Themed collection Emerging Investigator Series

Schematic representation of established biomarkers and various methods developed for diagnosing PD. Created with https://www.BioRender.com.

A simple and rapid fluorescence-based sensor sensors using DNA functionalized graphene oxide for miRNA detection from skin interstitial fluid.

Our work elucidates the importance of LNP formulation parameters, including microfluidic flow rate and organic excipient identity, for in vivo gene editing and presents an optimized delivery platform for the treatment of metabolic liver disease.

This reversible bonding approach allows for rapid and gentle live cell extraction after long-term on-chip culturing, facilitating downstream manipulation and characterization, and opening new avenues for various applications.

An “ex vivo trachea chip” integrates a tissue explant with a micromachined device, enables dynamic measurements of airway surface liquid volume, and reveals physiology of airway surface liquid secretion and absorption.

OMEF biochip is open-micro-electro-fluidic technology for stretching of single red blood cells (RBCs) based on dielectrophoresis and electrodeformation. The biochip assesses RBCs' deformability in type 2 diabetes mellitus as an effective diagnostic tool.

We investigate for the first time the compatibility of nanovials with microfluidic impedance cytometry, paving the way for the successful combination of these single-cell technologies.

Novel microfluidic technique for functional selection of biosurfactant-producing microorganisms. Single bacterial cells are encapsulated into picoliter droplets for clonal cultivation and passively sorted at high throughput by interfacial tension.

A new microfluidic platform – the AMF-SporeChip – enables immobilisation of arbuscular mycorrhizal fungal spores and confrontation of asymbiotic hyphae with physical obstacles, allowing the identification of various exploration strategies.

Here, we have developed a 3D printed microfluidic device capable of oxygen gradient formation within intestinal tissue slices ex vivo. The device is open-welled and compatible with external electrochemical recording during tissue analysis.

The use of 3D sharp-edged microstructures enhances the versatility of sharp-edge driven microstreaming, with control over the magnitude and orientation of streaming vortexes for targeted particle microfluidic manipulation.

Mechanosensitive proteins play a crucial role in a range of physiological processes, including hearing and regulating blood flow. This work presents a novel microfluidic approach compatible with 96-well plates to quantify their mechanosensitivity.

A cascaded elasto-inertial cell separation device for pretreatment-free, high-recovery-ratio, and high-purity separation of malignant tumor cells from clinical malignant pleural and peritoneal effusions.

Here, we report a fluorescent electrospun nanofiber membrane for integration with microfluidic chips towards lung-on-a-chip applications complemented with computational fluid dynamics modelling. Created with https://BioRender.com.

High-aspect ratio micropillar arrays are fabricated to enhance the detection performance of FRET-CRISPR assay.