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Course Criteria
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2.00 Credits
Lec-1, conf-1, lab-1, field trips Repeat: max. 4 units An in-service training program for those engaged in the field of floristry and also for those students who are currently enrolled in the Retail Floristry Department. Guest lecturer-demonstrators. Design work in corsages, vase arrangements, memorial flowers, and wedding work. CSU
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1.00 - 4.00 Credits
Conf-1, work-5 (ea unit) COREQ.: Enrollment in a minimum of 7 units of course work including this course, and consent of instructor Repeat: max. 6 units Field application of principles taught in previous retail floristry courses. This is a supervised work experience program with cooperating employers. An opportunity for students to acquire job experience in their chosen floristry field. CSU
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3.00 Credits
Lec-3, lab-var PREREQ.: Student must be a California Certified Radiologic Technologist (CRT) or, course may be taken concurrently in the last two semesters of training in a radiologic technology program Fluoroscopy principles including anatomy of appropriate structures, image intensifiers, image recording systems, illumination and photometry, regulatory provisions, radiation safety and quality assurance.
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2.00 Credits
Lec-3 Coreq: DMI 50A Students with prior clinical experience admitted to the Diagnostic Medical Imaging or Radiation Oncology Technology program may challenge this course. Introduction to the organization of health care in this country, the ethical and interpersonal responsibilities of radiographers, the meaning of illness and therapies to the patient, and theory and practice in assessing patient situations and in meeting basic patient needs at various clinical sites. CSU
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2.00 Credits
Lec-2, lab-1 PREREQ.: DMI 50A COREQ.: Clinical placement for Diagnostic students; enrollment in RADL 80 for Oncology students Methods of reducing dose per exposure to patients, and safe practices for protection of personnel. Emphasis is placed on learning State regulations applying to: radiography, fluoroscopy, radiation therapy and nuclear medicine.
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2.00 Credits
Lec-4, lab-2 (6 wks) PREREQ.: ANAT 25 and DMI 50B and RADL 70 and RADL 80 COREQ.: RADL 81 and 82. A description of the machines and radiation sources used for radiation therapy treatment of tumors. Methods of dosage control, beam limitation, and beam-modifying devices. An introduction to dosage calculations in radiation therapy and maintenance of treatment charts. Basic treatment planning and calculation of dose distribution by means of isodose curves and composite-treatment plans.
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2.00 Credits
Lec-2, lab-var, field trips PREREQ.: RADL 71 COREQ.: RADL 74 and 83. Advanced radiation physics as applied to radiation therapy. Radium usage, handling, and dose calculations. A detailed review of the production of X-rays and gamma sources, the absorption and modification of X-rays, and dose measurement. Machine calibration.
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2.00 Credits
Lec-2 PREREQ.: RADL 70 COREQ.: RADL 75 and 84. Basic radiation biology with applications to radiation therapy. Radiation chemistry, target theory, mechanisms of cell killing, tissue and whole-body effect, radiation botany, and the action of radiations on tumors. Genetic effects and the hazards of radiations. Combined chemotherapy and radiation therapy techniques.
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3.00 Credits
Lec-3 PREREQ.: RADL 80 COREQ.: RADL 72 and 83. An introduction for therapeutic radiologic technologists to the basis of medical and nursing practice used in the treatment of cancer patients. Description of tumors of each primary site, their histology and routes of spread. The study of each site with photographs of patients, radiographs, pathology specimens, and microscopic slides. The methods of treatment of cancer of each area, including surgery, drugs, and radiation therapy, with emphasis on radiation-therapy techniques. Associated medical problems in cancer patients and their common management, including pharmacology.
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2.00 Credits
Lec-2, lab-2 PREREQ.: RADL 72 COREQ.: RADL 73 and 84. Advanced methods of patient immobilization and positioning. Techniques in the manufacturing of casts, molds, special shields and shaping devices. Design and manufacture of compensating filters. Advanced treatment planning and isodose plotting, including computer applications. Experience in entering data into computer programs.
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