Publications by authors named "B Crulhas"
Functional nanomaterials have attracted attention by producing different structures in any field. These materials have several potential applications, including medicine, electronics, and energy, which provide many unique properties. These nanostructures can be synthesized using various methods, including self-assembly, which can be used for the same applications.
View Article and Find Full Text PDFBackground: Prostate cancer cells have very high PCA3 messenger RNA levels, which turns them into one of the new biomarkers for prostate cancer prognosis and diagnosis.
Objective: Our goal here is to develop a new aptasensor to detect PCA3 release by the cancer cell.
Methods: DNA hairpin containing PCA3 aptamer was thiolated, conjugated to methylene blue (MB) redox probe, and immobilized on gold electrode through self-assembly to detect label-free cancer cells.
A new methodology using nanoparticle projectile secondary ion mass spectrometry was developed to identify statistically significant co-localization of tagged proteins versus random aggregations at the nanoscale. The custom instrument was run in the unique event-by-event bombardment detection mode with 1040 keV Au individual projectiles each probing an area with a diameter of ∼20 nm. In a model experiment, antibodies tagged with fluorine, iodine, and bromine were attached on a silicon wafer in a 1:1:1 ratio.
View Article and Find Full Text PDFExtracellular vesicles (EVs) are lipid bilayer particles secreted from various cells. EVs carry molecular information of parent cells and hold considerable promise for early disease diagnostics. This paper describes a general strategy for multiplexed immunosensing of EV surface proteins, focusing on surface markers CD63, CD81, nephrin, and podocin to prove the concept.
View Article and Find Full Text PDFArticle Synopsis
- Cell culture is vital for studying cell biology, and the shift towards in vitro models that better mimic real-life conditions has led to the development of tridimensional (3D) cell cultures.
- This review focuses on constructing 3D spheroids through a magnetic technique involving gold and iron oxide nanoparticles, which facilitates advanced cell culture methods like levitation and bioprinting.
- Recent advancements in magnetic 3D cell cultures are explored, covering applications in tumor microenvironments, tissue engineering, and studying various cell types, contributing to fields such as toxicology and biomedical research.