Hepatic Function SPECT Testing Before and During Radiotherapy Can Help in Treatment Planning for Liver Cancer Patients
By MedImaging International staff writers Posted on 26 Feb 2013 |
Monitoring the hepatic function of unresectable liver cancer patients evaluated by 99mTc-labeled iminodiacetic acid (HIDA) used with single-photon emission computed tomography (SPECT) imaging before and during radiation therapy provides critical data that could guide more customized treatment plans and reduce risks of liver injury, according to recent research.
The study’s findings were presented at the 2013 Cancer Imaging and Radiation Therapy Symposium, held February 8–9, 2013, in Orlando (FL, USA). This Symposium is sponsored by the American Society for Radiation Oncology (ASTRO; Fairfax, VA, USA) and the Radiological Society of North American (RSNA; Oak Brook, IL, USA). This research included 14 patients who had unresectable intrahepatic tumors and were treated with three-dimensional conformal radiation therapy (3D CRT), intensity-modulated radiation therapy (IMRT) or stereotactic body radiation therapy (SBRT) at a median dose of 52 Gy. Patients underwent HIDA SPECT scanning prior to radiation therapy, after delivery of 50%–60% of the planned doses and one month after completion of radiation therapy. Moreover, indocyanine green tests, a measure of overall liver function, were performed +/- one day of each SPECT scan. The 27 dynamic HIDA SPECT volumes were captured over a 60-minute period after the administration of 10 mCi 99mTc-labeled HIDA on a SPECT/CT scanner.
Gauging the regional liver function prior to radiation therapy allows assessment of the precondition of the patient’s liver function. Assessing the change of the regional liver function during the mid-course of radiation therapy indicates the response of the individual patient’s liver to radiation doses. Integrating the planned radiation doses with the regional liver function evaluation and reassessment, the researchers devised a model to predict the regional liver function postradiation therapy. This information is key to providing patients with the optimal radiation doses for better tumor control, while minimizing the risk for each patient.
“Through this assessment method, patients could potentially receive more treatment doses tailored to meet their needs, based on their liver function,” said Hesheng Wang, PhD, the lead study author and a postdoctoral fellow in radiation oncology at the University of Michigan in (Ann Arbor, MI, USA). “The physiological adaptation of radiation therapy based upon individual response assessment is a valuable new paradigm worth additional testing.”
Related Links:
University of Michigan
The study’s findings were presented at the 2013 Cancer Imaging and Radiation Therapy Symposium, held February 8–9, 2013, in Orlando (FL, USA). This Symposium is sponsored by the American Society for Radiation Oncology (ASTRO; Fairfax, VA, USA) and the Radiological Society of North American (RSNA; Oak Brook, IL, USA). This research included 14 patients who had unresectable intrahepatic tumors and were treated with three-dimensional conformal radiation therapy (3D CRT), intensity-modulated radiation therapy (IMRT) or stereotactic body radiation therapy (SBRT) at a median dose of 52 Gy. Patients underwent HIDA SPECT scanning prior to radiation therapy, after delivery of 50%–60% of the planned doses and one month after completion of radiation therapy. Moreover, indocyanine green tests, a measure of overall liver function, were performed +/- one day of each SPECT scan. The 27 dynamic HIDA SPECT volumes were captured over a 60-minute period after the administration of 10 mCi 99mTc-labeled HIDA on a SPECT/CT scanner.
Gauging the regional liver function prior to radiation therapy allows assessment of the precondition of the patient’s liver function. Assessing the change of the regional liver function during the mid-course of radiation therapy indicates the response of the individual patient’s liver to radiation doses. Integrating the planned radiation doses with the regional liver function evaluation and reassessment, the researchers devised a model to predict the regional liver function postradiation therapy. This information is key to providing patients with the optimal radiation doses for better tumor control, while minimizing the risk for each patient.
“Through this assessment method, patients could potentially receive more treatment doses tailored to meet their needs, based on their liver function,” said Hesheng Wang, PhD, the lead study author and a postdoctoral fellow in radiation oncology at the University of Michigan in (Ann Arbor, MI, USA). “The physiological adaptation of radiation therapy based upon individual response assessment is a valuable new paradigm worth additional testing.”
Related Links:
University of Michigan
Latest Nuclear Medicine News
- New SPECT/CT Technique Could Change Imaging Practices and Increase Patient Access
- New Radiotheranostic System Detects and Treats Ovarian Cancer Noninvasively
- AI System Automatically and Reliably Detects Cardiac Amyloidosis Using Scintigraphy Imaging
- Early 30-Minute Dynamic FDG-PET Acquisition Could Halve Lung Scan Times
- New Method for Triggering and Imaging Seizures to Help Guide Epilepsy Surgery
- Radioguided Surgery Accurately Detects and Removes Metastatic Lymph Nodes in Prostate Cancer Patients
- New PET Tracer Detects Inflammatory Arthritis Before Symptoms Appear
- Novel PET Tracer Enhances Lesion Detection in Medullary Thyroid Cancer
- Targeted Therapy Delivers Radiation Directly To Cells in Hard-To-Treat Cancers
- New PET Tracer Noninvasively Identifies Cancer Gene Mutation for More Precise Diagnosis
- Algorithm Predicts Prostate Cancer Recurrence in Patients Treated by Radiation Therapy
- Novel PET Imaging Tracer Noninvasively Identifies Cancer Gene Mutation for More Precise Diagnosis
- Ultrafast Laser Technology to Improve Cancer Treatment
- Low-Dose Radiation Therapy Demonstrates Potential for Treatment of Heart Failure
- New PET Radiotracer Aids Early, Noninvasive Detection of Inflammatory Bowel Disease
- Combining Amino Acid PET and MRI Imaging to Help Treat Aggressive Brain Tumors