This review investigates the connection between Type 2 Diabetes Mellitus and Alzheimer's disease, focusing on common mechanisms and the potential of traditional Indian herbs to manage both conditions. It also addresses the challenges and innovative strategies in delivering herbal formulations.
This perspective provides recommendations and strategies for the urban ecosystem rehabilitation of future cities, placing biodiversity and ecosystem services at the core of designing healthy and sustainable urban spaces.
Globalization, westernization, and urbanization over the last decades, leading to changes in dietary habits as well as food production, consequently, rising non-communicable diseases (NCDs) and environmental degradation. This study attempts to identify Thailand's dietary changes, considering health and sustainability aspects, and to determine correlations between these changes and NCD cases as well as environmental impacts (GHG emissions, land-, nitrogen-, phosphorus-use).
Addressing the environmental impacts of lithium mining requires a multifaceted approach, from innovative recycling technologies to reducing reliance on lithium, funding research into mining alternatives, and stringent regulations on lithium mining.
How to prepare midwives for humanitarian catastrophes.
This paper supports SDG 3 with evidence of disparate effects of phased COVID-19 vaccine rollout on mental health across US populations, underlining the need for careful planning in future strategies for phased disease prevention and interventions.
This viewpoint highlights the threat of gambling as an emerging public health issue in the American continent.
A non invasive way to test stress levels an monitor metal health in the work environment.
Steroidal alkaloids from bioactive sources as a potential therapeutic approach to managing Alzheimer’s. It is a review, but I think it shines a really unique light in underexplored, and oft inexpensive, approaches.
The study demonstrates that the peptide PHDP5, which inhibits dynamin-MT interaction, can rescue impaired endocytosis and synaptic transmission caused by tau in presynaptic terminals. When administered intranasally to Alzheimer's disease (AD) model mice, PHDP5 significantly improved learning and memory, suggesting its potential as a candidate for human AD therapy.
