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  • Welcome to embodi3D Downloads! This is the largest and fastest growing library of 3D printable anatomic models generated from real medical scans on the Internet. A unique scientific resource, most of the material is free. Registered members can download, upload, and sell models. To convert your own medical scans to a 3D model, take a look at democratiz3D, our free and automated conversion service.

     

    Alert (6/17/22) - The democratiz3D scan-to-model conversion app is down due to a technical issue. We are working on a solution. 

Extremity, Upper (Arm)

Upper extremity: shoulder, arm, forearm, hand

721 files

  1. Free

    My Elbow CT - stl file processed

    My Elbow CT - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Humerus, Coronoid fossa,  Coronoid process,  Radial head,  Radial tuberosity, Olecranon fossa,  Medial epicondyle,  Lateral epicondyle,  Radius,  Humeroulnar joint,  Olecranon,  Humeroradial joint, Ulna, sagittal, upper, limb, .stl, elbow, bone, 3d, model,

    1 download

       (0 reviews)

    0 comments

    Updated

  2. Free

    My Elbow CT - stl file processed

    My Elbow CT - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Humerus, Coronoid fossa,  Coronoid process,  Radial head,  Radial tuberosity, Olecranon fossa,  Medial epicondyle,  Lateral epicondyle,  Radius,  Humeroulnar joint,  Olecranon,  Humeroradial joint, Ulna, sagittal, upper, limb, .stl, elbow, bone, 3d, model,

    4 downloads

       (0 reviews)

    0 comments

    Updated

  3. Free

    My Elbow CT - stl file processed

    My Elbow CT - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Humerus, Coronoid fossa,  Coronoid process,  Radial head,  Radial tuberosity, Olecranon fossa,  Medial epicondyle,  Lateral epicondyle,  Radius,  Humeroulnar joint,  Olecranon,  Humeroradial joint, Ulna, sagittal, upper, limb, .stl, elbow, bone, 3d, model,

    6 downloads

       (0 reviews)

    0 comments

    Updated

  4. Free

    My Elbow CT - stl file processed

    My Elbow CT - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Humerus, Coronoid fossa,  Coronoid process,  Radial head,  Radial tuberosity, Olecranon fossa,  Medial epicondyle,  Lateral epicondyle,  Radius,  Humeroulnar joint,  Olecranon,  Humeroradial joint, Ulna, sagittal, upper, limb, .stl, elbow, bone, 3d, model,

    5 downloads

       (0 reviews)

    0 comments

    Updated

  5. Free

    My Elbow CT - stl file processed

    My Elbow CT - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Humerus, Coronoid fossa,  Coronoid process,  Radial head,  Radial tuberosity, Olecranon fossa,  Medial epicondyle,  Lateral epicondyle,  Radius,  Humeroulnar joint,  Olecranon,  Humeroradial joint, Ulna, sagittal, upper, limb, .stl, elbow, bone, 3d, model,

    6 downloads

       (0 reviews)

    0 comments

    Updated

  6. Free

    My Elbow CT - stl file processed

    My Elbow CT - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Humerus, Coronoid fossa,  Coronoid process,  Radial head,  Radial tuberosity, Olecranon fossa,  Medial epicondyle,  Lateral epicondyle,  Radius,  Humeroulnar joint,  Olecranon,  Humeroradial joint, Ulna, sagittal, upper, limb, .stl, elbow, bone, 3d, model,

    4 downloads

       (0 reviews)

    0 comments

    Updated

  7. Free

    test 3D - stl file processed

    test 3D - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Acromioclavicular joint,  Clavicle,  Acromion,  Coracoid process,  Superior angle,  Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the scapula,  Medial margin,  Lateral margin,  Inferior angle, ribs, bone, 3d, model, .stl, printable, 

    6 downloads

       (0 reviews)

    0 comments

    Updated

  8. Free

    Mr McAdams - stl file processed

    Mr McAdams - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    1 download

       (0 reviews)

    0 comments

    Submitted

  9. Free

    Mr McAdams - stl file processed

    Mr McAdams - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    0 downloads

       (0 reviews)

    0 comments

    Submitted

  10. Free

    Mr McAdams - stl file processed

    Mr McAdams - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    10 downloads

       (0 reviews)

    0 comments

    Submitted

  11. Free

    forearmradiusheaddislocation - stl file processed

    forearmradiusheaddislocation - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    10 downloads

       (0 reviews)

    0 comments

    Submitted

  12. Free

    forearmradiusheaddislocation - stl file processed

    forearmradiusheaddislocation - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    2 downloads

       (0 reviews)

    0 comments

    Submitted

  13. Free

    forearmradiusheaddislocation - stl file processed

    forearmradiusheaddislocation - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    2 downloads

       (0 reviews)

    0 comments

    Submitted

  14. Free

    jmh1st - stl file processed

    jmh1st - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Acromioclavicular joint,  Clavicle,  Acromion,  Coracoid process,  Superior angle,  Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the scapula,  Medial margin,  Lateral margin,  Inferior angle, ribs, bone, 3d, model, .stl, printable,

    5 downloads

       (0 reviews)

    0 comments

    Updated

  15. Free

    xcat_inhale_bones_1 2 - stl file processed

    xcat_inhale_bones_1 2 - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    humerus, epiphysis, diaphysis, upper, limb, bone, dorsal, 3d, model, printable, printing, medical,

    5 downloads

       (0 reviews)

    0 comments

    Updated

  16. $5.50

    shoulder girdle

    shoulder girdle created from a CT scan

    54 downloads

       (0 reviews)

    0 comments

    Updated

  17. Free

    dima - stl file processed

    dima - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    2 downloads

       (0 reviews)

    0 comments

    Submitted

  18. Free

    dima - stl file processed

    dima - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    2 downloads

       (0 reviews)

    0 comments

    Submitted

  19. Free

    dima - stl file processed

    dima - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    2 downloads

       (0 reviews)

    0 comments

    Submitted

  20. Free

    tema - stl file processed

    tema - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Acromioclavicular joint,  Clavicle,  Acromion,  Coracoid process,  Superior angle,  Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the scapula,  Medial margin,  Lateral margin,  Inferior angle, ribs, bone, 3d, model, .stl, printable, 

    1 download

       (0 reviews)

    0 comments

    Updated

  21. Free

    tema - stl file processed

    tema - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Acromioclavicular joint,  Clavicle,  Acromion,  Coracoid process,  Superior angle,  Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the scapula,  Medial margin,  Lateral margin,  Inferior angle, ribs, bone, 3d, model, .stl, printable, 

    1 download

       (0 reviews)

    0 comments

    Updated

  22. Free

    SCOUT TEST - stl file processed

    SCOUT TEST - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.

    1 download

       (0 reviews)

    0 comments

    Submitted

  23. Free

    AH Shoulder - stl file processed

    AH Shoulder - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Acromioclavicular joint,  Clavicle,  Acromion,  Coracoid process,  Superior angle,  Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the scapula,  Medial margin,  Lateral margin,  Inferior angle, ribs, bone, 3d, model, .stl, printable, 

    23 downloads

       (0 reviews)

    0 comments

    Updated

  24. Free

    broche essai 1 - stl file processed

    broche essai 1 - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    bone, 3d, model, printable, printing, medical, medicine, upper, limb,

    1 download

       (0 reviews)

    0 comments

    Updated

  25. Free

    vall - stl file processed

    vall - stl file processed

    Have embodi3D 3D print this model for you. This file was created with democratiz3D. Automatically create 3D printable models from CT scans.
     
    Clavicle,  Acromion,  Coracoid process,  Superior angle, Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the scapula,  Medial margin,  Lateral margin,  Inferior angle, Anterior arch of the atlas, Base of the skull,  Odontoid process, Posterior arch of the atlas,  Mandible,  Spinous process,  Body of the axis,  Anterior superior margin of the vertebra,  Transverse process,  Anterior inferior margin of the vertebra,  3D model, stl, bone, 

    3 downloads

       (0 reviews)

    0 comments

    Updated


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    • Still not working, does anyone know of alternative ways to convert DICOM to STL?
    • With the continuous progress of science and technology, 3D printing technology is more and more widely used in various fields, especially in the biomedical field. ABS (acrylonitrile-butadiene-styrene copolymer) filament, as a commonly used 3D printing material, is favored for its good mechanical properties, heat resistance and chemical stability. In recent years, the breakthrough process of ABS filament in bioprinting has attracted wide attention. Biopriting is a method of using 3D printing technology to manufacture biological tissues or organs, the core of which is to stack cells, biological materials and growth factors in accordance with specific structures, and finally form tissues or organs with biological functions. The application of ABS filament in bioprinting is mainly reflected in its use as a supporting material. In the bioprinting process, the structure of the tissue or organ often requires some support to maintain its shape and stability. Traditional support materials may cause damage to cells during the removal process, affecting the biological function of the printed tissue. ABS filament, due to its good solubility, can be removed by a simple dissolution process after printing, greatly reducing the risk of cell damage. This feature makes ABS filament stand out in the choice of bioprinting support materials. In addition, the biocompatibility of ABS filament is also one of the important reasons for its wide application in the bioprinting field. ABS filament can be better combined with biomaterials and promote cell adhesion and growth by surface modification treatment. This not only improves the biological function of bioprinted tissue, but also opens up new possibilities for tissue engineering and regenerative medicine. In terms of research, many research teams at home and abroad have carried out relevant research on ABS filament in bioprinting, and made a series of breakthrough progress. For example, a research team used ABS filament as a support material to successfully print a tissue-engineered scaffold with a complex blood vessel structure. This achievement not only shows the great potential of ABS filament in biopraying, but also provides a new idea for the future realization of personalized tissue and organ manufacturing. Although ABS filament has made a certain breakthrough in the field of bioprinting, there are still some challenges. For example, how to further improve the biocompatibility of ABS filament and how to optimize the printing parameters to improve the biological function of printed tissue still need to be further studied and solved. It is believed that with the continuous progress of science and technology, these problems will be gradually solved, and the application prospect of ABS filament in the bioprinting field will be broader. In short, the breakthrough process of ABS filament in bioprinting has brought new hope for tissue engineering and regenerative medicine. In the future, with the continuous progress of technology, the application of ABS filament in the bioprinting field will be more extensive and make greater contributions to the development of human health.
    • With the continuous progress of science and technology, 3D printing technology is more and more widely used in the medical field. Among them, polylactic acid (PLA) filament, as a biodegradable material, plays an important role in the medical field with its unique properties. This paper will discuss the application of PLA filament in 3D printers in the medical field. First, PLA filament has significant advantages in 3D printing medical implants. PLA filament has good biocompatibility and can be gradually degraded and absorbed by the human body, so it is widely used in the manufacture of medical implants, such as periosteum and internal inserts. For example, the anchors for the tissue-guided regeneration GTR membrane and bone-guided regeneration GBR membrane produced by Geistlich Orthopedics of Switzerland are made of PLA as raw material. These implants degrade in the body on their own, avoiding the pain of a second surgical removal and reducing the risk to patients. Secondly, PLA filament also shows great potential in 3D printing medical devices and equipment. Through 3D printing technology, a variety of personalized medical instruments and equipment can be manufactured, such as surgical tools, tractors and so on. These devices can be customized according to the specific situation of the patient, improving the efficiency of surgery and treatment results. For example, the West China Hospital successfully implanted a 3D-printed biological artificial knee joint for patients, which is closely contacted through the prosthesis - bone interface, prompting bone tissue to grow into the prosthesis, and improving the strength of the prosthesis and pulp cavity. In addition, PLA filament has also made breakthroughs in 3D printing tissue engineering and bioprinting. 3D printing technology can print human tissues, such as skin, blood vessels, etc., and even try to print complete organs, such as hearts. Tel Aviv University in Israel has successfully printed a miniature human heart, which opens up new possibilities for future organ transplants. Artificial tissues and organs manufactured by 3D printing technology can be used for drug screening, disease model research, etc., which has important scientific value and clinical significance. Finally, PLA filament is also important in 3D printing surgical models and planning. Doctors can make a model of the diseased part through 3D printing technology for surgical planning and simulation, improving the success rate and safety of surgery. For example, in complex fracture cases, doctors can create fracture models through 3D printing technology to help them better understand the extent and location of bone damage and develop more precise treatment plans. To sum up, PLA filaments in 3D printers are widely and deeply used in the medical field, from medical implants to medical devices, to tissue engineering and surgical planning, PLA filaments play an important role. With the continuous progress of science and technology, it is believed that the application of PLA filament in the medical field will be more extensive and make greater contributions to the cause of human health.
    • Hello, I think to use FDM 3D printing technology to make a full-body 3D human model, the following steps are required: Step 1: Obtain body scan data Scanning data acquisition: Obtain 3D scanning data of the whole body through 3D scanners, photogrammetry or other scanning technologies. Data processing: Scanning data is processed, such as removing noise, repairing model defects, and ensuring model accuracy and integrity. Step two: Modeling and preparation Model correction: Further model correction and optimization of the scan data as needed to ensure that the model is suitable for 3D printing. Segmentation model: According to the printer's built volume, the model is segmented into parts suitable for printing for subsequent assembly. Step 3: Slice and set Slicing software: Slice the model using slicing software to generate layer data suitable for printing. Setting parameters: Set the printing parameters according to the printing material, layer height, filling density and other factors to obtain the best printing effect. Step 4:3D printing Choose the right materials: Choose 3D printing materials suitable for whole-body mannequins, generally choose common materials such as PLA or ABS. Preparation before printing: Ensure that the printing bed is smooth, the nozzle is clean, and prepare the printer according to the instructions generated by the slicing software. Start printing: Start the 3D printer and print various parts of the full-body mannequin. Step 5: Assembly and post-processing Clean the print: Remove the finished parts from the printing bed, clean the support structure and residual materials. Assembly: The parts are glued together to form a complete full-body mannequin. Surface treatment: Perform the necessary surface treatment on the model, such as grinding, painting, etc., to make it more realistic. Note: Make sure the FDM 3D printer is built to be large enough to accommodate all parts of the full-body mannequin. Patience and skill are required, as the printing of full-body mannequins can take a long time and complex assembly process. Maintain model detail and scale accuracy throughout the production process. Through the above steps, you can use FDM 3D printing technology to make a realistic full-body 3D mannequin.
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