Background: Microenvironmental cues play a major role in head and neck cancer. Biodegradable scaffolds used for bone regeneration might also act as stimulative cues for head and neck cancer. The purpose of this study was to establish an experimental model for precise and noninvasive evaluation of tumorigenic potential of microenvironmental cues in head and neck cancer.
Methods: Bioluminescence was chosen to image tumor formation. Early neoplastic oral keratinocyte (DOK) cells were luciferase-transduced (DOK(Luc) ), then tested in nonobese diabetic severe combined immunodeficient IL2rγnull mice either orthotopically (tongue) or subcutaneously for their potential as "screening sensors" for diverse microenvironmental cues.
Results: Tumors formed after inoculation of DOK(Luc) were monitored easier by bioluminescence, and bioluminescence was more sensitive in detecting differences between various microenvironmental cues when compared to manual measurements. Development of tumors from DOK(Luc) grown on scaffolds was also successfully monitored noninvasively by bioluminescence.
Conclusion: The model presented here is a noninvasive and sensitive model for monitoring the impact of various microenvironmental cues on head and neck cancer in vivo. © 2015 The Authors Head & Neck Published by Wiley Periodicals, Inc. Head Neck 38: E1177-E1187, 2016.
Keywords: bioluminescence; cancer; microenvironment; scaffold; tissue engineering.
© 2015 The Authors Head & Neck Published by Wiley Periodicals, Inc.