Evaluation of 2-[ 18 F]-Fluorodeoxysorbitol PET Imaging in Preclinical Models of Aspergillus Infection.

Despite increasing associated mortality and morbidity, the diagnosis of fungal infections, especially with Aspergillus fumigatus ( A. fumigatus ), remains challenging. Based on known ability of Aspergillus species to utilize sorbitol, we evaluated 2-[ 18 F]-fluorodeoxysorbitol (FDS), a recently described Enterobacterales imaging ligand, in animal models of A. fumigatus infection, in comparison with 2-[ 18 F]-fluorodeoxyglucose (FDG). In vitro assays showed slightly higher 3 H-sorbitol uptake by live compared with heat-killed A. fumigatus . However, this was 10.6-fold lower than E. coli uptake. FDS positron emission tomography (PET) imaging of A. fumigatus pneumonia showed low uptake in infected lungs compared with FDG (0.290 ± 0.030 vs. 8.416 ± 0.964 %ID/mL). This uptake was higher than controls (0.098 ± 0.008 %ID/mL) and minimally higher than lung inflammation (0.167 ± 0.007 %ID/mL). In the myositis models, FDS uptake was highest in live E. coli infections. Uptake was low in A. fumigatus myositis model and only slightly higher in live compared with the heat-killed side. In conclusion, we found low uptake of 3 H-sorbitol and FDS by A. fumigatus cultures and infection models compared with E. coli , likely due to the need for induction of sorbitol dehydrogenase by sorbitol. Our findings do not support FDS as an Aspergillus imaging agent. At this point, FDS remains more selective for imaging Gram-negative Enterobacterales .