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:
Before a new cancer drug or imaging agent can be tested on humans, it must be proven effective and safe in animal models. Systems like the LI-COR Pearl Trilogy provide the high-quality data required by regulatory bodies (like the FDA) to move a discovery from the lab to the clinic.
The workflow for a research team using PearlCAM typically follows three stages:
In the rapidly evolving landscape of cancer research, the ability to visualize biological processes in real-time within living organisms is paramount. PearlCAM (and the associated Pearl imaging systems) serves as a bridge between laboratory benchwork and clinical application, providing researchers with a non-invasive look at tumor progression and drug delivery. 🔬 Core Technology
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
A fluorescent probe (like IRDye®) is injected into the subject.
Capabilities typically include 700 nm and 800 nm channels, allowing researchers to track two different biological markers simultaneously. 📈 Key Applications in Research
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:
Before a new cancer drug or imaging agent can be tested on humans, it must be proven effective and safe in animal models. Systems like the LI-COR Pearl Trilogy provide the high-quality data required by regulatory bodies (like the FDA) to move a discovery from the lab to the clinic. PearlCAM
The workflow for a research team using PearlCAM typically follows three stages: PearlCAM is the proprietary interface used to capture
In the rapidly evolving landscape of cancer research, the ability to visualize biological processes in real-time within living organisms is paramount. PearlCAM (and the associated Pearl imaging systems) serves as a bridge between laboratory benchwork and clinical application, providing researchers with a non-invasive look at tumor progression and drug delivery. 🔬 Core Technology The workflow for a research team using PearlCAM
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
A fluorescent probe (like IRDye®) is injected into the subject.
Capabilities typically include 700 nm and 800 nm channels, allowing researchers to track two different biological markers simultaneously. 📈 Key Applications in Research