Organ-on-a-chip (OOC) studies are being hailed as the key to faster, more accurate drug discovery. Explore how to harness the power of PhysioMimix® in your own lab or via our contract research services.Products Learn more about PhysioMimix and why it’s helping drive OOC adoption Explor...
器官芯片(Organ-on-a-chip,OOC)即就是模拟整个器官和器官系统活动、力学特性和生理反应等的多通道3D微流体细胞培养芯片。微流控芯片(Lab-on-a-chip,LOC)和细胞生物学的融合,使得在特定器官的环境中研究人体生理学成为了可能,建立起一种新型的多细胞生物有机体模型。此模型的出现对生物医药领域产生了重大影响。 (...
Organ-on-a-chip 市场未来可期 SoC(片上系统)很多人都不陌生, 而知道OoC的人则少之又少,其实两者在原理上有相通的地方。 OoC是Organ-on-a-chip的缩写,直译过来是“芯片上的器官”,听起来充满未来感。但这种名为“器官芯片”的技术,其实是为了解决一个长期困扰人类的、非常现实的问题——药物研发。 以这次的...
Organ-On-Chip (OOC)TEER Mechanical stimuliEpithelial-like behaviorEmbedded sensorsThe small intestine is the central component of the gastrointestinal (GI) tract (gut) where nutrients are absorbed into the body. Its functional structure is mainly based on its extremely extended surface area, further ...
OoC・MPS(organ-on-a-chip・microphysiological systems) Organ-on-Chip is a new in vitro evaluation system that mimics the biological environment on a chip that is smaller than the size of a palm. It is called in many different names, but recently microphysiological systems (MPS) is used mo...
Starting from this chapter, we will cover the practical applications of tissue engineering. The first example is organ-on-a-chip (OOC). OOC mimics the human organ, which can be used for many different applications, including drug tests (efficacy and toxi
OOC models bridge the gap between traditional cell culture, animals, and the clinic by more accurately replicating human physiologyin vitroto overcome the relevance limitations of current approaches. Explore our models Single-organ-on-a-chip
primary cell culture time is limited, and the quality is unstable. In contrast, stem cells are readily available and are an infinite cell source. Even with current limitations on differentiation and maturation protocols, stem cells represent a promising technology that can be incorporated into OOC ...
Organs-on-chips (OoCs) are systems containing engineered or natural miniature tissues grown inside microfluidic chips. To better mimic human physiology, the chips are designed to control cell microenvironments and maintain tissue-specific functions. Combining advances in tissue engineering and microfabricat...
Date:Tuesday 4 June, 2024 Time:12:20pm Track:3b Organ-on-a-Chip and Microphysiological Systems (11:00 – 13:00) Presented by:Dr. Ovidiu Novac,CN Bio Our Team at ESTIV 2024 Ovi Dr Ovidiu Novac is a Senior Scientist at CN Bio and a knowledgeable organ-on-a-chip (OOC) expert. Ovi...