Stem Cell Niche: Researchers use cell animal irradiator to study the effects of radiation on the stem cell niche, including how radiation impacts the microenvironment and the interactions between stem cells and their niche.
Stem Cell Niche: Researchers use cell animal irradiator to study the effects of radiation on the stem cell niche, including how radiation impacts the microenvironment and the interactions between stem cells and their niche.
Stem Cell Niche: Researchers use cell animal irradiator to study the effects of radiation on the stem cell niche, including how radiation impacts the microenvironment and the interactions between stem cells and their niche.
Stem Cell Niche: Researchers use cell animal irradiator to study the effects of radiation on the stem cell niche, including how radiation impacts the microenvironment and the interactions between stem cells and their niche.
small animal radiology and ultrasonography
Raycision offers state-of-the-art in vivo preclinical imaging, in vivo animal imaging systems designed to enable researchers to visualize and monitor biological processes in live animals, particularly small mammals such as mice and rats, in a non-invasive and highly detailed manner.
Micro-CT is a powerful non-destructive imaging technique that provides high-resolution 3D images of the internal structure of materials. It is widely used in material science for a variety of applications.
Multimodality imaging, which combines the strengths of different imaging techniques, offers a comprehensive approach to studying complex biological processes. Combining CT (Computed Tomography) with optical molecular imaging provides a powerful toolset for researching inflammatory and immune diseases.
Biological irradiators are specialized devices that deliver controlled doses of ionizing radiation to biological samples, such as cells, tissues, and small organisms. In the field of radiology, these devices have several important applications, particularly in research and clinical settings.
Optical molecular imaging is a powerful technique that uses light to visualize and quantify biological processes at the molecular and cellular levels in living organisms. It has a wide range of applications in the research of infectious diseases, providing valuable insights into pathogen behavior, host-pathogen interactions, and the efficacy of therapeutic interventions.
Preclinical imaging and biological irradiation are pivotal in the development of new animal models, significantly enhancing the precision and depth of research.
Our state-of-the-art IMAGING 1000 demonstrates remarkable imaging capabilities by integrating multiple imaging modalities in one system including micro-CT imaging, bioluminescence imaging, and fluorescence molecular imaging.