Program Calendar and Course Descriptions

View the program course of study, descriptions of specific classes and our current program calendar with important schedule information.

Program Calendar

Observed Holidays:

• Labor Day
• Thanksgiving Day
• Christmas Eve
• Christmas Day
• Christmas Day after
• New Year's Day
• Easter Sunday
• Memorial Day
• Independence Day

Course of Study

Students are required to successfully complete all first and second year program coursework. The student must maintain a minimum grade of 80% in each didactic course of the program or they will be subject to disciplinary action. Each final didactic course grade must not be lower than an 80%.The student must maintain a minimum grade of 85% in each clinical course of the program or they will be subject to disciplinary action. Each final clinical grade must not be lower than an 85%.

Course Descriptions

Basic Radiation Protection

Units of radiation measurement are defined. The types of radiation injuries and methods of protection are discussed. The various types of radiation monitoring equipment are presented.

Clinical Education

Each semester the clinical application of patient care, radiographic procedures, radiographic principles and radiation protection is attained through specific clinical assignments and completion of specific clinical objectives. Clinical assignments include routine radiography, mobile radiography, surgical procedures, CT, mammography, ultrasound, MRI, nuclear medicine and radiation therapy.

Digital Radiography & PACS

The basic concepts, historical development and types of computers are discussed. Computer terminology and radiology applications are presented. Picture archiving and communications systems, computed radiography and digital radiography are also discussed. Basic quality assurance and quality control practices for digital radiography are discussed.

Human Anatomy and Physiology

Anatomical parts and physiological functions of the various systems of the body are discussed. Emphasis is placed on the framework support, metabolism, nourishment, reproduction and control of the body.

Image Critique I

Instruction will include the presentation of images with an analysis of the technical factors, anatomy demonstrated, positioning factors and central ray alignment. The student will learn to distinguish between diagnostic and poor-quality images. A minimum of 35 exams are required to be presented.

Image Critique II

Instruction will include the presentation of images with an analysis of the technical factors, anatomy demonstrated, positioning factors and central ray alignment. The student will learn to distinguish between diagnostic and poor-quality images. Students will present images that were required to be repeated, along with corrective measures taken. Students are required to present remaining examinations.

Introduction to Computerized Tomography

Students are provided with the basics of computerized tomography, how it is utilized and how it compares with conventional radiography. Various examinations and scanning techniques are demonstrated.

Introduction to Mammography

The student is introduced to the basic principles of mammography equipment and procedures. Various patient conditions and pathologies are discussed.

Introduction to Ultrasound

The basic principles and imaging modalities of ultrasound are presented. Patient preparation, scanning technique and simple pathologies for various ultrasound examinations are discussed.

Non-Routine Radiographic Procedures

The student studies the positions and procedures for radiographic examinations not performed on a regular basis. Emphasis is placed on part position and anatomical demonstration with simulation and laboratory practice.

Nursing Procedures

Provides the student with concepts of patient care. Routine and emergency care procedures are described. Topics include vital signs, body mechanics, isolation, IV and oxygen administration, sterile techniques, venipuncture and NG therapies.

Orientation to Radiologic Technology

A brief history and overview of radiography and its role in the field of health care is discussed. Academic, clinical, hospital, departmental and program administrative policies are presented.

Professional Ethics

The study of medical and legal ethics and their applications to the technologist are presented. Emphasis is placed on professional practices and communication

Radiation Biology and Protection

The production of X-rays and their interactions with matter are presented and methods of radiation measurement are discussed. The signs, symptoms, effects and results of exposure to acute and chronic radiation are identified. The biological effects of radiation on cells and radiosensitivity of various tissues are discussed.

Radiographic Anatomy and Pathology

Radiographic anatomy and common pathologies of the different body systems are discussed. Associated radiographic findings for disease processes are presented.

Radiographic Exposure

With the use of instruction, laboratory materials, observation and practice, the student will learn and apply the effects of radiation. Primary and secondary exposure factors are presented and analyzed as to their effect on image quality.

Radiographic Physics I

The fundamentals of physics are discussed including mathematics, units of measurement, physical concepts of energy, atomic structure, photons, interactions and x-ray tubes.

Radiographic Physics II

Concepts of electrical and radiation physics will be discussed including electrostatics, electrodynamics, magnetism, electromagnetism, generators, motors, transformers, autotransformers and circuits.

Routine Radiographic Procedures

Detailed information on the various positions and procedures routinely performed in the radiology department are discussed. The fundamental principles of position will be followed by a demonstration and simulation in laboratory exercises.

Senior Seminar and Review

The student is required to prepare a scientific paper or exhibit on a pertinent topic in radiology. A review of the five main areas of the ARRT registry examination for radiography is presented.