Rad Tech CE, ASRT, ARRT® CE, Category A Credits | Radiology Continuing Education

Approvals/Requirements Satisfied by eRADIMAGING Courses

  • ASRT approval for ARRT Category A credit
  • All Courses eligible of international radiographers' CPD requirements
  • ASRT and MDCB are approved continuing education providers of ARRT and all courses are accepted by ARRT
  • California CE requirements met for all radiography courses
  • NMTCB accepted (All Courses)
  • All Courses available for RRAs
  • ARMRIT accepted (All MRI Courses)
  • MDCB approval by the Medical Dosimetrist Certification (Selected Courses)
  • Florida approval for all courses 1 credit or more
  • ARDMS accepted (All Courses)
  • CAMRT and Sonography Canada recognize the ASRT approval (All Courses)
  • Approval: This course is approved by ASRT - an approved continuing education provider of ARRT.
  • Release Date: 3/15/2019
  • Expiration Date: 4/1/2022
  • Credit Hours: 1 Credit
  • Course Description and objectives:

    Course Description
    3D printing uses high-resolution, high-quality volumetric computed tomography (CT) or magnetic resonance (MR) images to create highly-accurate, 3D fabricated objects. 3D printing is increasingly used for medical/clinical applications to create personalized anatomic models and implants, and to assist in planning and guiding surgery. Specific clinical applications include printed models for organs and vessels, fabrication of implants, prostheses, stents, and surgical tools, and even manufacturing of drugs themselves. 3D printed anatomic models are also being used in place of cadavers to enhance premedical and medical education and training. Several types of 3D printers are available that are classified on the basis of the technology used (ie, liquid- or powder-solidification technology, or extrusion-based systems). The different types of 3D printer systems also vary in terms of accuracy and costs, making selection of a system an important consideration for a particular application. 3D bioprinting is a type of 3D printing that uses a combination of cells, growth factors, and/or biomaterials to fabricate biomedical tissues and organs that imitate natural tissue characteristics. Recently, US regulatory bodies and radiologic professional societies are considering the role 3D printing will play in clinical medicine, to ensure these products are maximally safe and effective.

    Learning Objectives
    After reading this article, the participant should be able to:

    • Describe the history of 3D printing in the field of medicine.
    • Understand the current and potential clinical applications of 3D printing, including bioprinting.
    • Explain the various types of 3D printers currently available.
    • Describe the role of the FDA and the Radiological Society of North America (RSNA) in ensuring that 3D-printed products are safe and effective.

    Categories: Technology, Magnetic Resonance Imaging (MRI), Computed Tomography (CT)

  • CE Information:

    CE Information
    In order to receive CE credit, you must first complete the activity content. When completed, go to the “Take CE Test!” link to access the post-test.

    Submit the completed answers to determine if you have passed the post-test assessment. You must answer 6 out of 8 questions correctly to receive the CE credit. You will have no more than 3 attempts to successfully complete the post-test.

    Participants successfully completing the activity content and passing the post-test will receive 1.0 ARRT Category A credits or 1.0 AMA PRA Category 1 Credit(s)™.

    Approved by the American Society of Radiologic Technologists for ARRT Category A credit.

    Approved by the state of Florida for ARRT Category A credit.

    Texas direct credit.

    This activity may be available in multiple formats or from different sponsors. ARRT does not allow CE activities such as Internet courses, home study programs, or directed readings to be repeated for CE credit in the same biennium.

    TARGET AUDIENCE
    This activity is designed to meet the needs of Radiologic Technologists and Physicians, specifically Radiologists.

    This activity is provided by AKH Inc., Advancing Knowledge in Healthcare, for physician credit.

    Release Date: 3/15/2019

    Expiration Date: 3/15/2021

    Physicians
    This activity has been planned and implemented in accordance with the Essential Areas and policies of the Accreditation Council for Continuing Medical Education (ACCME) through the joint providership of AKH Inc., Advancing Knowledge in Healthcare, and eRADIMAGING. AKH Inc., Advancing Knowledge in Healthcare, is accredited by the Accreditation Council for Continuing Medical Education to provide continuing medical education for Physicians.

    AKH Inc., Advancing Knowledge in Healthcare, designates this enduring activity for a maximum of 1.0 AMA PRA Category 1 Credit(s)™. Physicians should claim only the credit commensurate with the extent of their participation in the activity.

    Physician Assistants
    NCCPA accepts AMA PRA Category 1 Credit™ from organizations accredited by ACCME.

    If you have any questions relating to the CME accreditation of this activity, please contact AKH Inc. at jgoldman@akhcme.com.

    COMMERCIAL SUPPORT:
    This activity is NOT supported by a commercial educational grant.

    DISCLOSURE DECLARATION
    It is the policy of AKH Inc. to ensure independence, balance, objectivity, scientific rigor, and integrity in all of its continuing education activities. The faculty must disclose to the participants any significant relationships with commercial interests whose products or devices may be mentioned in the activity or with the commercial supporter of this continuing education activity. Identified conflict of interest is resolved by AKH prior to accreditation of the activity.

    DISCLOSURE OF UNLABELED USE AND INVESTIGATIONAL PRODUCTS
    This educational activity does not include discussion of uses of agents that are investigational and/or unapproved by the FDA. Please refer to the official prescribing information for each product for discussion of approved indications, contraindications, and warnings.

    DISCLAIMER
    AKH Inc.’s courses are designed solely to provide healthcare professionals with information to assist in their practice and professional development. The courses are researched thoroughly, utilizing current literature and including practical experiences. AKH’s courses are not to be considered a diagnostic tool to replace professional advice or treatment. The courses serve as a general guide to the healthcare professional, and therefore, they cannot be considered as giving legal, nursing, medical, or other professional advice in specific cases. AKH educational courses do not endorse commercial products. The author(s) and the publisher specifically disclaim responsibility for any adverse consequences resulting directly or indirectly from information in the courses. AKH further disclaims any responsibility for undetected errors, or from the reader’s misunderstanding of the course.


3D Printing in Medicine: An Overview

Cindy Schultz, PhD*

*Monarch Medical Writing, LLC, Yorktown Heights, NY

Address correspondence to: Cindy Schultz, PhD. Email: cindyschultz@monarchmedicalwriting.com

Disclosure statement: The author reports having no significant financial or advisory relationships with corporate organizations related to this activity.

AKH Inc. planners and reviewers have no relevant financial relationships to disclose.

 

ABSTRACT

3D printing uses high-resolution, high-quality volumetric computed tomography (CT) or magnetic resonance (MR) images to create highly-accurate, 3D fabricated objects. 3D printing is increasingly used for medical/clinical applications to create personalized anatomic models and implants, and to assist in planning and guiding surgery. Specific clinical applications include printed models for organs and vessels, fabrication of implants, prostheses, stents, and surgical tools, and even manufacturing of drugs themselves. 3D printed anatomic models are also being used in place of cadavers to enhance premedical and medical education and training. Several types of 3D printers are available that are classified on the basis of the technology used (ie, liquid- or powder-solidification technology, or extrusion-based systems). The different types of 3D printer systems also vary in terms of accuracy and costs, making selection of a system an important consideration for a particular application. 3D bioprinting is a type of 3D printing that uses a combination of cells, growth factors, and/or biomaterials to fabricate biomedical tissues and organs that imitate natural tissue characteristics. Recently, US regulatory bodies and radiologic professional societies are considering the role 3D printing will play in clinical medicine, to ensure these products are maximally safe and effective.

View the full content

Sample eRADIMAGING Course *

* This sample course is for reference purposes only. It is not currently available for earning CE credits. To earn ARRT CE credits please subscribe to eRADIMAGING where you will see a complete listing of all active and eligible CE courses.

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