Instructor: Dirk De Ridder, MD, PhD
Explanation of how pain is generated in the brain, based on the known brain anatomy, physiology and functional imaging. Based on the pathophysiological insights neuromodulation treatments can be explored that target the abnormal activity and connectivity in the brain associated with pain.
Who is the Audience: health care providers
Level: intermediate, advanced
Specific Learning objectives:
- Participants will understand how pain is generated by the brain.
- Participants will understand commonalities of thalamocortical dysrhythmias.
- Participants will understand the invasive and non-invasive neuromodulation techniques for pain.
Fees: Webinar fee is $45.00 for all ISNR members. The fee for non-members is $60.00. Space is limited, so register early!
Credits: CE credit is a separate fee of $10.00 for 1 CE credit hour.
- BCIA will issue 1 credit towards BCIA re-certification for full attendance at this webinar.
- 1 hour of APA approved credit will be offered.*
*This program, when attended in its entirety, is available for 1 continuing education credit. R. Cassidy Seminars is approved by the American Psychological Association (APA) to offer continuing education for psychologists. R. Cassidy Seminars maintains responsibility for this program. 1 CE hours.
This activity qualifies for 60 minutes of instructional content as required by many national, state and local licensing boards and professional organizations. Save your course outline and certificate of completion, and contact your own board or organization for specific requirements.
Satisfactory Completion: Participants must have paid tuition fee, signed in, attended the entire seminar, completed an evaluation, and signed out in order to receive a certificate. Failure to sign in or out will result in forfeiture of credit for the entire course. No exceptions will be made. Partial credit is not available. Certificates available after satisfactory course completion at www.ceuregistration.com.
Refund policy: If you sign up and pay for a webinar but are unable to attend the live presentation, you will be provided with access to the recorded webinar, Refunds will not be issued.
ISNR is committed to accessibility and non-discrimination in its continuing education activities. ISNR is also committed to conducting all activities in conformity with the American Psychological Association's Ethical Principles for Psychologists. Participants are asked to be aware of the need for privacy and confidentiality throughout the program. If program content becomes stressful, participants are encouraged to bring their concerns up during the question and discussion period, typically held at the end of the presentation. A moderator will be available during the presentation. If participants have special needs, we will attempt to accommodate them. Please address questions, concerns and any complaints to Susan Alvarez, ISNR Executive Administrator.
ISNR 13876 SW 56th Street Miami, FL 33175
Because these presentations will be done online, it will be the responsibility of the participant to provide adequate and appropriate computer availability as well as Internet connections that will support this webinar. All efforts and reasonable accommodations will be made to make the information accessible to persons with disabilities.
While this presentation offers no risk in and of itself, it is the responsibility of the individual attendee to determine any risks involved in the implementation of the contents of this presentation.
Dirk De Ridder, MD, PhD, is a Belgian neurosurgeon. He is currently the Neurological Foundation Professor of Neurosurgery at the University of Otago in Dunedin, New Zealand. De Ridder spends half his time in New Zealand and half in Belgium, involved in setting up a dedicated neuromodulation clinic.
De Ridder has published over 250 scientific articles, more than 30 scientific book chapters and several articles for a wider audience. His main research topic is the understanding and treatment of phantom perceptions such as pain and tinnitus, as well as addiction, using non-invasive neuromodulation (TMS, tDCS, tACS, tRNS, tPNS, neurofeedback) and especially invasive neuromodulation techniques such as brain implants. The focus of his research is to understand the common mechanisms of different diseases such as pain, tinnitus, Parkinson’s Disease, depression and slow wave epilepsy, a group of diseases known as ‘thalamocortical dysrhythmias’. His research also focuses on addiction, obsessive compulsive disorder, impulsive and personality disorders, an entity called ‘reward deficiency syndromes.’
Financial disclosure: none