This project explored new ways to deliver and track biological medicines (such as antibodies) in the brain, a significant challenge in treating brain diseases like Alzheimer’s. A key barrier is the blood-brain barrier (BBB), a protective layer that blocks most drugs from entering the brain. In addition, it is difficult to measure whether these medicines reach their target once inside the brain.
To address these challenges, the project developed and tested a new imaging strategy — pretargeted PET imaging — a method that separates the drug from the radioactive imaging agent, using a precise “click chemistry” reaction in the body to link them at the right time and place. This approach improves safety, flexibility, and image clarity.
Although the original plan to test NGF treatment could not be completed, the project successfully:
- Established FUS platform for use in small animal models.
- Implemented a new radioactive tracer ([¹⁸F]TRACK) that can image NGFs target receptor in the brain.
- Tested pretargeted imaging method to measure how well an antibody against Alzheimer’s disease binds in the brain.
However, to take these results further, additional research will be needed to optimise dosing, the timing interval between antibody and tetrazine injection, brain uptake and clearance of the tetrazine, and safety studies. To meet these needs, new industry and academic partnerships and securing additional funding will be essential.