Issue link: https://beckershealthcare.uberflip.com/i/1471343
26 ORTHOPEDICS 4 spine technologies that promised more than they delivered By Alan Condon I nnovation moves at a rapid pace in spine surgery, but hype and marketing around new technologies can sometimes get in front of the science, resulting in less than optimal outcomes for patients and significant steps backward for the technology. Here are four spine technologies that surgeons argue promised more than they delivered: 1. Robotics Robotics has been a buzz word in spine surgery for more than a decade, but current robotic systems on the market fall short of what robotic systems in other specialties such as general surgery, gynecology and urology can achieve. "I believe the robot promised more than it delivered in spine surgery," said Alok Sharan, MD, of NJ Spine and Wellness in East Brunswick, N.J. "In other fields of medicine ... there have been tremendous advancements in the use of robotic surgery. Initially, the spine community thought the same successes in those fields would apply to spine surgery. Due to a variety of reasons (capital costs, workflow issues, etc.), we have not seen a tremendous leap in adoption in robotic spine surgery." 2. Laser spine surgery Many physicians believe laser spine surgery did not live up to the hype for treating spinal stenosis or herniated and ruptured spinal discs. A 2019 study published in the Journal of the American Academy of Orthopaedic Surgeons found the risk associated with laser spine surgery outweighed the ben- efits, suggesting that lasers added potential thermal-based complications and could burn a patient's nerves, tissue and cartilage. "While laser technology promises precision in our ability to address spinal problems in the vast majority of the cases, it has failed to do this safely," said Ehsan Jazini, MD, of Reston-based Virginia Spine Institute. "Laser technology poses a risk due to the thermal collateral damage it imposes on the surrounding structures. Although laser tech- nology has been used successfully in many industries, it has failed to live up to its hype for spine surgery and has little utility in our field. With the advancement in motion-pre- serving techniques, robotics and ultrasonic technologies, we can more effectively address structural spine conditions while preserving motion, which laser technology can't suc- cessfully address." 3. PEEK rods Polyetheretherketone rods, touted by many device companies, were introduced in the mid-2000s as an alternative to titanium rods for posterior instrumented lumbar spinal fu- sion and aimed to reduce the risk of adjacent segment disease. However, clinical trials dem- onstrated that it failed to alleviate the adjacent level failure phenomena that many surgeons saw over time. "e five-year run (or so it seemed) saw mitigation of pain issues because of lessened surgical intervention but saw returns for the additional surgeries years later for related symptoms of failure or persistence," said Christian Zimmerman, MD, of Saint Alphon- sus Medical Group and SAHS Neuroscience Institute in Boise, Idaho. "Although the frac- ture rate of the rods was rare, this also became a concern in the older populace. As interest waned, the healthcare industry, applicable economics and the evolution of forward- thinking spinal care remedied this issue with eventual phase-outs by most corporations." 4. Interspinous and interlaminar devices Intervertebral distraction devices, which became popular around three years ago, have largely failed to live up to their hype, according to many surgeons. e devices were considered innovative technologies designed to treat spinal stenosis and were initially seen as less invasive options to spinal fusion or laminectomy. "However, the results of these techniques in practice have not always delivered on the promise of addressing symptoms of neuro- genic pain," said Michael Goldsmith, MD, of the Centers for Advanced Orthopaedics in Bethesda, Md. "Spine surgeons — and the healthcare industry in general — can learn that we must still abide by the basic principles of decompression, and stabilization when necessary, to achieve our patients' goals." "A slew of these devices were put into pa- tients with the promise of relief from spinal stenosis," according to Brian Gantwerker, MD, of the Craniospinal Center of Los Angeles. "I have [had] at least two spinous process fractures from these devices and have taken out at least one. I sincerely hope these devices will be retooled or removed from circulation altogether." n Midwest spine practice expanding to California, Texas By Alan Condon I nspired Spine, with locations in Burnsville, Alexandria and Crookston, Minn., plans to open nationwide facili- ties in California and Texas in the 2023, according to an April 13 news release. Three things to know: 1. Neurosurgeon Hamid Abbasi, MD, PhD, is chief medi- cal officer of Inspired Spine, which also includes spine sur- geons Sunny Kim, MD, and Kessiena Aya, DO, according to its website. 2. The practice currently has affiliate spine surgeons in Massachusetts (Frederik Pennings, MD, PhD), Maryland (Said Osman, MD, PhD) and Texas (Jaime Gasco, MD). 3. Surgeons at Inspired Spine developed the oblique lat- eral lumbar interbody fusion technique, which uses a 15 millimeter incision that results in minimal blood loss and preserves muscles and the adjacent tissue, and the Trident sacroiliac joint fusion system for the treatment of sacroiliac joint disease. n