Microfluidic NMR for operando monitoring of drug-induced metabolic fluxes in liver tissue slices [0.03%]
基于芯片核磁共振技术的药物诱导肝脏切片组织代谢流量变化的研究
Sylwia J Barker,Bishnubrata Patra,Manvendra Sharma et al.
Sylwia J Barker et al.
Monitoring metabolism in living tissues with high temporal resolution and broad metabolite coverage remains a major challenge. We introduce the TISuMR platform, a microfluidic Lab-on-a-Chip platform that enables continuous, non-invasive ope...
Polydiacetylene (PDA) coated paper-based fluorescence sensor for the detection and quantification of bisphenol [0.03%]
聚二乙炔(PDA)涂布纸基荧光传感器用于双酚的检测与定量分析
Gayathri Loganathan,Shubham Gurav,Khaja Moinuddin Shaik et al.
Gayathri Loganathan et al.
Bisphenol (BPA) is a common environmental contaminant found in water, food, packaging, and human biological samples, raising significant health concerns due to its endocrine-disrupting properties, particularly its interference with estrogen...
Suyash Damir,Fernando Delgado-Licona,Andrew deMello et al.
Suyash Damir et al.
Global challenges such as climate change, escalating energy demands, and health equity require new scientific innovations able to deliver timely solutions. Self-driving laboratories (SDLs) combine robotics and lab automation with artificial...
Correction: Reversible and reusable compartmentalized thermoplastic chip for coculture of dorsal root ganglion neurons [0.03%]
题目校正:可逆且可重复使用的隔间热塑性芯片,用于背根神经节神经元的共培养
Solène Moreau,Raul Flores-Berdines,Anne Simon et al.
Solène Moreau et al.
Correction for 'Reversible and reusable compartmentalized thermoplastic chip for coculture of dorsal root ganglion neurons' by Solène Moreau et al., Lab Chip, 2025, 25, 6741-6755, https://doi.org/10.1039/d5lc00666j.
Published Erratum
Lab on a chip. 2026 Feb 20. DOI:10.1039/d5lc90129d 2026
Ji Qiu,Jia Yang,Lihao Liu et al.
Ji Qiu et al.
Conventional in vitro physiological models, relying on animal studies and 2D/3D cell cultures, are fundamentally limited by interspecies biological discrepancies, ethical constraints, or inadequate replication of human physiology. Organ-on-...
High-throughput label-free assessment of sperm DNA fragmentation index via intelligent morphological imaging [0.03%]
基于智能形态学成像的高通量无标签精子DNA碎片指数评估方法
Yan Jin,Yujie Zou,Yueyun Weng et al.
Yan Jin et al.
Infertility has emerged as an increasingly serious global public health concern, affecting approximately one in six individuals of reproductive age worldwide, with male-factor infertility accounting for nearly half of all cases. The sperm D...
Qi Liu,Di Suo,Renxian Wang et al.
Qi Liu et al.
Organ-on-a-chip systems provide invaluable preclinical insights into disease simulation, mechanism investigation and drug screening. By closely simulating the physiological conditions of human organs, these platforms enhance our understandi...
Muscle regeneration on a chip: exercise-induced microtrauma and optimal mechanical stimulation regimen [0.03%]
芯片上的肌肉再生:运动引起的微损伤和最佳机械刺激方案
Hongze Yin,Juan Zhang,Jing Zhou et al.
Hongze Yin et al.
Skeletal muscles, through their coordinated interaction with bones and joints, enable diverse human movements and are essential for maintaining normal physiological functions and overall health. However, the physiological state of skeletal ...
Louis D Cohen,Eleonora Moratto,Claire E Stanley
Louis D Cohen
Understanding how plants respond to dynamic and spatially variable stimuli is a key goal in plant sciences. Traditional imaging methods often involve a trade-off between environmental control and spatial resolution, limiting their ability t...
Fast and precise magnetophoresis of superparamagnetic nanoparticles on a micro-magnetic substrate in a static liquid environment [0.03%]
一种在静态液体环境中于微磁性基底上快速精确地操纵超顺磁性纳米颗粒的磁泳方法
Elise Bou,Claudia de la Fuente,Etienne Orsini et al.
Elise Bou et al.
Micro-magnet arrays coupled with external rotating magnetic fields have been reported for the manipulation of individual superparamagnetic particles in stationary microfluidics, requiring no fluidic actuation. In addition to their magnetic ...