Degree: Associate in Applied Science
HEGIS Code: 5207
Curriculum Code: 0669
Campus Location: City (Fall Admittance Only)
Health Sciences Division
Pre-Admission Recommendations: Math 125 or higher, 2 years Laboratory Science, (include AP1 & Lab), Letters of recommendation at the time of interview*, GPA 3.0 minimum
Recommended High School Courses and/or Experiences: Math III, 2 years Laboratory Science, 86% Average minimum
Career Opportunities/Further Education: Hospitals, Government Agencies, Private Practice
*Interviews will be requested and arranged by the Department to qualified applicants meeting prerequisites by December 31st.
Mission Statement
The mission of the Radiation Therapy Technology Program is to provide a comprehensive education and emphasize excellence by incorporating extensive didactic learning, professional courses and clinical experiences necessary to prepare students to: become entry-level radiation therapists; provide quality patient care; be active participants in the profession; and to pursue life-long learning.
Program Description
Radiation therapy is one of the most sophisticated tools of modern medical science. Radiotherapy, the treatment of disease with ionizing radiations, may be used alone or in combination with surgery or chemotherapy. The primary responsibility of the radiation therapy technologist is to plan and implement the treatment program prescribed by the radiation oncologist. In recent years, the use of radiation in treating cancer has increased, and with this rise has come the demand for radiation therapy services.
The Radiation Therapy Technology curriculum is designed to provide students with the knowledge and cognitive skills necessary for the competent performance as an entry-level radiation therapy technologist.
Program graduates will have demonstrated numerous academic and clinical competencies consistent with the individual course objectives required within the program. Course objectives and competencies are developed from information provided by accreditation bodies, licensing agencies, and professional societies. The competencies listed below are an abbreviated list of clinical competencies.
This program, completed over 24 calendar months of full-time study, features a concentration of radiotherapy courses supplemented with labs. In addition to these specialized studies, students take courses in anatomy and physiology, composition, psychology and radiation biology. Program graduates will have completed a sufficient number of supervised clinical hours at affiliated hospitals and clinical sites. Upon completion of the courses and the clinical work, graduates qualify to apply to the American Registry of Radiologic Technologists examination for certification in radiation therapy technology.
Employment opportunities for radiation therapy technologists exist in hospitals, physicians’ private practices and government agencies.
Program Goals
Goal I: The medical community will benefit from clinically competent Radiation Therapy Technology graduates entering the profession.
- Program retention rate will remain high.
- Students taking the ARRT exam will pass the first time.
- Students will be CPR certified upon program completion.
- Students will simulate, plan and deliver a prescribed course of radiation.
- Students will have completed sufficient hours of clinical time upon program completion.
- Graduates will be employed within twelve months of program completion.
- Graduates will indicate overall program satisfaction.
- Graduates will indicate adequate preparation for an entry-level radiation therapy position.
- Employers indicate satisfaction with graduate skill levels.
- Employers will seek to hire future program graduates
- Students acquire the skills and knowledge of an entry-level therapist.
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Goal II: Program graduates will have the knowledge and communication skills, verbal and written, of a competent entry-level radiation therapist.
- Students will provide appropriate patient care.
- Students will be competent and concise at radiation therapy clinical documentation.
- Students will be skillful in machine operation and patient set-ups.
- Students will interpret and implement radiation therapy treatment plans.
- Students will practice effective communication skills in the clinical setting.
- Students will demonstrate written communication through a class paper.
- Students will maintain a journal and provide a paper after each clinical rotation.
- Graduates will demonstrate effective communication skills in the clinical employment setting.
- Students will practice verbal communication skills through class presentations.
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Goal III: Students will develop professionalism, ethical and moral practices as guided by values consistent with the professions Code of Ethics and pursue lifelong learning.
- First year students will develop professional work attitudes, ethics and behaviors.
- Second year student will demonstrate professionalism.
- Students demonstrate professional behavior and ethical values.
- Graduates exhibit professional work attitudes, ethics and behavior in team situations.
- Post graduates, practicing radiation therapy, will indicate professional membership in ASRT.
- Post graduates intend to pursue advanced degrees or certificates.
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Goal IV: Students will demonstrate proficiency in problem solving and critical thinking skills.
- Students will perform complex treatment procedures.
- Students demonstrate critical thinking through research and presentation of case studies.
- Students will calculate doses for several treatment set up and complete dosimetry competencies.
- Students will include in journal entries any observed clinical behaviors, professional or unprofessional.
- Students will demonstrate problem solving skills after completing calculations.
- Graduates apply critical thinking and problem solving skills to clinical situations.
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Department Notes
- Students must earn a grade of “C” in all radiologic technology and science courses.
- Hospital and clinical affiliates of the program require students to have a health assessment and immunizations, including Hepatitis B.
- The Radiation Therapy Technology Student Handbook describes additional program policies.
- Students must meet the technical standards for the program. Please contact the department for details.
Accreditation
Accredited by the Joint Review Committee on Education in Radiologic Technology 20 N Wacker Dr.,Suite 2850, Chicago,Il.60606-3182 phone:312-704-5300, fax: (312) 704- 5304, e-mail: mail@jrcert.org, www.jrcert.org and the State of New York Department of Health.
Special Admission Requirements/Prerequisites
- Applicant must be a high school graduate or equivalent and have a high school average of at least 86 percent.
- Applicant should have completed two years of high school laboratory science courses (such as biology with lab, chemistry with lab, or physics with lab) with a minimum grade of “C”; or completed a college-level anatomy and physiology course with lab within the past five years.
- Have completed two years of mathematics with a minimum grade of “C.” (Algebra and geometry are required; trigonometry is recommended.)
- Erie Community College pretest scores of MTLV4 and E80.
- Three recommendation forms or letters at time of interview.
- Students are required to purchase health and accident insurance.
- An informational interview is required.
- Students enrolled in the program must submit a completed Allied Health Report and Physician’s Certificate. The college reserves the right to deny acceptance into the Radiation Therapy Technology Program to students who have incomplete or unacceptable physical reports.
*NOTE: Appropriate college math (MT 125 required) and two (2) laboratory science courses with a grade of “C” or better and an overall QPA of at least 3.0 can be substituted for the high school requirements above.
Program Competencies
Upon graduation with an Associate in Applied Science degree in Radiation Therapy Technology, the graduate will be able to:
- deliver a planned course of radiation therapy;
- verify the mathematical accuracy of the prescription for radiotherapy;
- maintain daily records and document technical details of the radiotherapy treatment administered;
- observe the clinical progress of the patient undergoing radiation therapy, observe the first signs of any complications and determine when treatment should be withheld until a physician may be consulted;
- provide patient care and comfort essential to radiation therapy procedures;
- within the scope of practice for a radiation therapy technologist, detect equipment malfunctions, report same to the proper authority and know the safe limits of equipment operation;
- understand the functions, limitations and utilization of radiotherapy equipment;
- apply the rules and regulations for radiation safety, detect radiation hazards and other hazards to patient welfare within the scope of practice for the radiation therapy technologist;
- simulate and plan a prescribed course of radiotherapy treatment;
- construct immobilization and beam-directional devices for external beam radiotherapy;
- assist in the preparation of brachytherapy sources, calibration of radiotherapy equipment and the maintenance of quality assurance procedures and records;
- assist in exam room procedures, patient follow-up, patient educational procedures for the radiotherapy patient;
- provide certification in cardiopulmonary resuscitation;
- communicate clearly and effectively in written, verbal and nonverbal form; and
- demonstrate an awareness of the ethical and legal responsibilities of radiation therapy technologists.
Program Effectiveness
Effective April 20, 2016 the Radiation Therapy program at Erie Community College has been put on probation by the JRCERT accrediting body. This does not affect the students’ ability to the the ARRT registry uppn successful completion of the program.
In addition to the mission statement, goals and program competencies (objectives) already listed on this page, the following data is provided to reflect the Radiation Therapy Technology Program’s effectiveness.
Program completion rate: This is defined as the number of students who complete the program, didactic and clinical within 150% of the stated program length. It is an annual measure of the number of students beginning the program and the actual number that complete the program. Information for years 2011 to 2015 is listed. The completion rate for 2015 was 50%. Seven students of the fourteen enrolled graduated. The five year, 2011 to 2015 average completion rate was 75%.
Program credentialing rate: This rate reflects the number of students that pass the American Registry of Radiologic Technologists (ARRT), Radiation Therapy certification examination on their first attempt. The information for the years 2011 to 2015. The five-year credentialing rate for 42/59 first-time examinees was 71.0%.
Program job placement rate: This rate reflects the number of students who obtain employment in radiation therapy within twelve (12) months of graduation versus the number of graduates actively seeking employment. For the most recent five-year period, 76.7% 23/30 graduates actively seeking employment were hired.
Curriculum
Total Degree Credits: 78.0