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Peer-reviewed veterinary case report

Canine oral melanoma treated with nanotech immunotherapy and radiation

By Hoopes, P Jack et al.·Published in Molecular pharmaceutics·2018·Geisel School of Medicine at Dartmouth, United States·View original on PubMed

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Original publication title: Treatment of Canine Oral Melanoma with Nanotechnology-Based Immunotherapy and Radiation.

Species:
dog

Plain-English summary

A dog with oral melanoma (a type of mouth cancer) received a combination of radiation therapy and two special immune-boosting treatments to help fight the cancer. The treatments included a plant-based nanoparticle and a magnetic nanoparticle that generated heat. After the therapy, the dog's tumors showed more immune cells, which suggests that the treatment helped the dog's body fight the cancer better. The dog was monitored for several months, and the results indicated that this combination therapy could improve tumor control and overall treatment effectiveness.

People also search for: dog oral melanoma treatment · radiation therapy for dog cancer · immune therapy for dogs with cancer

Abstract

The presence and benefit of a radiation therapy-associated immune reaction is of great interest as the overall interest in cancer immunotherapy expands. The pathological assessment of irradiated tumors rarely demonstrates consistent immune or inflammatory response. More recent information, primarily associated with the "abscopal effect", suggests a subtle radiation-based systemic immune response may be more common and have more therapeutic potential than previously believed. However, to be of consistent value, the immune stimulatory potential of radiation therapy (RT) will clearly need to be supported by combination with other immunotherapy efforts. In this study, using a spontaneous canine oral melanoma model, we have assessed the efficacy and tumor immunopathology of two nanotechnology-based immune adjuvants combined with RT. The immune adjuvants were administered intratumorally, in an approach termed "in situ vaccination", that puts immunostimulatory reagents into a recognized tumor and utilizes the endogenous antigens in the tumor as the antigens in the antigen/adjuvant combination that constitutes a vaccine. The radiation treatment consisted of a local 6 × 6 Gy tumor regimen given over a 12 day period. The immune adjuvants were a plant-based virus-like nanoparticle (VLP) and a 110 nm diameter magnetic iron oxide nanoparticle (mNPH) that was activated with an alternating magnetic field (AMF) to produce moderate heat (43 °C/60 min). The RT was used alone or combined with one or both adjuvants. The VLP (4 × 200 μg) and mNPH (2 × 7.5 mg/gram tumor) were delivered intratumorally respectively during the RT regimen. All patients received a diagnostic biopsy and CT-based 3-D radiation treatment plan prior to initiating therapy. Patients were assessed clinically 14-21 days post-treatment, monthly for 3 months following treatment, and bimonthly, thereafter. Immunohistopathologic assessment of the tumors was performed before and 14-21 days following treatment. Results suggest that addition of VLPs and/or mNPH to a hypofractionated radiation regimen increases the immune cell infiltration in the tumor, extends the tumor control interval, and has important systemic therapeutic potential.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/29613803/