Evaluating the anti-obesity effects of tocotrienols
The new study found T3s treatment exhibited neuroprotective effects in HFSD-fed mice by mitigating oxidative stress.
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The new study found T3s treatment exhibited neuroprotective effects in HFSD-fed mice by mitigating oxidative stress.
US researchers uncover that body building supplement: HMB, may help stop the progression of Alzheimer’s disease.
Researchers used an experimental small molecule that helped restore the removal of damaged mitochondria from brain cells in a mouse model of Parkinson's.
Researchers have added to evidence that farnesol prevents and reverses brain damage linked to Parkinson’s disease in mouse models.
A team has shown that synthetic molecule LAU-0901 plus aspirin-triggered NPD1 can repair brain damage in an experimental model of stroke.
A team fused the peptide somatostatin to a brain transport protein and found it treated memory loss associated with Alzheimer's in mice.
When delivered intranasally, the anti-inflammatory drug VX-765 prevented axon demyelination and loss in a murine model of multiple sclerosis (MS).
So called "interface inhibitors" could be used to protect against neurodegeneration, researchers have said.
Researchers demonstrated NSPP completely prevented cognitive decline in mice treated with radiation for patient-derived glioblastomas.
Ursolic acid was shown to halt the progression of chronic multiple sclerosis (MS) and reverse the damage already caused in a mouse model of the disease.
Rodent models of stroke and hydrocephalus treated with ZT-1a had reduced brain swelling, according to scientists.
Researchers have developed a screening system and identified a set of compounds that protect neuronal mitochondria in mice.
Researchers have discovered a direct link between the protein aggregation in nerve cells that is typical for neurodegenerative diseases, and the regulation of gene expression in Huntington's disease...
The discovery is a major step toward understanding the mechanisms of myelin production and the potential for treating certain central nervous system diseases...
Researchers in the U.S. have tested a technology termed ‘disease in a dish’ that uses stem-cell technology to re-create brain neurons of super obese individuals. The goal is to better understand obesity and potentially enable tailored treatments.