Application Notes

Confocal Imaging of CAR-T Cell Dynamics Using an Organ-on-a-chip Platform

fevereiro 2022

Evaluation of the immune effect of CAR-T (Chimeric Antigen Receptor T) cell therapy is usually performed using a model organism, which is costly and time consuming. This application note introduces an example of building a simple 3D immune cell-mediated killing assay model using AIM Biotech’s 3D cell culture chips, and measuring the immune effects of T cells by in vitro imaging. The 3D assay model makes it easy to probe different conditions in vitro such as the cancer microenvironment and T cell regulation, and it can be customized in various ways according to the purpose of the research. This assay reproduces the more spatiotemporal dynamics of cells in vitro and enables the analysis of immune cell-mediated killing under more physiological conditions as compared to 2D models.

Time-lapse imaging analysis of angiogenesis induction using a 3D model

dezembro 2021

It is known that a decrease in the homeostasis function of blood vessels is involved in the onset and progression of various diseases and pathological conditions such as cancer, arteriosclerosis, chronic inflammation, and ischemia. Against this background, it is very important to understand the detailed mechanisms relating to new vascular structure formation by angiogenesis etc. and microvessel damage. This application note introduces an example of detailed observation and analysis of a 3D angiogenesis structure (in vitro perfusion angiogenesis model) with an AX/ AX R confocal microscope, using the Mimetas’ OrganoPlate® 3D tissue culture platform.

Selecting the Right Objectives - Bright, Sharp Imaging of Structures down to Deep Areas

junho 2021

Spherical aberrations caused by a mismatch of refractive indices may lead to a reduction in image resolution and brightness, and are one of the key problems in imaging. In this application note, we will demonstrate the effects of spherical aberration using 3D imaging of an enteroid, which is a 3D culture system for small intestinal epithelial cells, as an example, and show how to select the appropriate immersion liquid and objective.

Capturing the physiological complexity of human tissues in vitro with organ-on-a-chip

abril 2021

3D cell cultures enable the recreation of physiological compositions and spatial arrangements of cells in vitro more accurately than 2D cell cultures. This application note shows that we have developed a 3D tissue culture model using OrganoPlate® (MIMETAS) and Nikon’s A1R HD25 confocal microscope system.

3D Imaging of Intestinal Organoid

junho 2021

Quantitative 3D Imaging of Living Organs-on-Chips with a High-Speed Point-Scanning Confocal System

janeiro 2021

Organs-on-chips more faithfully recapitulate the 3D architectural and functional complexity of native tissues compared to standard 2D tissue culture systems. Yet these advanced cell culture platforms present technical challenges for imaging-based applications. This Application Note demonstrates how the Nikon A1R HD25 confocal point-scanning system, CFI S Plan Fluor LWD 20XC objective and NIS-Elements software can enable rapid, deep, quantitative imaging of living cells in the Emulate Organ-Chip platform.

Live Imaging of Paneth Cell Secretory Responses in Innate Immunity by Using Three-Dimensional Culture of Small Intestinal Epithelial Cells

janeiro 2021

Paneth cells, a lineage of small intestinal epithelial cells, secrete granules rich in antimicrobial peptides, α-defensins, in response to cholinergic agents and bacteria, and regulate the intestinal microbiota by killing enteric pathogens, while less killing commensal bacteria. In this Application Note, we introduce examples that clarify the mechanisms of α-defensin secretion by visualization and quanti cation of Paneth cell granule secretory responses ex vivo using enteroid, a three-dimensional culture system of small intestinal epithelial cells.