Abstract The Cell and Molecular Imaging (CMI) Core of COBRE Phase 3 strives to maintain its leadership in molecular, cellular, and animal imaging technologies, furthering our understanding of tumor growth, progression, metastasis, and therapeutic responses. As a central resource, the CMI Core offers expertise, consultation, and advanced imaging tools to cancer researchers, pilot project leaders (PPLs), and investigators in Oklahoma. Under the guidance of Dr. Rajagopal Ramesh, a distinguished expert in cancer research specializing in small animal in vivo image analysis, and co-director Dr. Ji Hee Ha, a specialist in cell and molecular imaging, the CMI Core continues to drive scientific innovation. The key core capabilities include: 1. Precision Study Design and Assistance: The CMI Core collaborates closely with investigators, providing personalized guidance in experimental design and cellular/tissue analysis. Our commitment to one-on-one consultations ensures that research studies are meticulously planned and executed. 2. Access to Molecularly Tagged Cancer Cells: The Core offers pre-labeled or custom-labeled cancer cells for molecular and cellular image analysis. This invaluable resource minimizes experimental variability, fostering research rigor and reliability. 3. Multi-platform Imaging Resources: The CMI Core houses state-of-the-art imaging systems that empower researchers to conduct in-depth image analysis of cancer cells. From real-time monitoring of disease dynamics in live animals to gaining 3D anatomical insights, the Core provides a comprehensive suite of tools. A diverse array of tools including a high-content imaging system, microarray scanner, and various microscopes, enables comprehensive exploration of molecular and cellular imaging of cancer cells and tissues in vitro as well as in vivo across multiple dimensions. Through ongoing staff training, we ensure the Core remains adept at the latest software updates and emerging imaging techniques. A strategic business plan guides the Core in securing financial stability and seamless integration into the SCC Research Core Network by the conclusion of COBRE Phase 3.