Arthur C. K. Chu et al., EJNMMI Radiopharmacy and Chemistry, 2026
Summary
The objective of this study was to evaluate whether the Auger electron-emitting radionuclides ¹⁹⁷ᵍHg/¹⁹⁷ᵐHg, attached to the anti-EGFR antibody panitumumab, could serve as a theranostic agent for EGFR-positive triple-negative breast cancer (TNBC). The authors aimed to
The study demonstrated that ¹⁹⁷ᵍHg/¹⁹⁷ᵐHg-labeled panitumumab specifically targets EGFR-expressing breast cancer cells, is internalized into the nucleus, induces DNA double-strand breaks through Auger electron emission, and markedly reduces clonogenic survival of EGFR-high tumor cells.
Results from nanoScan® SPECT/CT
In vivo SPECT/CT confirmed tumor targeting; however, substantial kidney uptake indicated partial release of mercury from the antibody in vivo. The authors conclude that the approach shows promise for theranostic imaging and Auger electron radioimmunotherapy, but improved radiolabeling methods are needed to increase in vivo stability and reduce renal accumulation.

Figure 7. Representative SPECT/CT images of CD1 athymic (nude) mice bearing subcutaneous MDA-MB-468 human EGFR-overexpressing breast cancer xenografts following intravenous administration of Hg-Panitumumab , Hg-NS4-Panitumumab, or HgCl₂. Mice received each tracer either alone (No blocking) or together with a 10–30-fold excess of unlabeled panitumumab (Blocking) to competitively inhibit EGFR binding. (a) Images acquired 1 day post injection (p.i.). (b) Images acquired 3 days p.i. Tumours (T, solid arrows) are visualized with both antibody tracers, while EGFR blocking reduces tumour uptake, particularly at 3 d p.i., indicating receptor-specific targeting. HgCl₂ showed no detectable tumour uptake at either time point. Kidneys (K, dashed arrows) exhibited high uptake for all tracers, with the highest renal accumulation observed for HgCl₂. Color scale represents %ID/g overlaid on CT images (HU).
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