We previously revealed the relationships of human tissue microRNAs (miRNAs) with those from various body fluids including plasma, bile, urine, serum, and feces, which provided valuable clues for ...

Microplastics and the much smaller nanoplastics enter the human body in various ways, for example through food or the air we breathe. A large proportion is excreted, but a certain amount remains in ...

Proteins in human body fluids are a goldmine of information for understanding health and detecting disease. However, proteins are often decorated with complex sugar chains called glycans, a ...

Microplastics and much smaller nanoplastics enter the human body in various ways, for example through food or the air we breathe. A large proportion is excreted, but a certain amount remains in organs ...

Identifying different types of body fluids can help forensic experts reconstruct a crime scene, but it's difficult to do so. In a study published in Electrophoresis, researchers developed a method ...

New research presented at the 41st Annual Meeting of the European Society of Human Reproduction and Embryology (ESHRE) reveals the presence of microplastics in human reproductive fluids, raising ...

Body fluid identification constitutes a cornerstone of forensic investigations, enabling the reconstruction of events at a crime scene and the link between biological evidence and individuals.

Real-time clinical validation of a blood cell-free, mRNA-based GeneVerify test for screening and early diagnosis of prostate cancer. Circulating tumor DNA and late recurrence in high-risk, hormone ...

For centuries, scientists believed the human body had two major circulation systems. One was the cardiovascular system that moves blood through arteries and veins. The other was the lymphatic system ...