Themed collection RSC papers by NanoEngineering for Medicine and Biology 2018 Speakers

This critical review discusses microfluidic generation and manipulation of cell-laden hydrogel microcapsules, and their applications for in vitro cell culture.

A versatile injection-molded platform with fast, robust, and simple liquid patterning capable of 3D co-culture experiments.

The porous SnO₂ nanorods/networked BiVO₄ heterojunction is identified as apromising photoanode which exhibits high photocurrent under front illumination.The interplay of porous SnO₂ NRs and optimum coverage of BiVO₄ lead to high PEC performance.

We present a micropump enhanced with siphon-based autofill function to realize autonomous and continuous perfusion with steady flow over extended time.

Immunoblotting cytometry identifies variation in maturation stage of healthy smooth muscle cells, suggesting an important role of cell-to-cell heterogeneity in vascular remodeling.

High-volume roll-to-roll manufacturing of PDMS–paper microfluidics.

Rapid and label-free single-leukemia-cell identification through fluorescence lifetime imaging microscopy (FLIM) in the high-density microfluidic trapping array.

The mechanical and transport properties of the polyacrylamide hydrogel are dependent on the swelling ratio.

Ultrasonic spectroscopy is a viable complement to current techniques used to analyze insulin stability due to its simplicity, lack of sample preparation, and non-destructive properties.

Developing a sensitive and selective sensing platform for the p53 gene and its mutation analysis is essential and may aid in early cancer screening and assessment of prognosis.

MicroRNAs (miRNAs) are small non-coding RNAs that control gene expression at the post-transcriptional level via a complex regulatory network that requires genome-wide miRNA profiling to dissect.

Single-walled carbon nanotubes undergo length-dependent intracellular bundling in macrophages that affects retention.

Bovine tuberculosis (TB) is an infectious disease caused by Mycobacterium tuberculosis (MTB) in which it is hard to identify the pathological symptoms.

The analysis of Microfluidic CODES, a code-multiplexed resistive-pulse sensor network for electrical acquisition of spatiotemporal particle manipulation on microfluidic devices.

A wide distribution of cell sizes can be selectively captured by tuning the flow rate in a micro-vortex flow.

mRNA probing from single cells within microfluidic arrays, combining the non-destructive and precise-control of a single-cell mRNA probe with sealed microfluidic systems' multifunctional capability.

In light of the significance of tumor cell heterogeneity, we describe a facile workflow to isolate distinct groups of tumor cells immunomagnetically, according to their surface-protein expression levels.

A micro-aperture platform was developed to separate and detect captured molecular and cellular prostate cancer biomarkers from a single sample.

We demonstrate a field-portable and automatic yeast analysis platform that can rapidly measure cell concentration and viability using on-chip microscopy and machine learning.

Strategy to culture cells in a three dimensional microchanneled hydrogel conjugated with Fc-N-Cad.

Large-scale arrays of transcription factor activity reveal differential responses to chemical and mechanical aspects of the extracellular environment.

A novel form of a vascular module based on endothelialized PDMS hollow tubes was developed for integrating multiple organs-on-chips.

A high-throughput strategy capable of differentiating bladder cancer cells from non-cancerous cells based on their respective cellular traction forces.