Biological tissues naturally glow under certain light; the NIR range used by PearlCAM minimizes this "noise," resulting in much clearer images.
By tagging medications (such as encapsulated liposomes) with fluorescent markers, scientists can monitor how long a drug stays in the bloodstream and whether it successfully reaches the tumor site. This is critical for improving the efficiency of chemotherapy. 3. Longitudinal Tumor Studies
Researchers use PearlCAM to test new "smart" dyes that attach specifically to cancer cells. By viewing the animal through the Pearl system, surgeons can practice identifying tumor margins that would be invisible to the naked eye. Washington University has utilized this for foundations in translational imaging. 2. Drug Delivery Tracking
PearlCAM is the proprietary interface used to capture and analyze high-resolution images in the spectrum. Unlike visible light, NIR light can penetrate several centimeters into biological tissue, allowing for:
High-sensitivity detection of signals from within internal organs or deep-seated tumors.
Biological tissues naturally glow under certain light; the NIR range used by PearlCAM minimizes this "noise," resulting in much clearer images.
By tagging medications (such as encapsulated liposomes) with fluorescent markers, scientists can monitor how long a drug stays in the bloodstream and whether it successfully reaches the tumor site. This is critical for improving the efficiency of chemotherapy. 3. Longitudinal Tumor Studies
Researchers use PearlCAM to test new "smart" dyes that attach specifically to cancer cells. By viewing the animal through the Pearl system, surgeons can practice identifying tumor margins that would be invisible to the naked eye. Washington University has utilized this for foundations in translational imaging. 2. Drug Delivery Tracking
PearlCAM is the proprietary interface used to capture and analyze high-resolution images in the spectrum. Unlike visible light, NIR light can penetrate several centimeters into biological tissue, allowing for:
High-sensitivity detection of signals from within internal organs or deep-seated tumors.