Limiting Radiation to Major Salivary Glands in Head and Neck Cancer Patients
By MedImaging International staff writers Posted on 12 Mar 2014 |
Avoiding the salivary contralateral submandibular gland during radiation therapy is feasible and safe with advanced stage, node-positive head and neck tumors and base of tongue lesions, according to new research.
Researchers presented their findings at the 2014 Multidisciplinary Head and Neck Cancer Symposium, held February 20–22, 2014, in Scottsdale (AZ, USA). They conducted a retrospective analysis of 71 patients from two facilities: the University of Colorado Cancer Center (Aurora, USA) and the Memorial Sloan-Kettering Cancer Center (New York, NY, USA). The average patient age was 55, and approximately 50% of the patients were current or former smokers. Forty patients had primary tonsil cancers, and 31 patients had tumors involving the base of the tongue. Approximately 80% of patients had N2b or greater disease (indicating extensive lymph node involvement), and 90% of patients had overall stage IV disease (advanced cancer). The study only included patients who were receiving treatment to the bilateral neck.
All of the patients had been treated with radiotherapy technology that avoided the contralateral submandibular gland (cSMG), on the opposite side of the neck as the cancer. Submandibular glands are major salivary glands located beneath the floor of the mouth and are responsible for the majority of unstimulated salivary flow. The mean dose to the cSMG was 33.04 Gy, and at a median follow-up of 27.3 months, no patients had experienced recurrences in the contralateral level Ib lymph nodes (the area of the spared submandibular gland).
“Sparing the submandibular gland from radiation can decrease the side effect of dry mouth, which has a substantial impact on patients’ quality of life,” said Tyler Robin, PhD, lead author of the study, and an MD candidate at the University of Colorado School of Medicine. “Historically, however, there has been hesitation to spare the submandibular gland from radiation because there are lymph nodes near the gland that also end up not getting treated. While this seems worrisome because head and neck cancer spreads through the lymph nodes, it is well established that the risk of cancer involvement in the lymph nodes near the submandibular gland is exceedingly low, yet the benefit of sparing the gland for a patient’s quality of life is high. It is important to consider treatment side effects alongside treatment benefit, and overall, our goal is to decrease side effects associated with radiation treatment without undertreating a patient’s cancer. With modern advances in radiation therapy, it is possible to eloquently treat cancers while avoiding surrounding normal tissues. Our study is a prime example of how we can safely spare normal tissue in appropriate patients in order to decrease treatment side effects.”
Related Links:
University of Colorado Cancer Center
Memorial Sloan-Kettering Cancer Center
Researchers presented their findings at the 2014 Multidisciplinary Head and Neck Cancer Symposium, held February 20–22, 2014, in Scottsdale (AZ, USA). They conducted a retrospective analysis of 71 patients from two facilities: the University of Colorado Cancer Center (Aurora, USA) and the Memorial Sloan-Kettering Cancer Center (New York, NY, USA). The average patient age was 55, and approximately 50% of the patients were current or former smokers. Forty patients had primary tonsil cancers, and 31 patients had tumors involving the base of the tongue. Approximately 80% of patients had N2b or greater disease (indicating extensive lymph node involvement), and 90% of patients had overall stage IV disease (advanced cancer). The study only included patients who were receiving treatment to the bilateral neck.
All of the patients had been treated with radiotherapy technology that avoided the contralateral submandibular gland (cSMG), on the opposite side of the neck as the cancer. Submandibular glands are major salivary glands located beneath the floor of the mouth and are responsible for the majority of unstimulated salivary flow. The mean dose to the cSMG was 33.04 Gy, and at a median follow-up of 27.3 months, no patients had experienced recurrences in the contralateral level Ib lymph nodes (the area of the spared submandibular gland).
“Sparing the submandibular gland from radiation can decrease the side effect of dry mouth, which has a substantial impact on patients’ quality of life,” said Tyler Robin, PhD, lead author of the study, and an MD candidate at the University of Colorado School of Medicine. “Historically, however, there has been hesitation to spare the submandibular gland from radiation because there are lymph nodes near the gland that also end up not getting treated. While this seems worrisome because head and neck cancer spreads through the lymph nodes, it is well established that the risk of cancer involvement in the lymph nodes near the submandibular gland is exceedingly low, yet the benefit of sparing the gland for a patient’s quality of life is high. It is important to consider treatment side effects alongside treatment benefit, and overall, our goal is to decrease side effects associated with radiation treatment without undertreating a patient’s cancer. With modern advances in radiation therapy, it is possible to eloquently treat cancers while avoiding surrounding normal tissues. Our study is a prime example of how we can safely spare normal tissue in appropriate patients in order to decrease treatment side effects.”
Related Links:
University of Colorado Cancer Center
Memorial Sloan-Kettering Cancer Center
Latest Radiography News
- Novel Breast Imaging System Proves As Effective As Mammography
- AI Assistance Improves Breast-Cancer Screening by Reducing False Positives
- AI Could Boost Clinical Adoption of Chest DDR
- 3D Mammography Almost Halves Breast Cancer Incidence between Two Screening Tests
- AI Model Predicts 5-Year Breast Cancer Risk from Mammograms
- Deep Learning Framework Detects Fractures in X-Ray Images With 99% Accuracy
- Direct AI-Based Medical X-Ray Imaging System a Paradigm-Shift from Conventional DR and CT
- Chest X-Ray AI Solution Automatically Identifies, Categorizes and Highlights Suspicious Areas
- AI Diagnoses Wrist Fractures As Well As Radiologists
- Annual Mammography Beginning At 40 Cuts Breast Cancer Mortality By 42%
- 3D Human GPS Powered By Light Paves Way for Radiation-Free Minimally-Invasive Surgery
- Novel AI Technology to Revolutionize Cancer Detection in Dense Breasts
- AI Solution Provides Radiologists with 'Second Pair' Of Eyes to Detect Breast Cancers
- AI Helps General Radiologists Achieve Specialist-Level Performance in Interpreting Mammograms
- Novel Imaging Technique Could Transform Breast Cancer Detection
- Computer Program Combines AI and Heat-Imaging Technology for Early Breast Cancer Detection