麻豆淫院

Justus Ndukaife, assistant professor of electrical and computer engineering at Vanderbilt University, is leading innovative research that more effectively traps nanosized extracellular vesicles and particles (EVPs) to analyze their roles in cancer, and neurodegenerative diseases.

The research, done in collaboration with the lab of Vanderbilt Professors Robert Coffey and Kasey Vickers, was recently published in Nano Letters.

EVPs鈥攊ncluding recently discovered exomeres and supermeres鈥攁re thousands of times smaller than the thickness of a human hair. By trapping and manipulating them, researchers aim to better understand how cells package molecules and interact with one another, which may also shed light on the formation of diverse diseases, like cancer and Alzheimer's.

However, when using optical tweezers, there's a risk of photothermal heating that could adversely affect the EVPs. In their paper, Ndukaife and his team discuss using an anapole antenna to condense the electromagnetic energy to the nanoscale and successfully trap EVPs using a lower laser power.

"Since the proposed trapping system is low-loss, it precludes local temperature rises and thus ensures that important biological particles and molecules remain intact," according to the paper.

The development of optical tweezers was recognized with the 2018 Nobel Prize in 麻豆淫院ics for their efficacy in trapping single cells and larger EVs. Ndukaife developed the first-ever opto-thermo-electrohydrodynamic tweezer (OTET) that can trap and manipulate objects on the sub-10 nanometer scale at Vanderbilt in 2020.