SeParate: multiway fluorescence-activated droplet sorting based on integration of serial and parallel triaging concepts [0.03%]
SeParate:基于串行和并行分流概念集成的多路荧光激活液滴分选
Wannes Verbist,Jolien Breukers,Sapna Sharma et al.
Wannes Verbist et al.
Fluorescence-activated droplet sorting (FADS) has emerged as a versatile high-throughput sorting tool that is, unlike most fluorescence-activated cell sorting (FACS) platforms, capable of sorting droplet-compartmentalized cells, cell secret...
Claudia Olaizola-Rodrigo,Sujey Palma-Florez,Teodora Ranđelović et al.
Claudia Olaizola-Rodrigo et al.
Organ-on-chip (OOC) technology has recently emerged as a powerful tool to mimic physiological or pathophysiological conditions through cell culture in microfluidic devices. One of its main goals is bypassing animal testing and encouraging m...
Microphysiological pancreas-on-chip platform with integrated sensors to model endocrine function and metabolism [0.03%]
集成传感器的微生理胰腺芯片平台,用于模拟内分泌功能和代谢
Katharina Schlünder,Madalena Cipriano,Aline Zbinden et al.
Katharina Schlünder et al.
Pancreatic in vitro research is of major importance to advance mechanistic understanding and development of treatment options for diseases such as diabetes mellitus. We present a thermoplastic-based microphysiological system aiming to model...
Microfluidic impedance cytometry with flat-end cylindrical electrodes for accurate and fast analysis of marine microalgae [0.03%]
用于准确快速分析海洋微藻的平面端圆柱电极的微流体阻抗细胞计量术
Xiaoming Chen,Mo Shen,Shun Liu et al.
Xiaoming Chen et al.
Marine microalgae play an increasingly significant role in addressing the issues of environmental monitoring and disease treatment, making the analysis of marine microalgae at the single-cell level an essential technique. For this, we put f...
Chaeeun Lee,Sumit Kumar,Juhee Park et al.
Chaeeun Lee et al.
The current challenge in using extracellular vesicles (EVs) as drug delivery vehicles is to precisely control their membrane permeability, specifically in the ability to switch between permeable and impermeable states without compromising t...
Droplet microfluidic system for high throughput and passive selection of bacteria producing biosurfactants [0.03%]
用于高通量和被动选择产生生物表面活性剂的细菌的液滴微流控系统
Klaudia Staskiewicz,Maria Dabrowska-Zawada,Lukasz Kozon et al.
Klaudia Staskiewicz et al.
Traditional methods for the enrichment of microorganisms rely on growth in a selective liquid medium or on an agar plate, followed by tedious characterization. Droplet microfluidic techniques have been recently used to cultivate microorgani...
Capturing of extracellular vesicles derived from single cells of Escherichia coli [0.03%]
单个大肠杆菌细胞来源的细胞外囊泡的捕获技术
Fumiaki Yokoyama,André Kling,Petra S Dittrich
Fumiaki Yokoyama
Bacteria secrete extracellular vesicles (EVs), also referred to as bacterial membrane vesicles, which carry, among other compounds, lipids, nucleic acids and virulence factors. Recent studies highlight the role of EVs in the emergence of an...
AMF-SporeChip provides new insights into arbuscular mycorrhizal fungal asymbiotic hyphal growth dynamics at the cellular level [0.03%]
AMF-SporeChip在细胞层面为理解丛枝菌根真菌的无共生菌丝生长动态提供新见解
Felix Richter,Maryline Calonne-Salmon,Marcel G A van der Heijden et al.
Felix Richter et al.
Arbuscular mycorrhizal fungi (AMF) form symbiotic associations with the majority of land plants and deliver a wide range of soil-based ecosystem services. Due to their conspicuous belowground lifestyle in a dark environment surrounded by so...
Comparison between dynamic versus static models and real-time monitoring of neuronal dysfunction in an amyloid-β induced neuronal toxic model on a chip platform [0.03%]
动态和静态模型在芯片平台上进行的淀粉样蛋白-β诱导的神经元毒性模型中对神经元功能障碍的实时监测对比研究
Chu-Chun Liang,Po-Yen Chen,Nien-Che Liu et al.
Chu-Chun Liang et al.
Microfluidics-based organs-on-a-chip offer a promising method for dynamic and 3-dimensional (3D) cell culture to evaluate the cell behaviors within the biomimetic environment. The purpose of this study was to establish neural network connec...
Comparative Study
Lab on a chip. 2024 Mar 26;24(7):1887-1902. DOI:10.1039/d3lc00507k 2024
Lab on skin: real-time metabolite monitoring with polyphenol film based subdermal wearable patches [0.03%]
皮肤上的实验室:用多酚膜为基础的皮下可穿戴贴片进行实时代谢物监测
Georgeta Vulpe,Guoyi Liu,Sam Oakley et al.
Georgeta Vulpe et al.
The advent of digital technologies has spurred the development of wearable sensing devices marking a significant shift in obtaining real-time physiological information. The principal objective is to transition from blood-centric monitoring ...