Effect of fractionated radiotherapy on the parotid gland: an experimental study in Brazilian minipigs

International Archives of Otorhinolaryngology

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ISSN: 18099777
Editor Chefe: Geraldo Pereira Jotz
Início Publicação: 31/12/2009
Periodicidade: Trimestral
Área de Estudo: Medicina

Effect of fractionated radiotherapy on the parotid gland: an experimental study in Brazilian minipigs

Ano: 2013 | Volume: 17 | Número: 2
Autores: Roberta Targa Stramandinoli-Zanicotti, Laurindo Moacir Sassi, Juliana Lucena Schussel, Maria Fernanda Torres, Melissa Funchal, Gustavo Henrique Smaniotto, José Luis Dissenha, Andre Lopes Carvalho
Autor Correspondente: Roberta Targa Stramandinoli-Zanicotti | [email protected]

Palavras-chave: Head and Neck Neoplasms, Radiotherapy, Salivary Glands, Xerostomia, Swine, Miniature

Resumos Cadastrados

Resumo Inglês:

Introduction: Radiotherapy (RT) of head and neck neoplasms often damages the salivary glands. Aim: To examine the pattern of morphologic changes resulting from RT of the head and neck region in minipig parotid glands in a clinical and experimental research setting. Methods: Twelve 18-month-old male Brazilian minipigs weighing 30-40 kg were selected. Eight minipigs were assigned to the experimental group (group 1) and 4 to the control group (group 2). The RT was performed under general anesthesia at Erasto Gaertner Hospital, Curitiba, Brazil, using an á/â ratio of 2.5. The minipigs from group 1 underwent 3 sessions of irradiation with Cobalt 60 of the head and neck, bilaterally, with 3 exposures of 8 Gy each at 7-day intervals for a total dose of 24 Gy. The animals were sacrificed 12 weeks post-RT. Results: The irradiated parotid glands displayed reductions in the size and number of acini as well as loss of secretory granules. The presence of fibrosis and loss of parenchyma relative to non-irradiated glands were observed, with an average reduction in volume of 54%. Conclusions: Our results demonstrate that this model for parotid gland damage resulting from an RT regimen appears to be useful for preclinical large animal studies of RT-induced damage and testing novel potential treatment options. Although recent advances in radiation therapy, such as intensity-modulated radiation therapy, have reduced the dose and limited the field of radiation, considerable salivary gland injury still occurs and can greatly impact the patient's quality of life after cancer treatment.