In Vivo Bioluminescence

Trusted Bioluminescence Discovery From the #1 Imaging CRO

We offer comprehensive study design for high-throughput, cost-efficient optical imaging across multiple therapeutic areas. We were the first Xenogen-licensed CRO and have over a decade of experience in designing, executing, analyzing, and reporting bioluminescence studies. Optical imaging protocols and respective models have been optimized for maximum reproducibility and quality.

BLI timeline

Bioluminescence imaging (BLI) relies on detection of light from luciferase-expressing cells in an animal. This is commonly achieved through implantation of cells engineered to express luciferase constitutively or by use of transgenic animals that express luciferase in one or more tissues of interest. Emission of light from these cells or tissues occurs following systemic injection of the luciferase substrate, luciferin.

We utilize optical imaging and a large panel of luciferase-expressing tumor cell lines for tracking tumor burden in orthotopic, disseminated, and metastasis tumor models. MI Bioresearch has the capability to engineer our in-house cell lines or your personal cell lines to express luciferase for BLI detection.

PC-3M-luc Orthotopic Prostate Tumor Model with Tumor Burden
PC-3M-luc Orthotopic Prostate Tumor Model with Tumor Burden

We also have a license agreement from Dana Farber Cancer Institute that provides access to many characterized, in vivo validated luciferase-expressing tumor lines, including:

  • Glioma
  • Neuroblastoma
  • Leukemia
  • Lymphoma
  • Multiple myeloma
  • Prostate
  • Breast
  • Lung
  • Colorectal

Luciferase-based Orthotopic Models

  • Brain
  • Breast
  • Prostate
  • Pancreas
  • Lung
  • Liver
  • Ovarian
  • Renal

Luciferase-based Hematologic Disseminated Tumor Models

  • Multiple myeloma
  • Lymphoma
  • Leukemia

Bioluminescence imaging provides a powerful means for quantifying systemic tumor progression in parallel with localized solid tumors, which occur in hematologic tumor models. Licensed access to the extensive Dana Farber Cancer Institute luciferase-expressing panel increases our footprint in many cancer types, including hematologic models.

Luciferase-based Metastasis Models

  • Quantitative means for assessing progression and treatment response in metastasis models:
    • Intracardiac (e.g., to bone) and intravenous (e.g., to lung) cell injection-based models of metastasis
  • Spontaneous metastasis models:
    • Mammary fat pad implanted cells that metastasize to lymph nodes and lungs

Cell Tracking Capability

Cell tracking can be achieved using luciferase reporter expression. For example, cell-based therapeutics, including targeting, tissue distribution, and viability can be studied in vivo.

Luciferase Reporter Transgenics

An increasingly broad variety of luciferase reporter transgenic mice are commercially available. These transgenics provide opportunities for in vivo optical imaging-based molecular imaging in vivo across a variety of disease states. Contact us for further information about providers and availability of luciferase transgenics.