We use cookies to understand how you use our site and to improve your experience. This includes personalizing content and advertising. To learn more, click here. By continuing to use our site, you accept our use of cookies. Cookie Policy.

MedImaging

Download Mobile App
Recent News Radiography MRI Ultrasound Nuclear Medicine General/Advanced Imaging Imaging IT Industry News

Boron CT Radiotherapy Shown Effective for Advanced Head and Neck Cancer

By MedImaging International staff writers
Posted on 18 Mar 2011

New radiotherapy technology, biologically targeted boron computed tomography (BNCT) treatment, is based on producing radiation inside a tumor using boron-10 and thermal neutrons.

Boron-10 is introduced into cancer cells with the help of a special carrier compound (phenylalanine), after which the tumor is irradiated with low-energy neutrons. The latter react with the boron to generate high LET (linear energy transfer) radiation, which may destroy the cancer cells. One to two BNCT treatment sessions may be sufficient to destroy a tumor, while keeping the impact of radiation on surrounding healthy tissue to a minimum.

A research reactor is currently used as the neutron source, but customized neutron accelerators are being designed for BNCT. Clinical trials to evaluate the effectiveness and safety of BNCT in the treatment of locally recurrent head and neck cancer have been performed at the department of oncology at Helsinki University Central Hospital (HUCH; Finland). Apart from palliative chemotherapy, conventional treatment was no longer considered possible for the patients treated in the BNCT trials.

Thirty patients referred to HUCH's department of oncology from hospitals around Finland took part in the trial. Seventy-six percent of patients responded well to the treatment and 30% were still alive two years after treatment--while only one patient has survived 55 months. The results of the study, conducted by Prof. Heikki Joensuu, have recently been published in the April 1, 2011, issue of the International Journal of Radiation Oncology, Biology, Physics.

BNCT treatment is provided by Boneca Corp. (Helsinki, Finland), which is based at the main campus of Helsinki University Central Hospital and is the world's only provider of radiation safety-audited BNCT treatment. Boneca works closely with HUCH's department of oncology, and treatment-related decisions are taken jointly with the hospital's otolaryngology, radiation therapy, and oncology specialists. Boneca is responsible for administering the treatment, which is given at a special facility adjacent to the research nuclear reactor used at the VTT Technical Research Centre of Finland (Espoo, Finalnd).

"The positive results that we have achieved in treating head and neck tumors have convinced us of the benefits of further developing BNCT treatment and the services needed to administer it,” says the chairman of Boneca's Board of Directors, Seppo Pakkala, MD, PhD. "As BNCT saves healthy tissue, this promises to make it a good choice as a first-line therapy for patients with large head and neck tumors, avoiding the need for extensive surgery. Additional studies will be needed, however, before BNCT can be adopted for this use. We would also like to extend the use of BNCT to treating tumors in other anatomical areas for which there are no forms of treatment currently available.”

BNCT treatment has been given to over 200 patients to date, the majority of whom had recurred head and neck cancer or malignant brain tumor. Approximately 6% of patients have come from abroad as a result of international interest in BNCT.

"We have sufficient capacity to treat more patients and are very interested in collaborating with hospitals outside Finland that would like to offer the option of BNCT treatment for their patients,” said Boneca's CEO, Markku Pohjola.

Related links:

Helsinki University Central Hospital
Boneca
 


Portable Color Doppler Ultrasound Scanner
DCU10
New
Medical Radiographic X-Ray Machine
TR30N HF
Ultrasonic Pocket Doppler
SD1
New
MRI Infusion Workstation
BeneFusion MRI Station

Latest Nuclear Medicine News

Novel Radiolabeled Antibody Improves Diagnosis and Treatment of Solid Tumors

Novel PET Imaging Approach Offers Never-Before-Seen View of Neuroinflammation

Novel Radiotracer Identifies Biomarker for Triple-Negative Breast Cancer