Quantitative assessment of small intraosseous prostate cancer burden in SCID mice using fluorescence imaging

BACKGROUND. Experimental bone metastases are typically analyzed when the skeletal tumor burden is large enough to be detected by imaging or histology. By this time, the bone microenvironment is usually destroyed, preventing useful analysis of tumor-bone interactions. METHODS. Small intraosseous tumors generated by intratibial injection of C4-2B prostate cancer cells transfected with green fluorescent protein (GFP) were assessed using in vivo and ex vivo fluorescence imaging, radiography, histology, and fluorometric analysis of bone lysates. RESULTS. Ex vivo fluorescence imaging and fluorometric analysis were capable of detecting tiny bone tumors as early as 10 days after injection. Ex vivo fluorescence imaging allowed simple quantification of small skeletal tumor burden and was useful in measuring the effect of systemic therapy. CONCLUSIONS. Ex vivo fluorescence imaging is a sensitive and easy method to quantify small skeletal tumor burden. This technique allows investigation of tumor-bone interactions while the bone microanatomy is still intact.