Clinical Education in DMI II
Second semester of clinical education in a hospital radiology department. Placement is determined by the Program Officials. On-site meetings with ÃÈ·µ¼º½ faculty.
Second semester of clinical education in a hospital radiology department. Placement is determined by the Program Officials. On-site meetings with ÃÈ·µ¼º½ faculty.
Basic theories underlying intermediate diagnostic imaging procedures. Relationships of clinical indications, patient demographics, special precautions, accessory equipment, and patient positioning.
Introduction to patient care to include patient and staff communication skills, body mechanics for safe patient transfer and radiation safety as it applies to the basics of time, distance, and shielding. Emphasis on ethical decision making, confidentiality, age and cultural specific differences, as applied to the responsibilities of the Radiologic Technologist.
Anatomy and positioning of the axial and appendicular skeleton (except skull) and internal organs. Preliminary steps in radiographic positioning and equipment, radiation protection, patient relations, first aid and standard precautions as it pertains to radiographic examinations.
Anatomy and positioning of the axial and appendicular skeleton (except skull) and internal organs. Preliminary steps in radiographic positioning and equipment, radiation protection, patient relations, first aid and standard precautions as it pertains to radiographic examinations.
This course studies the physics of the field of radiologic technology, fluoroscopy, and the interaction of ionizing radiation with matter. Included is an examination and application of radiology equipment and radiation protection as well as the study of x-ray circuitry as it pertains to the equipment used in the field.
This course studies the physics of the field of radiologic technology, fluoroscopy, and the interaction of ionizing radiation with matter. Included is an examination and application of radiology equipment and radiation protection as well as the study of x-ray circuitry as it pertains to the equipment used in the field.
Introduction to radiation physics, x-ray equipment, and imaging factors governing image receptor exposure, processing, and quality.
Introduction to radiation physics, x-ray equipment, and imaging factors governing image receptor exposure, processing, and quality.
History of radiologic technology, imaging equipment, procedures, patient care, radiation safety, ethics, and professional organizations.