Abstract
Background68Ga-EMP-100 is a novel positron emission tomography (PET) ligand that directly targets tumoral c-MET expression. Upregulation of the receptor tyrosin kinase c-MET in renal cell carcinoma (RCC) is correlated with overall survival in metastatic disease (mRCC). Clinicopathological staging of c-MET expression could improve patient management prior to systemic therapy with for instance inhibitors targeting c-MET such as cabozantinib. We present the first in-human data of 68Ga-EMP-100 in mRCC patients evaluating uptake characteristics in metastases and primary RCC.MethodsTwelve patients with mRCC prior to anticipated cabozantinib therapy underwent 68Ga-EMP-100 PET/CT imaging. We compared the biodistribution in normal organs and tumor uptake of mRCC lesions by standard uptake value (SUVmean) and SUVmax measurements. Additionally, metastatic sites on PET were compared to contrast-enhanced computed tomography (CT) and the respective, quantitative PET parameters were assessed and then compared inter- and intra-individually.ResultsOverall, 87 tumor lesions were analyzed. Of these, 68/87 (79.3%) were visually rated c-MET-positive comprising a median SUVmax of 4.35 and SUVmean of 2.52. Comparing different tumor sites, the highest uptake intensity was found in tumor burden at the primary site (SUVmax 9.05 (4.86–29.16)), followed by bone metastases (SUVmax 5.56 (0.97–15.85)), and lymph node metastases (SUVmax 3.90 (2.13–6.28)) and visceral metastases (SUVmax 3.82 (0.11–16.18)). The occurrence of visually PET-negative lesions (20.7%) was distributed heterogeneously on an intra- and inter-individual level; the largest proportion of PET-negative metastatic lesions were lung and liver metastases. The highest physiological 68Ga-EMP-100 accumulation besides the urinary bladder content was seen in the kidneys, followed by moderate uptake in the liver and the spleen, whereas significantly lower uptake intensity was observed in the pancreas and the intestines.ConclusionTargeting c-MET expression, 68Ga-EMP-100 shows distinctly elevated uptake in mRCC patients with partially high inter- and intra-individual differences comprising both c-MET-positive and c-MET-negative lesions. Our first clinical results warrant further systemic studies investigating the clinical use of 68Ga-EMP-100 as a biomarker in mRCC patients.
Highlights
Renal cell carcinoma (RCC) is the most common kidney cancer with more than 330,000 cases diagnosed and more than 140,000 deaths worldwide every year [1]
Pretherapeutic prediction of treatment response to therapy with tyrosine kinases (TKI) like cabozantinib in metastatic RCC (mRCC) patients is highly desirable for the individualization of patient management and improvement of therapeutic outcomes in mRCC patients
We present the first in-human data of 68GaEMP-100 positron emission tomography (PET) targeting c-MET peptide in mRCC patients to assess the biodistribution and intra- and inter-individual 68Ga-EMP-100 uptake in metastatic lesions compared to physiological uptake
Summary
Renal cell carcinoma (RCC) is the most common kidney cancer with more than 330,000 cases diagnosed and more than 140,000 deaths worldwide every year [1]. Cabozantinib is an oral small-molecule inhibitor of tyrosine kinases (TKI) including c-MET that leads to a significantly longer progression-free and overall survival in patients with metastatic RCC (mRCC) that have progressed after VEGFR-targeted therapies [3, 12, 13]. Upregulation of the receptor tyrosin kinase c-MET in renal cell carcinoma (RCC) is correlated with overall survival in metastatic disease (mRCC). Clinicopathological staging of c-MET expression could improve patient management prior to systemic therapy with for instance inhibitors targeting c-MET such as cabozantinib. Methods Twelve patients with mRCC prior to anticipated cabozantinib therapy underwent 68Ga-EMP-100 PET/CT imaging. Conclusion Targeting c-MET expression, 68Ga-EMP-100 shows distinctly elevated uptake in mRCC patients with partially high inter- and intra-individual differences comprising both c-MET-positive and c-MET-negative lesions. Our first clinical results warrant further systemic studies investigating the clinical use of 68Ga-EMP-100 as a biomarker in mRCC patients
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