Performs, assists, or directs the dosimetric treatment planning process as designated by the radiation oncologist or the qualified medical physicist.
Design a treatment plan by means of computer/or manual computation with optimal beam geometry to deliver a prescribed radiation dose and spare critical structures in accordance with the Radiation Oncologist's prescription.
Identify and contour normal and dose-limiting structures by utilizing images from one or more data sets.
Assumes proficiency in image registration with various image data sets to include CT, MRI and PET. Create and transfer reference images and localization markers for portal verification and treatment delivery to include DRRs, CBCTs and other IGRT methods, as specified.
Supervise, perform, or assist in simulations and tumor localization using specified imaging devices including, but not limited to CT, MRI, and PET.
Supervise, perform, or assist in the planning and implementation of the fabrication of compensation filters, custom shields, wedges, or other beam modifying devices.
Supervise, perform, or assist in the planning and implementation of the production of moulds, casts, and other immobilization devices.
Communicate with the radiation therapist(s) and assume an advisory role in the implementation of the treatment plan including: the correct use of immobilization devices, compensators, wedges, field arrangement, and other treatment or imaging parameters.
Perform calculations for the accurate delivery of the prescribed dose, document all pertinent information in the patient record, and verify the mathematical accuracy of all calculations by an approved method.
Provide assistance and technical support to the Medical Physicist, in radiation safety and protection, qualitative machine calibrations, quality assurance of treatment plans and radiation oncology equipment.
Operates/performs quality assurance, under the direction of the Medical Physicist, on the treatment planning computer(s).
Supervise, perform, or assist in the application of specific methods of patient and/or beam dosimetry as directed by the Medical Physicist.
Assist in brachytherapy procedures by performing treatment planning and dose calculations.
May perform or assist in the receiving, loading, and shipping of radioactive materials.
Utilize radiation monitoring devices to measure radioactivity and perform assays.
Teach applied aspects of medical dosimetry to department and hospital staff members and providers.
Participate in clinical research, continuing education and quality improvement processes.
Knowledgeable in the areas of anatomy, physiology, clinical oncology, radiobiology, radiation physics, and radiation safety.
Expertise in the technical aspects of radiation oncology and medical physics to develop optimal treatment plans.
Knowledgeable in health care informatics-including the resources, devices and methods to acquire, store and retrieve data.
Tools include computers as well as clinical guidelines, current medical terminology, information and communication systems.
Possess good communication and interpersonal skills to facilitate the exchange of information with patients, family members, and the radiation oncology treatment team as well as outside entities.
High level critical thinking and problem solving skills.
Works independently and in collaboration with the Radiation Oncologist and Medical Physicist.
Has working knowledge of radiation safety principles/practices as well as current rules and regulations of the Nuclear Regulatory Commission and other regulatory agencies.
Has the ability to interpret criteria and develop treatment plans as defined by relevant treatment protocols.
Possesses Strong organizational and time management skills. Ability to focus in a distracting environment and prioritize competing demands.
Ability to read and comprehend written instructions, correspondence, memorandums and medical records.