Your search keyword '"BODY RADIATION-THERAPY"' showing total 2 results

1. Experimental investigation of dynamic real‐time rotation‐including dose reconstruction during prostate tracking radiotherapy

Author

Muurholm, Casper Gammelmark, Ravkilde, Thomas, De Roover, Robin, Skouboe, Simon, Hansen, Rune, Crijns, Wouter, Depuydt, Tom, and Poulsen, Per R

Subjects

Male, BODY RADIATION-THERAPY, ARC THERAPY, ONLINE, VALIDATION, TREATMENT-COUCH, intrafraction motion management, couch tracking, IMPLEMENTATION, Humans, Radiometry, COLLIMATOR TRACKING, Science & Technology, real-time online dose reconstruction, Phantoms, Imaging, Radiotherapy Planning, Computer-Assisted, Radiology, Nuclear Medicine & Medical Imaging, Prostate, Prostatic Neoplasms, six degree of freedom motion, Radiotherapy Dosage, General Medicine, prostate cancer, INTENSITY-MODULATED RADIOTHERAPY, DOSIMETRIC IMPACT, INTRAFRACTION MOTION, MLC tracking, Radiotherapy, Intensity-Modulated, Life Sciences & Biomedicine

Abstract

BACKGROUND: Hypofractionation in prostate radiotherapy is of increasing interest. Steep dose gradients and a large weight on each individual fraction emphasize the need for motion management. Real-time motion management techniques such as multileaf collimator (MLC) tracking or couch tracking typically adjust for translational motion while rotations remain uncompensated with unknown dosimetric impact. PURPOSE: The purpose of this study is to demonstrate and validate dynamic real-time rotation-including dose reconstruction during radiotherapy experiments with and without MLC and couch tracking. METHODS: Real-time dose reconstruction was performed using the in-house developed software DoseTracker. DoseTracker receives streamed target positions and accelerator parameters during treatment delivery and uses a pencil beam algorithm with water density assumption to reconstruct the dose in a moving target. DoseTracker's ability to reconstruct motion-induced dose errors in a dynamically rotating and translating target was investigated during three different scenarios: (1) no motion compensation and translational motion correction with (2) MLC tracking and (3) couch tracking. In each scenario, dose reconstruction was performed online and in real time during delivery of two dual-arc volumetric-modulated arc therapy prostate plans with a prescribed fraction dose of 7 Gy to the prostate and simultaneous intraprostatic lesion boosts with doses of at least 8 Gy, but up to 10 Gy as long as the organs at risk dose constraints were fulfilled. The plans were delivered to a pelvis phantom that replicated three patient-measured motion traces using a rotational insert with 21 layers of EBT3 film spaced 2.5 mm apart. DoseTracker repeatedly calculated the actual motion-including dose increment and the planned static dose increment since the last calculation in 84 500 points in the film stack. The experiments were performed with a TrueBeam accelerator with MLC and couch tracking based on electromagnetic transponders embedded in the film stack. The motion-induced dose error was quantified as the difference between the final cumulative dose with motion and without motion using the 2D 2%/2 mm γ-failure rate and the difference in dose to 95% of the clinical target volume (CTV ΔD95% ) and the gross target volume (GTV ΔD95% ) as well as the difference in dose to 0.1 cm3 of the urethra, bladder, and rectum (ΔD0.1CC ). The motion-induced errors were compared between dose reconstructions and film measurements. RESULTS: The dose was reconstructed in all calculation points at a mean frequency of 4.7 Hz. The root-mean-square difference between real-time reconstructed and film-measured motion-induced errors was 3.1%-points (γ-failure rate), 0.13 Gy (CTV ΔD95% ), 0.23 Gy (GTV ΔD95% ), 0.19 Gy (urethra ΔD0.1CC ), 0.09 Gy (bladder ΔD0.1CC ), and 0.07 Gy (rectum ΔD0.1CC ). CONCLUSIONS: In a series of phantom experiments, online real-time rotation-including dose reconstruction was performed for the first time. The calculated motion-induced errors agreed well with film measurements. The dose reconstruction provides a valuable tool for monitoring dose delivery and investigating the efficacy of advanced motion-compensation techniques in the presence of translational and rotational motion. ispartof: MEDICAL PHYSICS vol:49 issue:6 pages:3574-3584 ispartof: location:United States status: published

Published

2022

2. Spinal Metastatic Disease: A Review of the Role of the Multidisciplinary Team

Author

Joseph F. Baker, Evelyn P. Murphy, Aiden Devitt, Sudarshan Munigangaiah, John P. McCabe, Mark Curtin, and Robert P Piggott

Subjects

Mental Health Services, Biopsychosocial model, medicine.medical_specialty, diagnosis, medicine.medical_treatment, percutaneous vertebroplasty, Antineoplastic Agents, Disease, Spinal disease, Malignancy, spine, cord compression, Metastasis, prostate-cancer, zoledronic acid, 03 medical and health sciences, 0302 clinical medicine, Quality of life (healthcare), bone metastases, Multidisciplinary approach, medicine, metastasis, Humans, Orthopedics and Sports Medicine, Intensive care medicine, Review Articles, breast-cancer, Physical Therapy Modalities, Patient Care Team, Spinal Neoplasms, Rehabilitation, Nutritional Support, business.industry, Palliative Care, thoracolumbar spine, body radiation-therapy, medicine.disease, skeletal-related events, multiple-myeloma, 030220 oncology & carcinogenesis, oncology, Physical therapy, Surgery, business, multidisciplinary, 030217 neurology & neurosurgery

Abstract

Historically, a simple approach centered on palliation was applicable to the majority of patients with metastatic spinal disease. With advances in diagnosis and treatment, a more complicated algorithm has devolved requiring a multidisciplinary approach with institutional commitment and support. We performed a database review including pertinent articles exploring the multidisciplinary management of spinal metastatic disease. The wide variation in clinical presentation and tumor response to treatment necessitates a multidisciplinary approach that integrates the diagnosis and treatment of the cancer, symptom management, and rehabilitation for optimal care of patients with spinal metastases. Advances in the field of radiology have led to earlier and more focused diagnosis of spinal metastasis and acts to guide therapy. Advances in surgical techniques, neurophysiologic monitoring, and anesthetic expertise have allowed surgeons to perform more extensive procedures leading to improved outcomes and reduced morbidity. Radiation oncology input that is essential as external beam radiation therapy can provide significant pain relief. Non-operative measures may include bisphosphonate infusions, management of complications (e.g. hypercalcemia of malignancy), monoclonal antibody infusions, and chemotherapy if indicated in the treatment of the primary malignancy. Input from psychology services is necessary to address the biopsychosocial ramifications of spinal metastasis. Allied health professionals in the form of physiotherapists, social workers, and dieticians also contribute in maximizing patients' quality of life and well-being.

Published

2017