Cell and Tissue Analysis

Analysis of living cells and tissues involves complex biological processes such as cell division, signaling, metabolic activities and gene expression. In order to monitor and record these dynamic processes in real time, highly accurate microscopic imaging tools are required, and laser confocal microimaging is a key means to realize high-resolution observation of cellular and subcellular structures.

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Your high signal-to-noise imaging needs

What are some common imaging disorders?

Common obstacles during research are phototoxicity and photobleaching, signal loss, scattered light, artifacts, and light-induced biological effects, which can affect image quality and experimental accuracy.

What is the key to imaging?

The key to capturing rapid biological processes, studying complex disease episodes, tissue regeneration and organ interactions, and even probing specific biological processes in model organisms is to keep living cells, organoids, and model organisms healthy and to obtain clear images that ensure reliable data.

What are the usual applications?

It mainly studies the structure, function and dynamic changes of cells, including cell division, migration, signaling, metabolic activities, etc. It helps to reveal biological processes and disease mechanisms, and is commonly used in the fields of drug screening, gene expression and immune response.

Recommended product

CLSM610Confocal Laser Scanning Microscope

M-SIM6000Structured Light Optical Cutting Microscope

IRX60 SeriesInverted Bio/Fluorescence Microscope

IRX50 SeriesInverted Bio/Fluorescence Microscope

RX50 SeriesUpright Bio/Fluorescence Microscope

Wide field image vs. confocal image

High Signal-to-Noise Imaging

Highly efficient imaging optical path provides high signal-to-noise fluorescence images even under weak fluorescence, reducing photodamage to the sample.

With a wide-spectrum, high-numerical aperture lens, it can be adapted to various types of confocal sample photography.

Usability

Optimized human-computer interaction interface and self-developed research-grade analysis software allow you to be at ease in the process of sample shooting and analysis.

Z Stack Collection Zebrafish 20X

Real-time Dynamic Observation

In live cell and tissue analysis, researchers need to continuously track and record cell behavior and changes under physiological conditions, such as cell division, migration, signaling, and membrane potential changes. In order to achieve this, the microscope needs to have the ability to acquire images quickly with the Z-stack acquisition function, while keeping the physiological state of the cells undisturbed to avoid phototoxicity and photobleaching.