Intellectual Property

Powering Surgical Applications of the Future

OnPoint’s Intellectual Property includes a broad range of granted patents and patent applications for Augmented Reality guidance of spinal, neurosurgical, and other surgical procedures.

US Patent 12,290,414

Augmented Reality Guidance For vascular Procedures

US Patent 12,161,428

System For Computation Of Object coordinates Accounting For Movement Of A Surgical Site For Spinal And Other Procedures Including Interpolation Of Vertebral Position And Orientation

US Patent 12,127,795

Augmented Reality Display For Spinal Rod Shaping And Placement

US Patent 12,063,338

Augmented Reality Guidance for Spinal Surgery with Stereoscopic Displays and Magnified Views

US Patent 12,010,285

Augmented Reality Guidance for Spinal Surgery with Stereoscopic Displays

US Patent 11,750,788

Augmented Reality Guidance for Spinal Surgery with Stereoscopic Display of Images and Tracked Instruments

US Patent 11,483,532

Augmented Reality Guidance System for Spinal Surgery Using Inertial Measurement Units

US Patent 11,350,072

Augmented Reality Guidance for Bone Removal and Osteotomies in Spinal Surgery Including Deformity Correction

US Patent 11,272,151

Augmented Reality Guidance for Spinal Surgery with Display of Structures at Risk for Lesion or Damage by Penetrating Instruments or Devices

US Patent 11,153,549

Augmented Reality Guidance for Spinal Surgery

US Patent 11,050,990

Augmented Reality Guidance for Spinal Procedures Using Stereoscopic Optical See-Through Head Mounted Displays with Cameras and 3D Scanners

US Patent 10,951,872

Augmented Reality Guidance for Spinal Procedures Using Stereoscopic Optical See-Through Head Mounted Displays with Real Time Visualization of Tracked Instruments

US Patent 10,841,556

Augmented Reality Guidance for Spinal Procedures Using Stereoscopic Optical See-Through Head Mounted Displays with Display of Virtual Surgical Guides

US Patent 10,742,949

Augmented Reality Guidance for Spinal Procedures Using Stereoscopic Optical See-Through Head Mounted Displays and Tracking of Instruments and Devices

US Patent 10,602,114

Augmented Reality Guidance for Spinal Surgery and Spinal Procedures Using Stereoscopic Optical See-Through Head Mounted Displays and Inertial Measurement Units

US Patent 10,594,998

Augmented Reality Guidance for Spinal Procedures Using Stereoscopic Optical See-Through Head Mounted Displays and Surface Representations

US Patent 10,511,822

Augmented Reality Visualization and Guidance for Spinal Procedures

US Patent 10,326,975

Augmented Reality Guidance for Spinal Surgery and Spinal Procedures

US Patent 10,194,131

AR Guidance for Spinal Surgery and Spinal Procedures

US Patent 10,154,239

Image-Guided Surgery with Surface Reconstruction and Augmented Reality Visualization

US Patent 11,957,420

Augmented Reality Display for Spinal Rod Placement Related Applications

US Patent 11,751,944

Optical Guidance for Surgical, Medical, and Dental Procedures

US Patent 11,727,581

Augmented Reality Guidance for Dental Procedures

US Patent 11,602,395

Augmented Reality Display Systems for Fitting, Sizing, Trialing and Balancing of Virtual Implant Components on the Physical Joint of the Patient

US Patent 11,553,969

System for Computation of Object Coordinates Accounting for Movement of a Surgical Site for Spinal and Other Procedures

US Patent 11,452,568

Augmented Reality Display for Fitting, Sizing, Trialing and Balancing of Virtual Implants on the Physical Joint of a Patient for Manual and Robot Assisted Joint Replacement

US Patent 11,348,257

Augmented Reality Guidance for Orthopedic and Other Surgical Procedures

US Patent 11,348,257

Augmented Reality Guidance for Orthopedic and Other Surgical Procedures

US Patent 11,311,341

Systems for Augmented Reality Guided Fitting, Sizing, Trialing and Balancing of Virtual Implants on the Physical Joint of a Patient for Manual and Robot Assisted Joint Replacement

US Patent 11,172,990

Systems for Augmented Reality Guidance for Aligning Physical Tools and Instruments for Arthroplasty Component Placement, Including Robotics

US Patent 11,013,560

Systems for Augmented Reality Guidance for Pinning, Drilling, Reaming, Milling, Bone Cuts or Bone Resections Including Robotics

US Patent 10,849,693

Systems for Augmented Reality Guidance for Bone Resections Including Robotics

US Patent 10,799,296

Augmented Reality System Configured for Coordinate Correction or Re-Registration Responsive to Spinal Movement for Spinal Procedures, Including Intraoperative Imaging, CT Scan or Robotics

US Patent 10,743,939

Systems for Augmented Reality Visualization for Bone Cuts and Bone Resections Including Robotics

US Patent 10,603,113

Augmented Reality Display Systems for Fitting, Sizing, Trialing and Balancing of Virtual Implant Components on the Physical Joint of the Patient

US Patent 10,405,927

Augmented Reality Visualization for Guiding Physical Surgical Tools and Instruments Including Robotics

US Patent 10,368,947

AR Guidance Systems for Superimposing Virtual Implant Components onto the Physical Joint of a Patient

US Patent 10,292,768

Augmented Reality Guidance for Articular Procedures

US Patent 10,278,777

Augmented Reality Visualization for Guiding Bone Cuts Including Robotics

US Patent 10,159,530

Guidance for Surgical Interventions

US Patent 9,980,780

Guidance for Surgical Procedures

US Patent 9,861,446

Devices and Methods for Surgery

US Patent 12,053,247

System for Multi-Directional Tracking of Head Mounted Displays for Real-Time Augmented Reality Guidance of Surgical Procedures

US Patent 12,019,314

Head Mounted Display Assembly with Control of Head Mounted Display and Loupe Position and Orientation

US Patent 11,786,206

Augmented Reality Guidance for Imaging Systems

FAQs

About the Company & Team

What is OnPoint Surgical and what does the company do?

OnPoint Surgical is a medical technology company focused on transforming surgical procedures through advanced augmented reality (AR) and artificial intelligence (AI)-powered navigation systems. The company develops innovative surgical guidance technologies designed to improve accuracy, reproducibility, and safety during complex procedures. By enabling surgeons to visualize critical anatomical structures directly on the patient instead of on external screens, OnPoint aims to fundamentally improve how surgeries are performed and experienced by both clinicians and patients.

What is the mission of OnPoint Surgical?

The mission of OnPoint Surgical is to make complex surgical procedures more precise, accessible, and consistent across healthcare systems. The company is committed to empowering surgeons with tools that enhance their natural capabilities rather than replace them, allowing for better outcomes without adding unnecessary complexity. Ultimately, OnPoint seeks to elevate patient care by combining cutting-edge technology with practical usability in the operating room.

What makes OnPoint Surgical different from other surgical technology companies?

Unlike traditional surgical navigation or robotic systems, OnPoint Surgical focuses on augmenting the surgeon rather than replacing them. Its AR-AI platform allows surgeons to keep their eyes on the patient while accessing real-time guidance, preserving tactile feedback and natural workflow. Additionally, the company emphasizes an open-platform approach, meaning its system is compatible with existing implants, imaging tools, and operating room setups, avoiding vendor lock-in and increasing flexibility.

Who are the typical users of OnPoint Surgical technology?

OnPoint Surgical technology is designed primarily for surgeons, including spine surgeons and other specialists performing complex procedures. It is also used by surgical teams such as residents, fellows, and physician assistants who benefit from enhanced visualization and shared real-time guidance. The system supports collaborative workflows in the operating room, improving both training and execution.

How does OnPoint Surgical support surgeons and clinical teams?

OnPoint supports clinical teams by providing real-time visualization of anatomy, enabling better planning and decision-making during procedures. Surgeons can visualize implants before placement, adjust strategies dynamically, and maintain focus on the patient instead of external monitors. This leads to increased confidence, reduced variability, and improved procedural consistency across teams.

What is the vision for the future of OnPoint Surgical?

OnPoint Surgical envisions a future where surgery is more personalized, data-driven, and intuitive. The company aims to lead the transition from screen-based navigation to immersive, patient-centric visualization using AR and AI. Its long-term goal is to redefine surgical standards by making high-precision procedures scalable, efficient, and accessible across healthcare systems globally.

How does OnPoint Surgical contribute to improving patient outcomes?

By enhancing surgical precision and reducing variability, OnPoint helps lower the risk of complications and revision surgeries. Its technology enables more accurate implant placement and better intraoperative decision-making, which directly contributes to improved patient safety, faster recovery times, and overall better clinical outcomes.