A pair of compatible reagents, one antibody-based biomarker target and one small molecule PET tracer, combine to provide a high affinity, disease specific detection system.
Background:
The medical diagnostics industry has an urgent demand for efficient non-invasive biomarkers to diagnose and stage disease progression for cancer and Alzheimer's disease. One solution to this demand was the development of bioorthogonal reagents, chemicals designed to work together for a specific chemical reaction in a living system without interfering with the native biochemical processes in the system. This technology platform offers a bioorthogonal chemistry method for advanced PET imaging, applicable to solid tumors or brain protein plaques.
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Technology Overview:
This University at Buffalo invention offers a pair of compatible reagents, one antibody-based cell-surface biomarker target and one small molecule PET tracer (radioligand, represented in Figure 1 as BCN), that combine to provide a high affinity, disease specific detection system. This invention incorporates a new class of bioorthogonal reagents called hydrazonyl sulfates (HS) that serve as stable tautomers of nitrile imines (NI), which are highly reactive. The novel chemical format of this innovative technology overcomes the largest limitation of current PET imaging systems, the high background signal due to extended in vivo half-life of current antibodies employed, offering increased sensitivity, as well as improved disease detection and staging for patients.
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Source: samunella, https://stock.adobe.com/uk/239034559, stock.adobe.com
Advantages:
Applications:
Intellectual Property Summary:
PCT/US2024/012471 filed January 22, 2024.
Stage of Development:
Laboratory demonstration through in vitro studies and analytical chemical analysis.
Licensing Status:
Available for licensing or collaboration.
Figure 1:
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