Microparticle-enabled single cell multiparameter electronic immunophenotyping for selective electroporation [0.03%]
用于选择性电穿孔的微粒介导的单细胞多参数电子免疫表型分析技术
Madeline Hoyle,Josiah Rudge,Yuvraj Rallipalli et al.
Madeline Hoyle et al.
Electroporation (EP) is one of the leading non-viral intracellular delivery methods used in various applications across research and cell therapy development and manufacturing. Currently widely used bulk EP methods, while they offer scalabi...
A 3D-printed electromagnetically actuated microgripper system for precision single-cell manipulation [0.03%]
一种用于精准单细胞操控的3D打印电磁微型夹持系统
Xi Chen,Qingying Ren,Wenshuo Zhao et al.
Xi Chen et al.
Cell manipulation is an important technique in biomedical research, yet existing micromanipulation tools still face challenges in force-control precision, multiscale adaptability, and biocompatibility. To address these limitations, this pap...
Facile fabrication of high-density two-dimensional micronozzle arrays using twisted thin-wire molds [0.03%]
利用扭曲细丝模具轻松制造高密度二维微喷嘴阵列
Koki Takahashi,Kyohei Terao
Koki Takahashi
High-density two-dimensional (2D) micronozzle arrays with independently addressable microchannels are essential components for microfluidic probes, localized biochemical processing, and emerging micronozzle-based biofabrication systems. How...
Numerical microfluidic chip modeling of laminar vortex dynamics induced by biomineralization in evolving porous media [0.03%]
演化孔隙介质中由生物矿化引起的层流旋涡动力学的数值微流控芯片建模
Yajie Chu,Dianlei Feng
Yajie Chu
Naturally evolving porous media, such as those undergoing mineral precipitation, biofilm growth, and freeze-thaw cycling, dynamically alter pore structure, inducing vortices that influence mass transport and mixing. Yet, due to their transi...
Bioinspired quality-based sperm sorting in a spiral microfilter-enhanced microfluidic device: enhancing DNA integrity via rheotaxis and boundary dynamics [0.03%]
仿生质量基精子分选螺旋微滤膜在微流控装置中的优化设计及应用研究
Donya Shahhoseini,Naser Naserifar
Donya Shahhoseini
Male infertility, often linked to poor sperm quality, poses significant challenges for assisted reproductive technologies (ARTs), such as in vitro fertilization (IVF) and intracytoplasmic sperm injection (ICSI). Compromised sperm parameters...
High-speed liquid switching and on-chip force sensing reveal the transient mechanical response of MscL in Synechocystis sp. PCC 6803 [0.03%]
高速液体切换和芯片力感应揭示了Synechocystis sp. PCC 6803中MscL的瞬时机械响应
Xu Du,Masaru Tsujii,Nobuyuki Uozumi et al.
Xu Du et al.
How cells mechanically respond to rapid stimulation in the extracellular microenvironment is a key question for understanding the physiological functions of mechanosensitive (MS) channels. In this study, we investigated the single Synechocy...
An automated and portable platform for rapid cell-free DNA isolation and its application in microbial DNA metagenomic sequencing from human blood samples [0.03%]
一种用于快速体外DNA分离的自动化和便携式平台及其在人类血液样本微生物DNA元基因组测序中的应用
Linda Marriott,Ana Martinez-Lopez,Antonio Liga et al.
Linda Marriott et al.
The prompt identification of pathogens in human circulation in a clinically deployable format remains an unmet clinical need. The established test for infection diagnostics remains blood culture, which typically takes 2-4 days and is positi...
Band-stop microfluidics for high-purity, label-free enrichment of viable cancer cells from whole blood [0.03%]
高纯度、无标签且用于从全血中分离出完整癌细胞的带阻微流控技术
Lewis Krzeczkowski,Georgios Nteliopoulos,Simak Ali et al.
Lewis Krzeczkowski et al.
Liquid biopsy requires the isolation of viable circulating tumour cells (CTCs) from whole blood at high purity and with sufficient quality for functional assays. These requirements are not readily met by either label-based methods or size-o...
Wanqi Li,Qiu Yin,Jiahui Wu et al.
Wanqi Li et al.
Single-cell manipulation is essential for investigating cellular heterogeneity and enabling downstream assays, such as single-cell proteomics and drug screening. Acoustofluidic techniques, particularly needle-based acoustic tweezer, have em...
Correction: Cell docking inside microwells within reversibly sealed microfluidic channels for fabricating multiphenotype cell arrays [0.03%]
订正:微流体通道内微孔阵列中细胞的对接技术用于构建多表型细胞阵列
Ali Khademhosseini,Judy Yeh,George Eng et al.
Ali Khademhosseini et al.
Correction for 'Cell docking inside microwells within reversibly sealed microfluidic channels for fabricating multiphenotype cell arrays' by Ali Khademhosseini et al., Lab Chip, 2005, 5, 1380-1386, https://doi.org/10.1039/B508096G.
Published Erratum
Lab on a chip. 2026 Apr 22;26(8):2622. DOI:10.1039/d6lc90032a 2026