Rouse Company Foundation Student Services Building

RADT 127 Radiographic and Fluoroscopic Imaging Equipment

This course consists of two major sections: Imaging Equipment and Digital Imaging. Imaging Equipment introduces radiographic physics, and radiographic and fluoroscopic equipment design. Contents for this section are designed to establish a basic knowledge of atomic structure, electricity, magnetism, electromagnetism, x-ray production, and x-ray interaction. Stationary and mobile fluoroscopic imaging equipment and image intensifying devices are also discussed. Contents for Digital Imaging are designed to impart an understanding of the components, principles, and operations of digital imaging systems found in diagnostic radiology. PACS fundamentals, quality assurance, and quality control are also presented.

Credits

3

Prerequisite

BIOL 203, RADT 116, RADT 117, and RADT 118

Corequisite

BIOL 204, RADT 126, and RADT 128

Hours Weekly

2 hours theory, 4 hours lab weekly

Course Objectives

  1. 1. Discuss electricity, magnetism, and electromagnetism.
  2. 2. Discuss various types of permanently-installed and mobile radiographic and fluoroscopic equipment in terms of purpose and applications.
  3. 3. Describe the general design and functions of operating console, high-voltage generator, and x-ray tube.
  4. 4. Discuss the process of x-ray production, emission, and interaction.
  5. 5. Distinguish between the construction of photostimulable phosphor imaging plates and flat panel detectors.
  6. 6. Explore various types of digital image acquisition, processing, and archiving systems.
  7. 7. Describe latent image formation for CR and DR systems.
  8. 8. Evaluate the role of DICOM, RIS, HIS, PACS, and HL7 in medical imaging.

Course Objectives

  1. 1. Discuss electricity, magnetism, and electromagnetism.
  2. 2. Discuss various types of permanently-installed and mobile radiographic and fluoroscopic equipment in terms of purpose and applications.
  3. 3. Describe the general design and functions of operating console, high-voltage generator, and x-ray tube.
  4. 4. Discuss the process of x-ray production, emission, and interaction.
  5. 5. Distinguish between the construction of photostimulable phosphor imaging plates and flat panel detectors.
  6. 6. Explore various types of digital image acquisition, processing, and archiving systems.
  7. 7. Describe latent image formation for CR and DR systems.
  8. 8. Evaluate the role of DICOM, RIS, HIS, PACS, and HL7 in medical imaging.