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Ceberg

Crister Ceberg

Professor

Ceberg

Intracavitary Electron FLASH Radiotherapy in a Canine Cancer Patient With Oral Malignant Melanoma

Författare

  • E Konradsson
  • M L Arendt
  • K Bastholm Jensen
  • H Thomasson
  • B Børresen
  • K Petersson
  • C Ceberg

Summary, in English

PURPOSE/OBJECTIVE(S): Studies of electron FLASH radiotherapy (FLASH-RT) in companion animals are being conducted at several institutions. High energy electron beams are generally suitable for treatment of superficial cancers, but of limited use for deep-seated tumors. In this case report, the feasibility of intracavitary electron FLASH-RT is demonstrated.

MATERIALS/METHODS: A canine cancer patient with a large oral malignant melanoma in the caudal part of the hard palate was palliatively treated with FLASH-RT at a modified clinical linear accelerator, using a cylindrical PMMA applicator (length 200 mm, inside diameter 50 mm). The patient had a poor prognosis, with an estimated survival of two weeks and no other available treatment options. A dose of 35 Gy was delivered to the depth of dose maximum in 26 pulses with a pulse dose rate of 4.5•105 Gy/s. The average dose rate was 280 Gy/s, corresponding to a total beam-on time of 125 months. One month after the treatment, the tumor was re-irradiated, using the same treatment parameters. The treatment head of the LINAC was fitted with a short electron applicator holder with a Cerrobend collimator at 65 cm from the source. The cylindrical PMMA applicator was aligned perpendicularly to the Cerrobend collimator using soft docking with a 1 cm gap. Prior to the treatments, the 2D dose distribution of the FLASH beam exiting the PMMA applicator was measured with radiographic film. In addition, the dosimetric effect of misalignment between the collimator and the electron applicator was studied based on intentional misalignments of 2.5°, 5°, 2.5 mm, and 5 mm.

RESULTS: A partial response of the tumor and clinical improvement of the patient was observed two weeks after the first treatment. A hypopigmented area in the hard palate was observed, consistent with a grade 1 adverse event, but there were no signs of mucositis or reports of patient discomfort. However, due to the thickness of the tumor (> 3 cm), the posterior part only received a limited dose, and the tumor was still obstructing the airflow at one month post treatment. At this time, a second treatment was administered with limited normal tissue receiving full dose from both treatments. At one month post the second treatment, a partial response was achieved, and no evidence of side effects other than hypopigmentation was observed. The patient was euthanized 2.5 months after the initial therapy due to progressive disease involving the oropharynx. The dosimetric evaluation showed that a conformal dose distribution could be obtained by delivering the electron beam using a cylindrical PMMA applicator. Misalignments between the applicator and the collimator were shown to result in reduced dose homogeneity.

CONCLUSION: This case report of a canine cancer patient, with a large oral malignant melanoma in the caudal part of the hard palate, has demonstrated the feasibility of intracavitary electron FLASH-RT. Two treatments of 35 Gy each, resulted in prolonged survival and increased quality-of-life.

Avdelning/ar

  • Radiotherapy Physics
  • Rausinglaboratoriet i Lund - Tumörsektionen

Publiceringsår

2021-11-01

Språk

Engelska

Sidor

31-31

Publikation/Tidskrift/Serie

International Journal of Radiation Oncology, Biology, Physics

Volym

111

Issue

3S

Dokumenttyp

Artikel i tidskrift

Förlag

Elsevier

Ämne

  • Cancer and Oncology
  • Radiology, Nuclear Medicine and Medical Imaging
  • Other Physics Topics

Aktiv

Published

Forskningsgrupp

  • Radiotherapy Physics
  • Rausing laboratory of Lund - Tumor section

ISBN/ISSN/Övrigt

  • ISSN: 0360-3016