RADT 247 Radiation Biology and Protection
In this course students will develop the skills necessary to protect patients, personnel, and the public from unnecessary exposure to ionizing radiation by applying the ALARA principle. Contents for Radiation Biology and Protection are designed to provide an overview of the principles of radiation interaction with living systems. Radiation biology and effects on molecules, cells, tissues, and the body as a whole are presented. Early and late radiation effects, dose limits, equipment design for radiation protection, and management of radiation dose are also discussed.
Hours Weekly
2 hours theory weekly
Course Objectives
- Apply the principles of radiation protection for the patient, self, and others.
- Apply effective dose to enumerate occupational and non-occupational exposure limits and related factors.
- Describe each of the five x-ray interactions with matter.
- Examine the importance of Linear Energy Transfer (LET), Radiation Biologic Effectiveness, and Oxygen Enhancement Ratio in understanding the characteristics of ionizing radiation.
- Examine early, late, nonstochastic, stochastic, somatic, and genetic effects of ionizing radiation.
- Assess the requirement for a personnel dosimeter and explain the function and characteristics of such devices
- Outline radiographic equipment design for radiation protection.
Course Objectives
- Apply the principles of radiation protection for the patient, self, and others.
Learning Activity Artifact
- Other (please fill out box below)
- Select questions from Radiation Biology and Protection final exam
Procedure for Assessing Student Learning
- Other (please fill out box below)
- Course grading rubric
- Apply effective dose to enumerate occupational and non-occupational exposure limits and related factors.
Learning Activity Artifact
- Other (please fill out box below)
- Select questions from Radiation Biology and Protection final exam
Procedure for Assessing Student Learning
- Other (please fill out box below)
- Course grading rubric
Program Goal(s)
Degree: Radiologic (X-Ray) Technology - A.A.S. Degree (Career)
Display strong critical thinking and problem-solving skills.
- Describe each of the five x-ray interactions with matter.
Learning Activity Artifact
- Other (please fill out box below)
- Select questions from Radiation Biology and Protection final exam
Procedure for Assessing Student Learning
- Other (please fill out box below)
- Course grading rubric
Program Goal(s)
Degree: Radiologic (X-Ray) Technology - A.A.S. Degree (Career)
Display strong critical thinking and problem-solving skills.
- Examine the importance of Linear Energy Transfer (LET), Radiation Biologic Effectiveness, and Oxygen Enhancement Ratio in understanding the characteristics of ionizing radiation.
Learning Activity Artifact
- Other (please fill out box below)
- Select questions from Radiation Biology and Protection final exam
Procedure for Assessing Student Learning
- Other (please fill out box below)
- Course grading rubric
- Examine early, late, nonstochastic, stochastic, somatic, and genetic effects of ionizing radiation.
Learning Activity Artifact
- Other (please fill out box below)
- Radiation effects project
Procedure for Assessing Student Learning
- Other (please fill out box below)
- Project grading rubric
- Assess the requirement for a personnel dosimeter and explain the function and characteristics of such devices
Procedure for Assessing Student Learning
- Other (please fill out box below)
- Radiation effects project grading rubric
Program Goal(s)
Degree: Radiologic (X-Ray) Technology - A.A.S. Degree (Career)
Practice as clinically competent entry-level technologists.
- Outline radiographic equipment design for radiation protection.
Procedure for Assessing Student Learning
- Other (please fill out box below)
- Radiation Biology and Protection final exam
Program Goal(s)
Degree: Radiologic (X-Ray) Technology - A.A.S. Degree (Career)
Practice as clinically competent entry-level technologists.
Degree: Radiologic (X-Ray) Technology - A.A.S. Degree (Career)
Display strong critical thinking and problem-solving skills.