Radioactive Holmium (166Ho) Therapy for Oral Squamous Cell Carcinoma in Cats and Dogs
World Small Animal Veterinary Association World Congress Proceedings, 2014
S. van Nimwegen1; B.S. van Leeuwen1; J.F.W. Nijsen2; J. Kirpensteijn1
1Clinical Sciences of Companion Animals, Utrecht University, Utrecht, Netherlands; 2Radiology and Nuclear Medicine, Utrecht University Medical Center, Utrecht, Netherlands


Inoperable oral squamous cell carcinomas (SCC) in dogs and cats carry a poor prognosis. Radiation therapy has not been able to improve outcome, its dose rate being limited by side effects in surrounding tissues. We have developed an interstitial microbrachytherapy technique in which inoperable tumors are injected with radioactive 166Holmium (166Ho) microspheres (Ø 10–20 µm). 166Ho emits β-radiation (Eβ,max = 1.84 MeV, t1/2 = 26.8 hours) with a maximum tissue penetration of 8.7 mm. This short penetration depth enables application of a high, tumor-ablative radiation dose (200–800 Gy) in a single treatment, without causing extensive collateral damage in surrounding tissues.


To evaluate 166Ho microbrachytherapy in dogs and cats with unresectable oral SCC.


Fourteen patients (11 cats, 3 dogs) with oral SCC without evidence of metastasis (except 2 dogs with a localized metastatic lesion of tonsillar carcinoma) were treated by intratumoral injections of 166Ho microspheres. Tumors were debulked using laser surgery if possible. Cats routinely received an esophageal feeding tube. A standardized treatment and follow-up protocol was used.


Complete response rate, being complete remission or sufficient (> 70%) tumor volume reduction for subsequent surgical removal, was 43%. Median survival time was 78 days overall, and 382 days for animals with complete response. Side effects were minimal.


166Ho microbrachytherapy has great potential for targeted radio-ablation of unresectable tumors with minimal morbidity. The high rate of incomplete responders may be due to suboptimal spatial distribution of microspheres inside the tumor after injection. Experiments are ongoing to improve treatment technique using CT/MRI/SPECT visualization of 166Ho microsphere distribution.


Speaker Information
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S. van Nimwegen
Clinical Sciences of Companion Animals
Utrecht University
Utrecht, Netherlands

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