INE005-b Open Source Software Solutions for Monitor Calibration and Quality Control Education Exhibits Location: IN Community, Learning Center Participants
نویسندگان
چکیده
Radiology departments are uniquely positioned to perform 3D printing. In this presentation, a practical overview of this emerging technology and its opportunities will be discussed. 3D Printing Technologies Peter Constantine Liacouras PhD (Presenter): Nothing to Disclose LEARNING OBJECTIVES 1) Understand the basic principle of Additive Manufacturing (3D Printing) and how it differs from subtractive technology. 2) Understand the principles of the software needed to convert Medical Images into three-dimensional printed models and what factors contribute to the quality of each model. 3) Become familiar with the different types of Additive Manufacturing (3D Printing) technologies. ABSTRACT This presentation will provide a novice to Additive Manufacturing the general knowledge applicable to the medical field. The basic principles of Additive manufacturing (3D Printing) will be discussed along with the different technologies which encompass the field. The steps of converting radiographic images into three-dimensional printable files and the differences between the multitude of additive manufacturing techniques will be the primary focuses.This presentation will provide a novice to Additive Manufacturing the general knowledge applicable to the medical field. The basic principles of Additive manufacturing (3D Printing) will be discussed along with the different technologies which encompass the field. The steps of converting radiographic images into three-dimensional printable files and the differences between the multitude of additive manufacturing techniques will be the primary focuses. 3D Printing Software Timothy Mueller (Presenter): Nothing to Disclose LEARNING OBJECTIVES 1) Access the results of new research and assess their potential applications to clinical practice. 2) Improve basic knowledge and skills relevant to clinical practice. 3) Practice new techniques. 4) Assess the potential of technological innovations and advances to enhance clinical practice and problem-solving. 5) Apply principles of critical thinking to ideas from experts and peers in the radiologic sciences. ABSTRACT 1. Identify the application of basic anatomic, pathologic, and physiologic principles to specific disease processes, and diagnostic and therapeutic procedures. 2. Apply the physics of particular imaging and therapeutic modalities to improve quality and efficacy while minimizing patient risk. 3. Analyze imaging and therapeutic techniques and apply this knowledge to protocol development, patient management/safety, and cost. 4. Demonstrate understanding of the influence of socioeconomic issues on current and future practice patterns. 5. Compare RCC11A1. Identify the application of basic anatomic, pathologic, and physiologic principles to specific disease processes, and diagnostic and therapeutic procedures. 2. Apply the physics of particular imaging and therapeutic modalities to improve quality and efficacy while minimizing patient risk. 3. Analyze imaging and therapeutic techniques and apply this knowledge to protocol development, patient management/safety, and cost. 4. Demonstrate understanding of the influence of socioeconomic issues on current and future practice patterns. 5. Compare RCC11A
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