Radiology Degrees Online

Established in 1997, the Residency Program in Diagnostic Radiology is a four year program that trains clinical specialists, with a combined program of classroom and clinical and diagnostic experience. Between November 2001 and October 2005, the program has trained 22 residents.

Main Subjects: anatomy, physiology, pathology, internal medicine, general and specialized surgery, forensic medicine, physics, radiobiology, radiation protection, contrast media, computer applications, imaging modalities (conventional radiology, digital radiology; ultrasound, computed tomography, magnetic resonance, angiography), breast imaging, cardiac imaging, emergency radiology, gastro-intestinal imaging, genito-urinary imaging, head and neck imaging, molecular imaging, musculoskeletal imaging, neuroradiology, pediatric imaging, thoracic imaging, vascular imaging, interventional radiology (vascular and extra-vascular).

Course overview
FdSc Radiotherapy and Oncology Practice is specifically designed to provide you with the knowledge and training to enable you to fully undertake a range of clinical procedures, under supervision and within agreed limits of responsibility. Graduation in this degree leads to qualification as an Assistant Practitioner in Radiotherapy and Oncology. This course is entirely work based. The theoretical element is delivered in a distance-learning format using computer and paper-based material backed up by email and telephone support.

Although you will be expected to operate as an independent learner, you will enjoy peer support through web-based networks and study days, plus the assistance of radiotherapy staff. The focus of this course is on providing you with high-quality clinical education, requiring that most of your time is spent in a clinical environment. The theoretical element necessarily includes a wide range of disciplines including physics, radiotherapy equipment and radiation safety, anatomy, physiology, and pathology. In addition to the range of necessary technical skills you will also be required to provide supportive care to clients and their families. Your abilities in this area will be developed in modules such as applied sociology and psychology of health and disease.

When you graduate you will be able to:
display an awareness of common
oncological conditions and their
diagnosis, treatment, and monitoring
undertake prescribed radiotherapy
procedures
communicate effectively with clients or
patients, visitors, relatives, and the interprofessional
team.
This is a demanding course of study but one that will enable you, on completion, make a real, positive contribution in the lives of people with serious disease.
Year one core modules:
Principles for Practice (level 1)
Introduction to Radiographic Practice (level 1)
Introduction to Radiographic Science (level 1)
Radiotherapy Practice 1 – Direct/Parallel Opposed Fields (level 1)
Year two core modules
Applied Radiotherapy Science
Radiotherapy Practice 2 – Breast, Thorax and Pelvis (level 2)
Radiotherapy Practice 3 – Kilovoltage, Electrons and Emergency Radiotherapy (level 2)
Radiotherapy Practice 4 – Head, Neck and CNS (level 2)
Extended Associate Practice (level 3)
Associated careers

Assistant Practitioners work under the direct supervision of Radiographers; contributing to the care and treatment of patients suffering from cancer.

Graduates are eligible to progress onto the BSc (Hons) Radiography (Therapeutic) to enable practice as a Radiographer and HPC registration. Career progression is available in management, education, research and other specialist roles.
Assessment

Assessments are designed to encourage integration of theory and practice, including:
Critical review, Clinical Assessment & Appraisal, Evaluative Log Book/Clinical competence, Patient journey, Patient studies, Practice report , Portfolio/CPD plan, Reflective diary, Worksheet.
Professional recognition

Graduates will be awarded the FdSc Radiotherapy and Oncology Practice enabling them to work under supervision within defined local protocols. This qualification is not currently registerable with HPC, but graduates are encouraged to sign the Society of Radiographers voluntary register for Assistant Practitioners.

Graduates will be eligible to progress onto the BSc (Hons) Radiography (Therapeutic) which leads to HPC registratio

Course overview

Radiographers work as specialists within healthcare teams in hospitals. Using their knowledge of healthcare technology and their caring skills, they either aid with the diagnosis of patients’ problems or treat patients with cancer. There are two distinct courses – BSc Radiography (Diagnostic Imaging) and BSc Radiography (Radiotherapy and Oncology). On successful completion of your course, you will be professionally recognised by the College of Radiographers and the Health Professions Council enabling you to practise in the National Health Service.

The courses provide students with all the core subjects required to meet the Health Professions Council Proficiency standards, the College of Radiographers Curriculum framework and the QAA benchmark statements. Subjects such as anatomy, physiology and pathology, radiographic technique, physics, and equipment and service provision are all included in the different modules of the courses.

The professional relevance of the courses is enhanced by the Department’s close links with radiography departments in hospitals, the radiography profession and industry. Founded from the merger of five of London’s top radiography schools in 1991, the Department brings together each school’s academic excellence and wide teaching experience. You will have the opportunity to study radiography in probably the best-equipped department in the country. Your practical work in the Department’s newly refurbished laboratories will enhance your experience in clinical placements in hospital radiography departments.

The Associate in Applied Science Degree is granted to those students who successfully complete the career curriculum in Radiologic
Technology. This program is fully accredited.
This is a profession which is in high demand throughout the U.S. Over 300 million radiologic procedures are performed across the country each year. Approximately 7 out of 10 Americans will
undergo some type of medical imaging procedure this year.
Radiologic technologists perform complex medical procedures to obtain detailed images of the internal structures of the human body. They must possess knowledge of anatomy, physiology, radiographic positioning and exposure factors, radiation safety, patient care and electronics.
Program Specific Courses Include:
 Composition  Oral Communication
 Anatomy & Physiology I & II  Psychology
 Patient Care  Humanities Elective
 X-Ray Systems Operations  Clinical Education I-V
 Radiologic Procedures I-V  Digital Applications in Imaging
 Radiation Biophysics  Image Analysis
 Image Formation & Evaluation  Special Topics in Radiologic
 Radiographic Pathology Technology
 Atypical Rad. Procedures  Physical Science I
Entrance Requirements:
Placement by test into college algebra (MATH 111) or higher or completion of MATH 105 Intermediate Algebra or higher math course with a grade of “C” or better; completion of Anatomy and Physiology I and II and PHYS 141 Physical Science I with a grade of “C” or better; completion of an observation session in the imaging department of a clinical education site.
Job/Employment Information:
Positions you are trained for: Graduates are immediately employed as staff radiologic technologists, primarily in hospitals, imaging cen-ters, clinics and physician’s offices. With some additional training, graduates can seek positions in post-primary imaging areas such as CT, MRI, Mammography, and Cardiac, Vascular, and Interventional Technology. Career opportunities also exist in administration, education, sales and marketing and applications training for tech-nologists with more advanced degrees.
Expected Salary Range: Locally, the average new graduate starting salary is $31,388-$51,705 per year. On-call pay, weekend, and shift differential will increase that figure. For the most current salary information visit www.wic.ilworkinfo.com.

Radiologic Technology Fundamentals

Radiologic technology is a complex and challenging field where highly trained individuals perform radiologic examinations for the diagnosis and treatment of physical diseases and injuries under a physician’s direction.
Program is held in conjunction with Akron Children’s Hospital Radiography School. You should apply directly to the hospital school for admission to this two-year program.
After successfully completing the hospital program, you will receive a Certificate of Education and take the American Registry of Radiologic Technologists exam. Once you pass, you will be awarded a block of credits that can apply only to UA’s Associate Degree in Radiologic Technology.
At UA, core curriculum covers:
medical terminology
anatomy
physiology
radiological technology
radiological principles
human relations
Our Faculty
are innovative and interactive
bring years of real-world experience to the classroom and lab

“Diagnostic Radiography” describes a variety of radiographic or x-ray examinations. Most people are familiar with chest x-rays and also know x-ray is the best way to determine if a bone is broken. The Radiologic Technologist or Radiographer performs these procedures as well as procedures which require the use of contrast agents that make it possible to study organs that otherwise cannot be seen.

Radiologic Technology is a science combining advanced technology and human compassion. Radiographers use their knowledge of anatomy, physiology, positioning, technique, and radiation protection to create medical images. Radiographers also use problem-solving and critical thinking skills to adapt the technical parameters of a procedure to the condition of the patient and to initiate life support procedures as necessary during medical emergencies. This is a profession that requires a dependable personality, the ability to communicate effectively, and a caring and mature nature. Through a blend of classroom and clinical training, students learn radiographic equipment, patient positioning techniques, radiation safety, and patient care.

The purpose of the Hutchinson Community College Radiologic Technology program is to provide the entry level skills and knowledge necessary to function as a qualified radiographer. The program seeks to graduate qualified radiographers to help meet the needs of employers in the central and western geographical area of Kansas.

Radiographers work as specialists within healthcare teams in hospitals. Using their knowledge of healthcare technology and their caring skills, they either aid with the diagnosis of patients’ problems or treat patients with cancer. There are two distinct courses – BSc Radiography (Diagnostic Imaging) and BSc Radiography (Radiotherapy and Oncology). On successful completion of your course, you will be professionally recognised by the College of Radiographers and the Health Professions Council enabling you to practise in the National Health Service.

The courses provide students with all the core subjects required to meet the Health Professions Council Proficiency standards, the College of Radiographers Curriculum framework and the QAA benchmark statements. Subjects such as anatomy, physiology and pathology, radiographic technique, physics, and equipment and service provision are all included in the different modules of the courses.

The professional relevance of the courses is enhanced by the Department’s close links with radiography departments in hospitals, the radiography profession and industry. Founded from the merger of five of London’s top radiography schools in 1991, the Department brings together each school’s academic excellence and wide teaching experience. You will have the opportunity to study radiography in probably the best-equipped department in the country. Your practical work in the Department’s newly refurbished laboratories will enhance your experience in clinical placements in hospital radiography departments.