Uncontrolled accumulation of reactive oxygen species (ROS) and sustained inflammation make diabetic wounds difficult to treat with conventional wound healing approaches. To address the problem, ...

Scientists at Kindai University and Oryza Oil & Fat Chemical Co., Ltd., Japan, discovered three novel plant-derived acylated glucosylceramides, oryzaceramides A–C, from rice bran. One compound, ...

Scientists find fat-derived particles could accelerate Alzheimer’s, connecting obesity to toxic brain changes. Study: Decoding adipose-brain crosstalk: Distinct lipid cargo in human adipose-derived ...

New York, NY [May 20, 2024]—Researchers at the Icahn School of Medicine at Mount Sinai have designed a regenerative medicine therapy to speed up diabetic wound repair. Using tiny fat particles loaded ...

To create A1 lipid nanoparticles for delivering mRNA to target cells, scientists at the University of Pennsylvania used A3 coupling. A3 refers to the amine–aldehyde–alkyne coupling reaction, which the ...

Understanding the role of lipid metabolism in colorectal cancer reveals a path to therapies that could turn chronic inflammation into an opportunity for cancer resolution. Study: Integration of ...