Tailored Solutions for Every Physician

Medical Devices

All surgical products have obtained TFDA Class II medical device license

Augmented Reality Computer Surgical Navigation System

While focusing on the patient's affected part, the doctor can also directly see the navigation screen presented in front of his eyes, without frequently looking up to check the screen of the external screen, distracted by the influence of the environment, and interrupting the workflow.

  • Low radiation
  • Optimal video system integration
  • AR real-time projection augmented reality
  • Ultra-accurate and fast spine positioning and navigation
  • Reduce bleeding

Spine 3D computer surgery navigation system

Guided by SURGLASSES ultra-low radiation navigation system, doctors can find the location of the lesion more accurately and improve the safety of surgery. Caducues S spine surgery guidance system, patients do not need to be irradiated with computerized tomography (CT) before surgery to reduce the risk of radiation exposure, spine navigation can be performed by taking a small amount of X-rays during surgery, and the complex and delicate spine and nerves can be handled in a minimally invasive way structure. In order to reduce damage to normal tissues, doctors need to operate in a narrow field of view and limited operating space. Therefore, it is more necessary to use GPS-like navigation systems to provide the precise position of the cone, avoid uncertain surgical injuries, and improve minimally invasive surgery. Surgical safety and precision.

  • Patients do not need preoperative computed tomography (CT)
  • Ultra-low radiation
  • No need to change the surgical procedure
  • Ultra-precise positioning
  • Reduce bleeding

AR Surgical Glasses (Forexee-X)

The smart surgical eyewear display system allows physicians to focus their field of vision on the patient's affected area, promoting concentrated attention, reducing surgical time, and minimizing the need for X-ray imaging.

  • AR real-time projection augmented reality
  • Integrate multiple surgical imaging devices.
  • Reduce radiation exposure.
  • Shorten surgical duration.

Software system for preoperative planning

OOOPDS is a professional medical imaging application software system that provides visual analysis of DICOM data and 2D/3D image conversion. It is suitable for biomedical engineering experiments, digital medical image viewing, and image model simulation applications to achieve the best digital fusion of medical images. It is also the only domestic medical pre-surgery planning software system that has passed TFDA. The main function of this product is 3D conversion of DICOM medical images, a software system for surgical planning and output of 3D printing files. This product presents medical image cases in a full digital way, converts DICOM 2D images into 3D reconstructed images, and directly operates various parts Surgical simulation and planning. Fully automatic 3D image reconstruction, combined with a variety of image processing tools, constructs the most realistic surgical operation steps for each part, such as the planning of spine, pelvis, fractures of various parts, bone plate and bone screw placement, etc. The simple operation process provides doctors with a complete Virtual image drills, orthopedic surgery simulations of various parts, advanced image computing technology and the best real case operations in the field of medical education meet the needs of clinical medicine.
Equipped with 3D reconstruction software CT/MRI (Reconstruction), surgical planning, output 3D printing. This product has the following four preoperative planning functions: spine pedicle screw implantation planning, spinal puncture simulation, bone plate/bone nail tools, and dental implant tools. Users can perform simulation functions according to preoperative planning requirements.

  • Preoperative planning
  • Customized bone plate
  • 3D printing