Peer-reviewed veterinary case report
Stability of hypoxia and growth PET scans in dog tumors
By Bradshaw, Tyler J et al.·Published in International journal of radiation oncology, biology, physics·2014·Department of Medical Physics·View original on PubMed →
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Original publication title: Spatiotemporal stability of Cu-ATSM and FLT positron emission tomography distributions during radiation therapy.
- Species:
- dog
Plain-English summary
A group of 22 dogs with sinonasal tumors, including both carcinoma and sarcoma types, underwent imaging before and during radiation therapy to assess how stable certain biological markers were during treatment. The imaging showed that the distribution of a marker for low oxygen levels (Cu-ATSM) remained stable, while the marker for cell growth (FLT) was less stable but still generally consistent. Interestingly, the dogs with carcinoma tumors showed a significant decrease in Cu-ATSM uptake during treatment, while those with sarcoma did not. Overall, the study suggests that monitoring these markers can help improve radiation therapy effectiveness for dogs with tumors.
People also search for: dog sinonasal tumor treatment · radiation therapy for dog cancer · Cu-ATSM imaging in dogs
Abstract
PURPOSE: In dose painting, in which functional imaging is used to define biological targets for radiation therapy dose escalation, changes in spatial distributions of biological properties during treatment can compromise the quality of therapy. The goal of this study was to assess the spatiotemporal stability of 2 potential dose painting targets--hypoxia and proliferation--in canine tumors during radiation therapy. METHODS AND MATERIALS: Twenty-two canine patients with sinonasal tumors (14 carcinoma and 8 sarcoma) were imaged before hypofractionated radiation therapy with copper(II)-diacetyl-bis(N4-methylthiosemicarbazone) (Cu-ATSM) positron emission tomography/computed tomography (PET/CT) for hypoxia and 3'-deoxy-3'-(18)F-fluorothymidine (FLT) PET/CT for proliferation. The FLT scans were repeated after 2 fractions and the Cu-ATSM scans after 3 fractions. Midtreatment PET/CT images were deformably registered to pretreatment PET/CT images. Voxel-based Spearman correlation coefficients quantified the spatial stability of Cu-ATSM and FLT uptake distributions between pretreatment and midtreatment scans. Paired t tests determined significant differences between the patients' respective Cu-ATSM and FLT correlations coefficients. Standardized uptake value measures were also compared between pretreatment and midtreatment scans by use of paired t tests. RESULTS: Spatial distributions of Cu-ATSM and FLT uptake were stable through midtreatment for both sarcomas and carcinomas: the population mean ± standard deviation in Spearman correlation coefficient was 0.88 ± 0.07 for Cu-ATSM and 0.79 ± 0.13 for FLT. The patients' Cu-ATSM correlation coefficients were significantly higher than their respective FLT correlation coefficients (P=.001). Changes in Cu-ATSM SUV measures from pretreatment to midtreatment were histology dependent: carcinomas experienced significant decreases in Cu-ATSM uptake (P<.05), whereas sarcomas did not (P>.20). Both histologies experienced significant decreases in FLT uptake (P<.05). CONCLUSIONS: Spatial distributions of Cu-ATSM were very stable after a few fractions of radiation therapy. FLT spatial distributions were generally stable early in therapy, although they were significantly less stable than Cu-ATSM distributions. Canine tumors had significantly lower proliferative activity at midtreatment than at pretreatment, and they experienced histology-dependent changes in Cu-ATSM uptake.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/24685446/