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Neo Medical Debuts New Minimally Invasive Spine Surgery Platform

The Neo Instant MIS Access platform requires no capital investment and can be prepared in less than two minutes.

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By: Michael Barbella

Managing Editor

The Neo Instant MIS Access solution. Photo: Neo Medical SA.

Neo Medical SA has launched in the United States the Neo Instant MIS Access platform, a sterile, ready-to-use solution for posterior thoracic, lumbar, and sacral minimally invasive surgical (MIS) procedures.

The U.S. premiere marks a significant expansion of Neo Medical’s spine platform, addressing one of the persistent barriers to broader MIS adoption: the operational infrastructure required to deliver minimally invasive surgical procedures consistently. It represents a further step toward Neo’s vision of a fully integrated, sterile, ready-to-use procedural ecosystem spanning access, instrumentation, advanced materials, force control technologies, and intraoperative data, executives claim.

MIS techniques are associated with reduced tissue disruption, shorter recovery pathways in selected patients, and potential operating room efficiencies.1,2 Despite decades of clinical advancement in minimally invasive spine surgery, operational infrastructure is a significant constraint to its wider adoption.

Traditional MIS access often depends on capital equipment, reusable instrument inventories, reprocessing cycles, table-mounted systems, vendor logistics, and workflow coordination that can limit scalability across hospitals and ambulatory surgery centers (ASCs). Neo’s new Instant MIS Access platform was designed specifically to remove those barriers.

“The future of minimally invasive spine surgery is no longer defined by surgical technique alone,” Neo Medical Co-Founder/CEO Vincent Lefauconnier said. “It is defined by how efficiently healthcare systems can deliver those procedures at scale. We believe the next frontier in MIS adoption is operational simplicity, and Instant MIS Access was designed specifically to address that challenge.”

Internal value models indicate the Neo Instant MIS Access platform requires no capital investment, can be prepared in less than two minutes, and may reduce per-case operational burden by up to $2,500 compared with conventional MIS access infrastructure. In turnover-constrained facilities, the system may also support increases in operating room throughput and procedural capacity.

“The Neo system integrates seamlessly into our workflow for both the surgical team and me,” stated Dr. Robert Eastlack, head of the Division of Spine Surgery at Scripps Clinic. “It provides stable access and clear visualization through a small incision without adding complexity in the operating room or during turnover. The setup is straightforward, the workflow is intuitive, and it addresses many of the practical barriers that have traditionally limited broader adoption of MIS.”

The launch extends Neo Medical’s strategy of reducing procedural complexity in spine surgery through sterile-ready technologies, modular instrumentation, advanced materials, proprietary Force Control Technology, and intraoperative augmented reality capabilities.

“We are grateful to the surgeon partners who helped bring this system to market, including Dr. Juan Valdivia Dr. Ali Mesiwala, Dr. Robert Eastlack, and Dr. Tyler Carson”, Lefauconnier commented. “Their clinical insight and collaboration were essential to developing a system designed around the realities of spine care, not only what happens in surgery, but what it takes for teams and institutions to deliver MIS efficiently, consistently, and at scale.”

The system is commercially available in the United States, with launches in Europe and other international markets expected to follow, subject to applicable regulatory processes.

Neo Medical SA is a Swiss technology company specializing in spine surgery. The company develops integrated procedural solutions designed to reduce complexity, support reproducibility, and advance value-based care in spine surgery. Neo Medical’s platform combines sterile-ready technologies, modular instrumentation, advanced materials, force control principles, and intraoperative data capabilities to support surgeons, hospitals, and patients across surgical spine care.

References
1 Zhou J, et al. Incidence of surgical site infection after spine surgery: a systematic review and meta-analysis. Spine (Phila Pa 1976). 2020;45(3):208-216.
2 Pokorny G, et al. Minimally invasive versus open surgery for degenerative lumbar pathologies: a systematic review and meta-analysis. Eur Spine J. 2022 Oct;31(10):2502-2526.

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