Litcius/Paper detail

Inkjet‐Patterned Microdroplets as Individual Microenvironments for Adherent Single Cell Culture

Tianze Xie, Qiang Zhang, Weifei Zhang, Shuo Feng, Jin‐Ming Lin

2022Small29 citationsDOI

Abstract

Adhesion of single cells is the foundation of manifold cellular behaviors and life processes. However, investigating the function of a specific cell is still challenging due to deficiency of adhesion or interference from surrounding cells. Herein, an open microfluidic system is reported for culturing adherent single cells, implemented by a micrometer-scale droplet matrix on an inkjet-printed polylysine template. The target cells are isolated from any cell from other droplets, and their adhesion strength is determined to be comparable to conventional petri dishes via an in-situ investigation with a microfluidic extractor. On this proposed platform, isolated single cells are observed to display an entirely distinct spreading behavior featuring total absence of elongation, indicating drastic cell behavior change from their "singleness." This system has high versatility and compatibility for various assaying methods, assuring a promising potential in detailed single cell behavior and cell heterogeneity studies.

Topics & Concepts

Petri dishMicrofluidicsAdhesionCell adhesionMaterials scienceNanotechnologyPolylysineBiophysicsSingle-cell analysisCellChemistryBiologyComposite materialGeneticsBiochemistryInnovative Microfluidic and Catalytic Techniques Innovation3D Printing in Biomedical ResearchNanomaterials and Printing Technologies