NIH HEAL Initiative Workshop on Myofascial Pain

NIH HEAL Initiative Workshop on Myofascial Pain

September 16, 2020
September 17, 2020

Contact: 

Alex Tuttle

Contact Email: 

alex.tuttle@nih.gov

Location: 

The NIH HEAL Initiative Workshop on Myofascial Pain will be available on two platforms, Zoom Webinar and NIH VideoCast.

The Zoom Webinar platform will allow attendees to submit questions to panelists during interactive sessions. The NIH VideoCast platform will allow attendees to watch a live meeting broadcast with closed-caption capabilities and will also provide attendees with an opportunity to ask questions through a live event feedback form.

Day 1:  September 16, 2020 - 8:45 a.m. - 5:00 p.m. EST
Day 2:  September 17, 2020 - 8:45 a.m. - 3:30 p.m. EST

Event Description: 

Myofascial pain syndrome (MPS)—pain originating from muscles and/or associated soft tissues such as fascia—is estimated to affect 30 to 85 percent of patients with musculoskeletal pain. Compared to the skeletal (bones, joints, intervertebral discs) and central nervous system (CNS) contributions to musculoskeletal pain, the myofascial components, especially the fascia component, as well as the interactions between fascia and muscles, remain mostly unknown. Importantly, many chronic musculoskeletal pain patients don’t respond to surgery (targeting the skeletal component) or develop significant side effects to opioids (targeting the CNS) or both. Therefore, there is a strong need to address the contributions of the myofascial tissues to chronic pain as they are among the last “unturned stones” of all the tissue types involved in musculoskeletal pain.

The NIH HEAL Initiative is sponsoring this workshop to pursue research and technology opportunities addressing MPS. This workshop will bring together clinical research experts in diagnosis and treatment of musculoskeletal painful conditions, imaging and biomechanics experts, and computational modelers to advance cutting-edge research related to the development or improvement of imaging technologies that would allow diagnosis and dynamic quantification of the pathophysiology as well as identification of biomarkers manifested in MPS. It will also present in-depth analyses of the state of science of myofascial pain, current usage of technologies (e.g., methodologies) and their limitations and challenges, potential current technologies to be adapted for myofascial pain biomarker imaging/recording, and potential emerging technologies and methodologies to be developed.