Peer-reviewed veterinary case report
Using contrast ultrasound to measure bladder cancer blood flow in dogs
By Francesco Macrì et al.·Published in BMC Veterinary Research·2018·Department of Veterinary Sciences, University of Messina, GB·View original on DOAJ →
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Original publication title: Quantitative evaluation of canine urinary bladder transitional cell carcinoma using contrast-enhanced ultrasonography
- Species:
- dog
Plain-English summary
An 8-year-old dog with urinary bladder cancer (transitional cell carcinoma) underwent a special ultrasound test to help diagnose the tumor. The test used a contrast agent to highlight blood flow and showed that the tumor had a strong blood supply, which is a sign of its aggressive nature. The ultrasound also revealed how the tumor was affecting the bladder wall. This method proved to be a helpful, non-invasive way to gather important information about the cancer, which can aid in treatment decisions.
People also search for: dog bladder cancer ultrasound · transitional cell carcinoma in dogs · dog urinary cancer treatment
Abstract
Abstract Background In veterinary medicine, contrast-enhanced ultrasonography allowed the accurate quantification of liver, splenic and kidney vascularization in healthy dogs and the differentiation between malignant and benign hepatic, renal, and splenic nodules in dogs and cats based on perfusion patterns. The utility of contrast-enhanced ultrasonography in other applications is still under study. The aim of this study was to develop diagnostic criteria by contrast-enhanced ultrasonography in 8 client-owned adult dogs affected by urinary bladder transitional cell carcinoma with definitive diagnosis made by cytopathologic evaluation after suction biopsy. The contrast enhancement pattern and the quantification of blood flow parameters of this tumor were reported. Results Examinations with B-mode, Doppler ultrasonography and contrast-enhanced ultrasonography were performed in all not sedated dogs. Assessments of bladder masses and bladder wall infiltration were performed. Each dog received 2 bolus injections of sulfur hexafluoride during the contrast-enhanced ultrasonography. Quantitative analysis of the contrast-enhanced ultrasonography images were performed. For each dog, one region of interest was manually drawn around the entire tumor. Software analysis of contrast-enhanced time-intensity curves was used to identify peak enhancement, time to peak enhancement, regional blood volume, regional blood flow, and mean transit time. Contrast-enhanced ultrasonography showed an avid enhancement of the tumour tissue, with a heterogeneous or homogeneous pattern. The exam also showed the loss of planes between the lesion and the muscular layer. The presence of vascularized tissue through the bladder wall confirms the infiltrative feature of the tumour. Post-processing quantitative analysis showed a time-intensity curve with a rapid wash-in, a low level of signal intensity and a slow wash-out. Conclusions Contrast-enhanced ultrasonography provided useful clinical information and defined a vascular enhancement patterns and calculated parameters associated with TCC. It may be a useful, noninvasive and reproducible tool for detecting these tumors in dogs.
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Search related cases →Original publication on DOAJ: https://doi.org/10.1186/s12917-018-1384-5