Publications by authors named "M Nikkhah"
Regulated cell death is a fate of cells in (patho)physiological conditions during which extrinsic or intrinsic signals or redox equilibrium pathways following infection, cellular stress or injury are coupled to cell death modalities like apoptosis, necroptosis, pyroptosis or ferroptosis. An immediate survival response to cellular stress is often induction of autophagy, a process that deals with removal of aggregated proteins and damaged organelles by a lysosomal recycling process. These cellular processes and their regulation are crucial in several human diseases.
View Article and Find Full Text PDFArticle Synopsis
- The study investigates pancreatic duct (PD) dilation identified through endoscopic ultrasonography (EUS) and its potential links to various pancreatic and biliary diseases.
- Among 3,109 subjects, 599 had PD dilation; the most common diagnosis was pancreatic adenocarcinoma, found in 39.4% of cases, followed by sphincter of Oddi dysfunction.
- The findings suggest that PD dilation is a significant indicator of pancreatic neoplasms and other related conditions, highlighting its importance in clinical assessments even when the cause is not clear.
Nanobiocatalysis is a novel area integrating various advantages of nanotechnology and enzymatic catalysis. However, great efforts are still needed to fully understand the interactions between nanostructures and enzymes. The biological properties of nano-hybrid enzymes greatly depend on the size and chemical properties of their nano element.
View Article and Find Full Text PDFWireless capsule endoscopy (WCE) is capable of non-invasively visualizing the small intestine, the most complicated segment of the gastrointestinal tract, to detect different types of abnormalities. However, its main drawback is reviewing the vast number of captured images (more than 50,000 frames). The recorded images are only sometimes clear, and different contaminating agents, such as turbid materials and air bubbles, degrade the visualization quality of the WCE images.
View Article and Find Full Text PDFArticle Synopsis
- The study examined how lecithin nanoparticles affect sperm quality during cryopreservation, focusing on sperm motility, viability, and DNA integrity.
- In the first phase, various concentrations and sizes of lecithin nanoparticles were tested in freezing media, revealing that 1% lecithin nanoparticles (50-100 nm) significantly improved sperm viability and reduced DNA fragmentation after thawing.
- Despite a general decrease in sperm motility across all groups, smaller particle sizes and lower concentrations gave better outcomes, indicating that lecithin nanoparticles help maintain sperm membrane integrity during freezing and thawing.
- Overall, the findings suggest that lecithin nanoparticles can enhance the survival of sperm cells during cryopreservation by effectively binding to their membranes.