Strahlentherapie zur Behandlung makroskopischer Analbeuteltumoren des Hundes – eine retrospektive Studie

Canine anal gland tumors are locally invasive and early metastasize to the loco-regional pelvic lymph nodes. Radiation therapy is a good method for loco-regional tumor control, especially in inoperable tumors. Since the organs in the pelvic area are sensitive to both acute and late radiation damage (chronic diarrhea, bleeding, strictures or intestinal perforations) and such damage mainly depends on the fraction size, we examined the radiation protocol used in this study with a reduced number of fractions (hypofractionated) regarding effectiveness and side effects. This retrospective study describes 13 dogs with macroscopic anal gland carcinoma that were irradiated with imaging-guided, intensity-modulated radiation therapy with a hypofractionated curative protocol of 12 × 3,8 Gy. Gross pathology was either in the region of the anal gland and/or in the sublumbar lymph nodes. Ten of the 13 dogs had advanced tumor diseases (stage 3a or 3b). The acute radiation reactions were mild to moderate and had been reported for some of the dogs in a previous study. The mean study time was 572 days (range 105–1292 days). Disease progression was observed or suspected in 7/13 dogs during the study period: local or loco-regional progression occurred in 3 dogs (23 %) and distant metastases in 4 dogs (31 %). Median progression-free survival was 480 days (95 %CI, 223–908), median survival was 597 days (95 %CI, 401–908). One year after treatment, 76,9 % (95 %CI, 53,5–100) of the dogs were still alive. The likelihood of tumor progression was lower with increasing age, otherwise none of the examined tumor or patient factors showed a prognostic influence on progression or survival time. No clinically relevant late side effects were observed apart from slight alopecia, pigmentation changes or dry, scaly skin, Medium to long-term tumor control can be expected in dogs with macroscopic anal gland tumors treated with a moderately hypofractionated radiation therapy protocol (12 × 3,8 Gy). During long-term monitoring no serious side effects or side effects requiring treatment were observed

Can volumetric modulated arc radiation therapy reduce organ at risk dose in stage 4 sinonasal tumors in dogs treated with boost irradiation?

Intensity modulated radiation therapy (IMRT) introduced marked changes to cancer treatment in animals by reducing dose to organs at risk (OAR). As the next technological step, volumetric modulated arc therapy (VMAT) has advantages (increased degrees-of-freedom, faster delivery) compared to fixed-field IMRT. Our objective was to investigate a possible advantage of VMAT over IMRT in terms of lower OAR doses in advanced-disease sinonasal tumors in dogs treated with simultaneously-integrated boost radiotherapy. A retrospective, analytical, observational study design was applied using 10 pre-existing computed tomography datasets on dogs with stage 4 sinonasal tumors. Each dataset was planned with both, 5-field IMRT and 2 arc VMAT with 10x4.83 Gy to the gross tumor volume and 10x4.2 Gy to the planning target volume. Adequate target dose coverage and normal tissue complication probability of brain ≤5% was required. Dose constraints aspired to were D60 <15 Gy for eyes, D2 <35.4 Gy for corneae, and Dmean <20 Gy for lacrimal glands. OAR dose was statistically significantly higher in IMRT plans than in VMAT plans. Median eye D60% was 18.5 Gy (interquartile range (IQR) 17.5) versus 16.1 Gy (IQR 7.4) (p = 0.007), median lacrimal gland dose 21.8 Gy (IQR 20.5) versus 18.6 Gy (IQR 7.0) (p = 0.013), and median cornea D2% 45.5 Gy (IQR 6.8) versus 39.9 Gy (IQR 10.0) (p<0.005) for IMRT versus VMAT plans, respectively. Constraints were met in 21/40 eyes, 7/40 corneae, and 24/40 lacrimal glands. Median delivery time was significantly longer for IMRT plans than for VMAT plans (p<0.01). Based on these results, VMAT plans were found to be superior in sparing doses to eyes, lacrimal glands, corneae. However, not all ocular OAR constraints could be met while ensuring adequate dose coverage and restricting brain toxicity risk for both planning techniques

Relative tumor volume has prognostic relevance in canine sinonasal tumors treated with radiation therapy: A retrospective study

Tumor volume is controversially discussed as a prognostic factor in dogs treated with radiation therapy for sinonasal tumors. Dogs’ body sizes vary widely and relative rather than absolute tumor volume might provide better prognostic information. Our hypothesis was that relative rather than absolute tumor volume (gross tumor volume, GTV) influences time to progression (TTP) and that a larger tumor volume is correlated with a higher tumor stage. We retrospectively investigated possible correlations of initial GTV to weight, body surface area (BSA), nasal cavity size and the tumor stage in 49 dogs with sinonasal tumors. Here, also presumed sinonasal tumors, esthesioneuroblastomas and histologically benign tumors were included. The possible impact of absolute and relative GTV on response and outcome were assessed according to imaging findings in 34 dogs with available follow-up computed tomographies (CTs) after definitive-intent radiation therapy with either a regular (10x4.2 Gy) or a simultaneously- integrated boost protocol (SIB; GTV boosted to 10x4.83 Gy). In contrast to absolute GTV (p<0.001), the relative GTVs were not correlated with dogs’ body sizes. Absolute GTV, GTV relative to weight and BSA were not associated with TTP based on CT imaging. However, GTV relative to nasal cavity showed a prognostic influence with a hazard ratio of 10.97 (95%CI:1.25–96.06). When looking at GTV relative to nasal cavity, stage 3 and 4 tumors were significantly larger than stage 1 and 2 tumors (p = 0.005). Our results suggest that GTV relative to nasal cavity could be prognostic for TTP and a larger tumor volume relative to nasal cavity is correlated with a higher tumor stage