SIR 2022: Injectable Gel Shows Promise to Significantly Reduce Lower Back Pain
Researchers are conducting the first human tests of an experimental formulation of a hydrogel, injected into spinal discs, to substantially deliver safe and effective relief of chronic low back pain caused by degenerative disc disease (DDD). New research will be presented at the Society of Interventional Radiology Annual Scientific Meeting on this imaging-guided procedure that could potentially offer a new treatment for one of the world’s most common medical conditions.
After six months, all participants in this small study reported significantly less low back pain—declining from an average self-reported pain level of 7.1 down to 2.0 on a scale of zero to 10. They also experienced greatly improved physical function, with average scores falling from 48 to six on a questionnaire to gauge the impact of low back pain in preventing patients from the ability to perform normal activities.
“If these findings are confirmed in further research, this procedure may be a very promising treatment for chronic low back pain in those who’ve found insufficient relief from conservative care,” said lead author Douglas P Beall, MD, FSIR, chief of radiology services at Clinical Radiology of Oklahoma. “The gel is easy to administer, requires no open surgery, and is an easy procedure for the patient.”
The gel used in this study, Hydrafil, is a second-generation hydrogel developed by ReGelTec, Inc. In 2020, it received FDA’s breakthrough device designation, which allows expedited review when early evidence suggests an experimental product may provide more effective treatment than current options for treating a serious condition. Dr. Beall is a medical advisor to the company.
The research team enrolled 20 patients, aged 22 to 69, with chronic DDD low back pain. Each described their pain as four or higher on the 10-point scale. None had found more than mild relief from conservative care, which includes rest, analgesics, physical therapy, and back braces.
Patients were sedated for the procedure, and the gel was heated to become a thick liquid. Guided by fluoroscopic imaging, researchers used a 17-gauge needle to inject the gel directly into the affected discs, where the gel filled in cracks and tears, adhering to the disc’s center and outer layer.
“We really have no good treatments for degenerative disc disease, aside from conservative care,” said Dr Beall. “Surgery is statistically no more effective than conservative care and can potentially make things worse; nerve ablation is appropriate for only a few patients; and existing hydrogels are inserted through an incision as a soft solid, which can pop out of place if you’re not highly skilled in placing it.”
“Because this gel is injectable, it requires no incision, and it augments the whole disc, restoring its structural integrity, which nothing we have currently can do,” he said.