For clinicians and engineers SPINE SIMULATION TEAM

We offer an AI engineering team and spine engineering services that help professionals understand the biomechanical performance of spinal implants. This support enables clinicians and engineers to create effective pre-operative plans and develop improved implants.

Revolutionizing Spine Care

AI-Driven Simulations and Expert Insights for Next-Gen Device Evaluation and Spinal Surgeries.

  • Precise Reference Model

    Accurate and Precises computer simulation model of the lumbar and cervical spine

  • Digital Patient

    Pre-OP planning and surgical simulation using digital patient

OUR TECHNOLOGY

Advancing Medical Device Evaluation

Integrating Computer Simulations Based AI and Expert in Spine Research

  • Introduction

    Introduction

    Advancing Medical Device Evaluation: Integrating Computer Simulations Based AI and Expert in Spine Research
    The traditional method of evaluating medical devices through cadaver experiments is increasingly being replaced by sophisticated computer simulations. By leveraging advanced modeling and simulation-based AI technology, coupled with insights from a specialized group of spine experts, we can significantly enhance the evaluation process for these devices.
    Utilizing verified lumbar and cervical simulation models, which accurately reflect various stages of degenerative spine changes, offers substantial advantages. These models support the optimization of surgical methods and contribute to the development of high-performance spinal medical devices. This approach not only improves the efficiency of device testing but also helps in refining surgical techniques, leading to better patient outcomes and innovations in spine care.

  • Digital Spine Testing System

    Digital Spine Testing System

    The Digital Spine Testing System offers comprehensive results for pre-operative plans, allowing you to test various surgical methods in a virtual environment. With this innovative platform, surgeons can explore and refine techniques before operating, enhancing outcomes and precision. Experience the future of surgical planning with the Digital Spine Testing System.

    Digital Spine Testing System
  • Spine Pre-OP. Planner

    Spine Pre-OP. Planner

    (Coming Soon)

    Spine Pre-OP Planner

MEET OUR EXPERTS TEAM

We specialize in developing a state-of-the-art virtual testing system for spinal implants and pre-operative planning. Our innovative platform is designed to support spine researchers, clinicians, and biomechanical engineers from academic, clinical, and industrial fields. Our system ensures precise and realistic evaluations of spinal surgeries, saving time and enhancing safety in managing new techniques. With our commitment to quality and expertise, we provide an essential alternative to traditional mechanical tests.
WE TEST SPINE.

Founder / CEO
Wonman Park, Ph.D
Biomechanical Engineer / Digital simulation
Board-certified, fellowship-trained orthopedic spine surgeon with an active clinical, academic, and teaching practice.
Associate Professor of Orthopaedic Surgery at Sidney Kimmel Medical College, Thomas Jefferson University.
Educational background includes a BA in Molecular Biology from Princeton, MD/MBA from Drexel University, residency at Columbia University, and fellowship at Rush University Medical Center.
Former Director of Spinal Surgery Fellowship at Harvard Combined Program and minimally invasive spine surgeon at Massachusetts General Hospital.
Author of over 100 scientific articles and textbook chapters, with national and international presentations on spine biomechanics and patient outcomes.
Research funded by NIH, PCORI, and OREF, focusing on spine biomechanics and patient outcomes; performs complex cervical, thoracic, and lumbar spine surgeries.

Strategic Advisor
Thomas Cha, MD, MBA
Spine Surgeon
Over 30 years experience in performing biomechanics research of human spine.
With extensive experience in in-vitro robotic testing of cadaveric specimens, 3D finite element modeling of spine biomechanics and in-vivo testing of human spines using advanced imaging techniques.
Published mover 300 peer reviewed articles in orthopaedic biomechanics with citations over 20K.
Working experience at The Johns Hopkins University Medical School, The University of Pittsburgh Medical School, Harvard Medical School, Massachusetts Institute of Technology
Established Orthopaedic Bioengineering Research Center at Massachusetts General Hospital, Newton-Wellesley Hospital.

Scientific Advisor
Guoan Li, PhD
Scientist in Biomedical Engineering

(13210) 2nd Floor, 241, Galmachi-ro, Jungwon-gu, Seongnam-si, Gyeonggi-do, Republic of Korea

ⓒ DT.Lab