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IVIS Lumina XRMS In Vivo Imaging System

Industry leading Fluorescence, Bioluminescence and X-Ray Imaging - All-In-One benchtop instrument! The IVIS® Lumina XRMS (x-ray multi-species optical imaging system) adds to the versatility of the IVIS Lumina XR by offering the flexibility to image large animals up to 500 grams with precise optical and X-Ray overlay.

For research use only. Not for use in diagnostic procedures.

Overview

The Lumina XRMS includes state of the art spectral unmixing for sensitive multispectral imaging to monitor multiple biological events in the same animal. Use our Living Image® software to automate all the controls and settings required for seamless image acquisition and processing. Typical X-ray image acquisitions take only 10 seconds and can be overlaid with both optical and photographic images.

Superior Optical Imaging with Spectral Unmixing

The IVIS Lumina XRMS Series III is capable of imaging all common fluorescent and bioluminescent reporters or dyes. The system is equipped with up to 21 filter sets to image reporters that emit from green to near-infrared. High resolution, sharp cut-off filters are simply interchangeable to achieve the highest performance, sensitivity and spectral unmixing. The Lumina XRMS imaging system also accommodates Petri dishes or micro-titer plates for in vitro imaging.

The system can incorporate premium animal handling features such as a heated stage, gas anesthesia connections and a syringe injection system for simultaneous compound administration. Living Image software yields high-quality, reproducible, quantitative results incorporating instrument calibration, background subtraction and the image algorithms. Simple user guided spectral unmixing allows detection and separation of multiple reporters, and Living Image provides the precise overlay to see your optical reporters together with anatomical surface or X-ray features.

Features and Benefits:

  • Multispecies optical and X-ray imaging
  • Image mice, rats and other large animals
  • High resolution, low dose digital X-Ray
  • Exquisite sensitivity in bioluminescence
  • Compute Pure Spectrum (CPS) spectral unmixing for ultimate fluorescence sensitivity
  • Full fluorescence tunability through the NIR Spectrum
  • Complimentary Living Image™ software licenses are provided with the IVIS systems and upon request.

Specifications

Dimensions 48.0 cm (W) x 104.0 cm (H)
Brand
IVIS
Imaging Modality
2D Bioluminescence
2D Fluorescence
X-ray
Unit Size
1 Unit

References

  • Zhang et al (2021). One-step and facile synthesis of peptide-like poly(melphalan) nanodrug for cancer therapy. Nanotoday. 37; 101098. https://doi.org/10.1016/j.nantod.2021.101098
  • Zou et al (2020). A ZIF-90 nanoplatform loaded with an enzyme-responsive organic small-molecule probe for imaging the hypoxia status of tumor cells. Nanoscale. 12, 14870-14881. https://doi.org/10.1039/D0NR02580A
  • Parkins et al (2020). Engineering Circulating Tumor Cells as Novel Cancer Theranostics. Theranostics. 10(17): 7925–7937. https://dx.doi.org/10.7150%2Fthno.44259
  • Son et al (2019). Gelatin–chlorin e6 conjugate for in vivo photodynamic therapy. J Nanobiotechnology. 17(50). https://doi.org/10.1186/s12951-019-0475-1
  • Wang et al (2019). A Y1 receptor ligand synergized with a P-glycoprotein inhibitor improves the therapeutic efficacy of multidrug resistant breast cancer. Biomater. Sci., 7, 4748-4757. https://doi.org/10.1039/C9BM00337A
  • Gao et al (2018). A unique off-on near-infrared cyanine-based probe for imaging of endogenous alkaline phosphatase activity in cells and in vivo. Sensors & Actuators: Chemical. 265: 565-574. https://doi.org/10.1016/j.snb.2018.03.078
  • Shen et al (2018). Versatile hyaluronic acid modified AQ4N-Cu(II)-gossypol infinite coordination polymer nanoparticles: Multiple tumor targeting, highly efficient synergistic chemotherapy, and real-time self-monitoring. Biomaterials. 154: 197-212. https://doi.org/10.1016/j.biomaterials.2017.11.001
  • Gong et al (2018). A Ultrasensitive Near‐Infrared Fluorescent Probe Reveals Pyroglutamate Aminopeptidase 1 Can Be a New Inflammatory Cytokine. Adv Sci. https://doi.org/10.1002/advs.201700664
  • Lai et al (2016). Fluorescent gold nanoclusters for in vivo target imaging of Alzheimer's disease. RSC Advances. 6, 30081-30088. https://doi.org/10.1039/C6RA01027J
  • Zhao et al (2016). In vivo target bio-imaging of cerebral ischemic stroke by real-time labeling of zinc. RSC Adv., 2016,6, 110525-110534. https://doi.org/10.1039/C6RA23507G

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