Siemens Healthineers offers a variety of clinical training and continuing education offerings on PEPconnect. You can view available courses or register for any e-learning offerings below.
Please call 1-888-221-8010, option 1, 4 or email email@example.com for additional information or assistance with registration.
A web-based training is a self-paced online learning which is approximately 30 to 60 minutes in duration. It is a convenient way to receive continuing education credits, available 24 hours a day, 7 days a week, when, where, and how you need it.
Web-based Training Registration:
To become a registered user and gain access to any of our web-based training offerings, please click here.
Virtual Instructor-led Training
A virtual instructor-led training is a Category A accredited online class which is 60-90 minutes in duration. In an interactive virtual classroom environment you will receive high-quality training delivered by an experienced Siemens Clinical Education Specialist.
Virtual Instructor-led Training Registration:
To register for your pre-purchased virtual instructor-led training please click here to access PEPconnect.
3D Basic Concepts
This e.learning will discuss the definition of 3D and help the technologist understand what parameters are required for an optimal data set, learn the strengths and weaknesses of various rendering modes, and also learn basic post-processing tools.
3D Techniques for CT
This e.learning is designed to provide imaging professionals with an overview of 3D imaging techniques for computed tomography. The content addresses concepts of 3D image generation, post-processing techniques, and treatment applications.
An Overview of Radiation Therapy
This e.learning course will offer an overview for radiological technologists, multimodality technologists, or anyone with an interest in radiation therapy basics.
CT for the Hybrid Imaging Technologist
This e.learning will provide an understanding of the basics of CT imaging and how it is used in hybrid imaging. The basic differences and advantages of sequence versus spiral CT imaging, single slice versus multislice CT, and reconstruction parameters and how to use them to improve image quality will also be discussed.
Intro to CT
This e.learning is designed for the technologist who needs to learn the history, basic principles of CT, basic physics, and a brief overview of image reconstruction parameters for image optimization.
Limiting Radiation Exposure
This e.learning will address the fundamentals of radiation protection and safety and how they relate to the occupational worker. It will also discuss how radiation protection affects image quality.
MR Imaging in Oncology
This e.learning is designed so that the user will understand the emerging role that MR has for oncology in guiding the direction of treatment decisions and delivery. The various types of diagnostic imaging sequences as well as functional, biological, and available advanced imaging techniques will be discussed. Students will also understand MR’s role in therapeutic imaging and the various diagnostic equipment and post processing software that can be utilized.
Staying Ahead of the Game with Clinical Education
Innovative and advancing technologies are crucial to mastering the challenges of the future. With the increase in demand for healthcare, there is a tremendous need for new technologies to drive a more preventive approach to disease management, earlier diagnosis and intervention, and integrated information technology.
Women's Trends in Colorectal Cancer - A Female Perspective
This e.learning will offer a basic disease overview including statistical information about colorectal cancer. Various treatment options, care issues, and research initiatives will also be discussed.
Virtual Instructor-led Training
The virtual instructor-led e.class is designed for new users of the syngo TrueD application. This course will assist the user in understanding how the syngo TrueD application can be used to improve workflow. The course will cover getting started using the syngo TrueD configuration. We will then proceed to loading images, image registration, viewing images, manipulation of the rotating MIP, drawing contours and then creating a report.