Xray technician program

The students perform X-ray exposure labs designed to demonstrate methods of reducing occupational worker exposure. Also included in this section is the method of reducing unnecessary patient X-ray exposure. The students perform X-ray exposure labs designed to demonstrate how to reduce patient exposure. The laws and regulations governing the utilization of X-Ray equipment are also covered.

Instructional Hours — , Total Clock Hours — , weeks 12 mo. The complexity of radiographic equipment, the diversity of procedures and the emphasis upon radiation safety and protection require competently trained personnel.

A radiographer works directly with physicians in hospitals, clinics, imaging centers and private offices performing x-ray examinations on patients in order to aid in the diagnosis of disease or injury. Responsibilities include positioning of the patient; handling of complex equipment; determining proper exposure factors; utilizing radiation protection devices; and processing films.

NCC Next. Ed High School Equiv. Program Goals and Graduate Competencies. Demonstrate clinical competence by performing a full range of radiologic procedures on all patient populations. Professionally utilize verbal, nonverbal, and written communication in patient care intervention and professional relationships. Demonstrate the use of critical thinking and problem-solving skills in the performance of radiographic procedures.

Understand the importance of professional growth and development. Apply positioning skills Select optimal technical factors required for the routine and non-routine patient Practice radiation protection Demonstrate written communication skills Demonstrate written and oral communication skills Perform competently procedures for the nonroutine patient Critique images to determine diagnostic quality Demonstrate professionalism and good work ethics Provide quality patient care Understand the value of lifelong learning.

Semester I. Introduction to Radiography. Introduction to Radiography RAD 45 hours This radiography course provides an overview of the field of radiologic technology, including the organization of medical practice and the unique place imaging holds in the medical field.

Radiographic Procedures I. Radiographic Procedures I RAD 60 hours This X-Ray Technologist course offers an introduction to radiographic positioning terminology, manipulation of equipment, positioning and alignment of the anatomical structure and equipment, and evaluation of images for demonstration of basic anatomy.

Radiographic Procedures Lab I. Radiographic Physics and Principles. Radiographic Physics and Principles RAD 45 hours In this Radiologic Technology course, Hunter Business School students review electromagnetic radiation and electricity in order to operate radiographic equipment in a safe manner.

Anatomy and Physiology I. Medical Terminology. Medical Terminology RAD 45 hours This medical training course introduces students to medical terminology through a combination of visually reinforced learning and lecture. Patient Care. Patient Care RAD 45 hours This medical training course highlights the responsibilities of caring for patients who require medical imaging procedures.

Clinical Practicum I. Clinical Practicum I RAD hours This medical training course is designed to introduce Radiologic Technology students to the clinical environment and provide them with the opportunity to interact with staff radiographers and radiologists to begin developing clinical skills.

Semester II. Principles of Exposure. Principles of Exposure RAD 45 hours This course introduces Radiologic Technology students to the basic principles of medical imaging and involves equipment design and function. Radiographic Procedures II. Radiographic Procedures II RAD 60 hours This progressive Radiologic Technology course focuses on radiographic procedures, positioning, exposure factors, film evaluation, and related anatomy and positioning of pediatric, geriatric, and trauma patients.

Radiographic Procedures Lab II. Ethics and Legal Implications in Radiologic Technology. Radiation Biology and Patient Protection. Specialization in Radiologic Technology. Specialization in Radiologic Technology RAD 45 hours This survey Radiologic Technology course is designed to introduce Radiologic Technology students to specializations that exist in the imaging field.

Anatomy and Physiology II. Clinical Practicum II. Semester III. Digital Radiography. Digital Radiography RAD 45 hours During this course, Radiologic Technology students gain deeper understanding of digital imaging systems, basic computer and networking information, PACS picture archiving and communication systems , and digital quality control and assurance activities.

Radiographic Procedures III. Radiographic Procedures III RAD 60 hours This progressive course focuses on radiographic procedures, positioning, exposure factors, film evaluation, and related anatomy imaging as it relates to the advanced projections of the chest, abdomen, upper extremities, lower extremities, and pelvic region.

Pathology RAD 45 hours This course introduces Radiologic Technology students to the basic terms related to pathology and manifestations of pathological conditions, including their relevance to radiologic procedures and the radiographic appearance of diseases. Clinical Practicum III. Semester IV. Radiographic Image Analysis.

Radiographic Procedures IV. Radiographic Procedures IV RAD 60 hours The final course in the series focuses on discussing and demonstrating radiographic procedures, positioning, exposure factors, film evaluation, and related anatomy, including upper and lower gastrointestinal procedures and positioning, general and advanced procedures of the skull, nasal bones, sinuses, and zygomatic arches.

Radiographic Procedures Lab IV. Principles and Fundamentals of Mammography. Principles and Fundamentals of Mammography RAD 45 hours This Radiologic Technology course provides an overview of the field of mammography, including the history of this imaging modality and the unique place mammography holds in the medical field. Principles and Fundamentals of CT. Clinical Practicum IV. Duties may include patient assessment, patient care, vital signs, x-ray examination of the chest, upper and lower extremities, and torso skeletal body parts.

The program information, length, and schedule may change. Please read the accompanying Addendum for change and updates, as well as a check-in with the Admission Advisor for details. Gurnick Academy of Medical Arts X-Ray Technician with Medical Assistant Skills program provides a library and classrooms equipped with modern media teaching aids, textbooks, journals, periodicals, anatomical charts, phantoms, and energized lab equipment. The student will receive didactic, laboratory, and clinical experience in affiliated medical facilities.

Instructor to student ratio is as follows: laboratory , residential lectures , online lectures , and clinical Classes may be scheduled Monday through Sunday. Students will attend a maximum of 40 hours per week of instruction, including didactic, labs, and clinical. Clinical activities may be held during weekdays or weekends, and shifts may include day or evening as the clinical site requires. Didactic courses are held between AM to PM. The clinical sites are utilized to provide supervised clinical instruction in the patient care setting.

Please refer to the course schedule for details. Before graduation, students must complete all didactic and clinical hours. Please review the following requirements: General Admission Requirements for all programs.

Applicants are deemed qualified on a point system. The highest-ranked above a minimum will be offered seats in the program.

The following point system is used to evaluate each applicant, showing the maximum achievable score. Please review the following requirements: General Performance Requirements for all programs.