulation (tDCS) induced metaplastic shifts in cortical excitability have been shown to improve motor learning in older adults. However, this has not been explored in the context of a fatiguing contraction. We aimed to explore modulation of fatiguing exercise performance, corticospinal excitability and gamma-aminobutyric...

As a cutaneous appendage, the hair follicle is tightly associated with the skin during growth, pigmentation, and aging. These two interconnected tissues share evolutionarily conserved regulatory mechanisms-including stem cell niche signaling, inflammatory cascades, and oxidative stress-and collectively function as hallmarks of systemic organismal aging. Hair abnormalities are well-established concomitant manifestations of aged skin. The crosstalk between skin aging and hair aging is particularly...

Declining tissue function and regenerative capacity underlie many chronic diseases. Experimentally establishing the mechanistic basis for such tissue aging presents substantial challenges, given decades-long timescales and multifactorial origins. Epigenetic alterations have been proposed to have a key etiological role, but whether they are correlative or causal remains a key unanswered question, as does their contribution to specific age-related pathologies. Here we describe an epigenetically...

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WNT proteins have been recognized as key regulators of skeletal health. However, developing WNT-associated bone anabolic agents is clinically challenging and expensive. Here we identify the reconstructed thumb and index domains of WNT7B (WNT7B^(RTID)) as a WNT-derived bone anabolic peptide via Alphafold-empowered sequence prediction and in silico docking screening. In aged mice and pigs models of osteoporosis, WNT7B^(RTID) peptides demonstrate therapeutic potential by improving the osteogenic...

Adipose tissue has emerged as a dynamic endocrine organ that coordinates systemic energy balance and cardiometabolic health. This Review highlights the dual humoral and neuronal pathways through which adipose tissue regulates systemic metabolism. Humoral signals include peptide hormones, lipid mediators, metabolites, chemokines and exosomal microRNAs secreted by adipose depots. Neuronal circuits control adipose function rapidly and precisely: sympathetic efferents trigger lipolysis in white...