The custom-designed titanium implant, made to a patient’s unique spinal anatomy, represents a breakthrough in personalized anterior cervical spine surgery.

Photo credit: Justin Covington, UC San Diego Health

News • New technological approach

Surgical premiere for 3D printed custom spine implant

UC San Diego Health is the first health system in the world to perform an anterior cervical spine surgery using a fully personalized implant designed for a patient’s unique anatomy.

UC San Diego Health is the first health system in the world to perform an anterior cervical spine surgery using a fully personalized implant designed for a patient’s unique anatomy. The first surgery, performed in July 2025, was an anterior cervical procedure, which involves making an incision in the front (anterior) of the neck, removing a damaged disc, and fusing the adjacent vertebrae together.

The procedure includes a standard artificial disc, placed in the space where a damaged disc has been removed. Traditional implants are one-size-fits-all, which can affect alignment, healing, and movement. This new technological approach and implant combines advanced imaging, artificial intelligence (AI), and 3D printing to create a customized implant.

A surgeon in blue protective wear is holding a metallic object in a hospital's operating room

"Every spine is unique, just like a fingerprint," said Joseph Osorio, MD, PhD, associate professor of neurological surgery at University of California San Diego School of Medicine and neurosurgeon at UC San Diego Health. "With this technology, we can create an implant specifically for each patient, instead of asking their body to adapt to a standard device. It’s a fundamental shift in how we approach complex spine surgery."

The neurosurgical team that performed the procedure at UC San Diego Health, led by Osorio, captured detailed scans of the patient’s neck to measure the spine precisely. AI-assisted planning then determined the implant design, which was 3D printed in medical-grade titanium for use in the procedure.

This level of customization could be life-changing for patients with conditions such as spinal stenosis, degenerative disc disease, or spinal deformities because it allows for more precise spinal alignment, reduced surgical complications, and faster recovery times. By preserving healthy anatomy and improving structural support, patients may regain mobility sooner, experience less pain, and have a lower likelihood of needing additional corrective surgeries, significantly improving quality of life and long-term function. "This is the first step in a larger transformation," said Osorio. "We envision a future where every implant, whether for the spine, hip, or knee, is made for one person, not mass-produced for everyone."

Article • Technology applications

Medical 3D printing: from niche to mainstream

From personalized medical guides and implants to advanced surgical planning solutions: 3D printing and visualization has seen considerable growth over the past years and is already making a significant impact in healthcare. AI, cloud, and virtual/augmented reality technologies show promise to further advance the number of applications.

Anterior cervical fusion has been performed since the 1950s and remains one of the most common spine procedures, making this achievement a historic first. "This milestone brings the promise of personalized medicine to spine surgery," said Alexander Khalessi, MD, MBA, chair of the Department of Neurosurgery at UC San Diego School of Medicine and neurosurgeon at UC San Diego Health. "This first case exemplifies how device innovation and meticulous surgical technique can restore function for our patients. We are expanding what’s possible in the treatment of complex spinal conditions at UC San Diego Health."

Source: UC San Diego School of Medicine

31.08.2025