Abstract: A method for fabricating a biosensor for metastasis diagnosis. The method includes coating a photoresist layer on a substrate layer, forming a patterned region by patterning the photoresist layer utilizing a photolithography process, forming a nano-roughened patterned region by forming a plurality of nano-features on the patterned region, stripping the photoresist layer from the substrate layer, forming an array of microelectrodes and a corresponding array of electrical connections on the nano-roughened patterned region by depositing a gold/titanium (Au/Ti) bilayer on the substrate layer with the nano-roughened patterned region and forming a metastatic cell sensing trap on at least one microelectrode of the array of microelectrodes. Where, forming the metastatic cell sensing trap includes placing a solution of Human Umbilical Vein Endothelial Cells (HUVECs) on the biosensor and forcing an attachment between at least one HUVEC of the HUVECs and the at least one microelectrode on the biosensor.
Type:
Grant
Filed:
August 29, 2020
Date of Patent:
January 16, 2024
Assignee:
NANOHESGARSAZAN SALAMAT ARYA NCUBATION CENTER FOR EQUIPMENT AND DEVICES
Inventors:
Mohammad Abdolahad, Mohammad Saeid Nik Shoar, Mahsa Faramarzpour Darzini
Abstract: A method for detecting a metastasis state of biological cells is disclosed. The method includes seeding a plurality of biological cells onto an array of electrodes of an electrical cell-substrate impedance sensor (ECIS) by dropping a cell suspension including the plurality of biological cells in a cell culture medium onto the array of electrodes, forming a plurality of cultured biological cells attached onto the array of electrodes by maintaining the ECIS in an incubator, reducing pH value of an extracellular media around the plurality of cultured biological cells to a pH value between 6.2 and 6.