概述

3D Systems has been instrumental in establishing this industry segment with over 25 years of anatomical modeling experience. This offering focuses on taking medical images from digital medical imaging data to a 3D physical representation of any anatomy in a variety of materials.

 

Anatomical Modeling Service

Utilizing the 3D Systems anatomical modeling service, the surgeon provides a CT or MR scan of their patient and our team of engineers will process the data, design the model and 3D print it using our state of the art fleet of 3D printers. The model is then shipped to the surgeon for use in pre-surgical planning, pre-surgical rehearsal, educational purposes and can even be used in a sterile environment depending on the material.

 

How It Works

  • place your order with on demand anatomical models
    新建窗口
    无效

    Step 1

    Fill out an order form 

  • DICOM image uploader
    新建窗口
    无效

    Step 2

    Upload your DICOM data

  • icon representing a biomedical engineer processing DICOM data
    新建窗口
    无效

    Step 3

    Expert biomedical engineers process the data and reconstruct 2D images to 3D files

  • 3D printers
    新建窗口
    无效

    Step 4

    Files are sent to our fleet of state-of-the-art 3D printers

  • Healthcare anatomical model inspection
    新建窗口
    无效

    Step 5

    Models are inspected through our intensive quality control system

  • Models typically ship within 5 business days
    新建窗口
    无效

    Step 6

    Models are carefully packaged and shipped

材料选择

Surgeon holding an SLA anatomical model for pre-surgical planning
新建窗口
无效

SLA (Stereolithography)

Sterilizable

SLA models are 3D Systems’ premier offering for patient-specific anatomical models. SLA models are offered in opaque white and translucent with a unique ability for selective coloration whereby the model can contain a deep red coloration to highlight vital structures such as tumors, vascular structures or tooth roots. SLA models can be sterilized, if needed, for reference in the sterile field during the surgical procedure.These highly accurate models of any anatomy begin with expert image processing of the CT/CBCT input data. Following the medical imaging step, which reconstructs the two-dimensional images into three-dimensional files, these files are sent to our fleet of state-of-the-art stereolithography additive manufacturing machines. These machines typically produce single or multiple models over many hours, in a layered, additive fashion. Models are made in a biocompatible resin, which is UV-cured layer by layer by an ultraviolet laser. Once complete, the models are sent through our intensive quality control system and readied for shipment to the surgeon. Typical turnaround can be from one to two weeks with faster turnaround possible for urgent needs.

  • 新建窗口
    无效

    CJP (ColorJet Printing)

    Non-Sterilizable

    CJP models are available in opaque white or full-color and are ideal for pre-operative planning and education. These highly accurate models of bony anatomy begin with expert image processing of the CT/CBCT input data. Following segmentation, the three-dimensional files of the bone structure are sent to a Color Jet printer, utilizing inkjet printing technology. Layers of powder are bound together, forming the model in a layered fashion over the course of several hours. Following production, the models are quality control checked for accuracy before being prepared for shipment to the surgeon. These models are not meant to be used inside the sterile field.

  • MJP aorta model with rigid and flexible materials
    新建窗口
    无效

    MJP (MultiJet Printing)

    Non-Sterilizable

    MJP Models are highly accurate and can be printed using multiple materials including flexible material which is ideal for pre-surgical rehearsal. MJP printers simultaneously print and fuse together flexible and rigid material composites layer by layer at the pixel level in a variety of colors and shades including opaque, clear, black or white and numerous shades of gray. 3D Systems’ printed multi-material composites result in stunningly realistic, functional, large and small models. These models are not meant to be used inside the sterile field. 

图片库

视频库