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  • Welcome to embodi3D Downloads! This is the largest and fastest growing library of 3D printable medical 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.

Skin

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3D printable files of skin of the human body

336 files

  1. Free

    Joe1 - stl file processed

    Joe1 - stl file processed

    Have embodi3D 3D print this model for you. Learn More. This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    head, skull, frontal, temporal, parietal, occipital, face, eye, eyelid, nose, nasal, ear, auditory, conduct, external, 3d, model, .stl, printing, printable, medical, paranasal, sinuses,

    2 downloads

       (0 reviews)

    0 comments

    Updated

  2. Free

    Foot - stl file processed

    Foot - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    skin, lower, limb, stl, ankle, foot, calcaneus, aquiles tendon, maleolus, 3d printing, model, tibia, perone

    2 downloads

       (0 reviews)

    0 comments

    Updated

  3. Free

    Emily McCann - stl file processed

    Emily McCann - stl file processed

    Have embodi3D 3D print this model for you. Learn More. This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    head, skull, 3d, model, printable, parietal, occipital, bone, face, skin, temporal, frontal ear, eyelid,

    2 downloads

       (0 reviews)

    0 comments

    Updated

  4. Free

    AX FSE file femur - stl file processed

    AX FSE file femur - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    knee, stl, tigh, lower, limb, skin, 3d, model, printable, femur,

    2 downloads

       (0 reviews)

    0 comments

    Updated

  5. Free

    2302 - stl file processed

    2302 - stl file processed

    Have embodi3D 3D print this model for you. Learn More. This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    muscles, face, zygomatic, arch, nasal, septum, temporal, maxillofacial, mandible, angle, body, ramus, mastoid, process, petrous, ridge, clinoid, process, frontal, petrous, ridge, clivus, 3d, model, .stl, orbit,

    2 downloads

       (0 reviews)

    0 comments

    Updated

  6. Free

    acrlin10 - stl file processed

    acrlin10 - stl file processed

    Have embodi3D 3D print this model for you. Learn More. This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    skin, chest, thorax, mediastinum, cardiac, ventricle, septum, auricle, back, 3d, model, .stl, printable,

    2 downloads

       (0 reviews)

    0 comments

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  7. Free

    teste - stl file processed

    teste - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    skull, head, bone, face, temporal, muscle, skin, stl, frontal, eye, nose, mouth, inner, ear, occipital, parietal

    2 downloads

       (0 reviews)

    0 comments

    Updated

  8. Free

    Segmentation.seg.nrrd - stl file processed

    Segmentation.seg.nrrd - stl file processed
    facial, skin, 3dmodel, stl, bone, eye

    1 download

       (0 reviews)

    0 comments

    Updated

  9. Free

    v - stl file processed

    v - stl file processed, 3dmodel, stl, skin, lower limb, stl, muscle, 

    1 download

       (0 reviews)

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  10. Free

    Chest wall skin model - STL file from converted CT scan

    The chest wall (thoracic cage) is composed by twelve pairs of ribs laterally and the sternum anteriorly. The ribs are attached to the dorsal vertebrae (thoracic spine) posteriorly and along their costal cartilage to the sternum.
    The thoracic cage main function is to protect the vital chest organs such as the heart and lungs.   There are five muscles that make up the thoracic cage; the intercostals (external, internal and innermost), subcostals, and transversus thoracis.   This 3D model was created from the file STS_036   The original CT examination can be reviewed at: The 3D bone model created from this scan can be reviewed at: The 3D muscle model created from this scan can be reviewed at:   

    1 download

       (0 reviews)

    0 comments

    Updated

  11. Free

    test 125 - stl file processed

    test 125 - stl file processed
    skin, head, stl, 3dmodel, face, muscles, eye, ear, lips

    1 download

       (0 reviews)

    0 comments

    Updated

  12. Free

    Right Knee - stl file processed

    Right Knee - stl file processed
    lower, limb, stl, right, knee, 3dmodel

    1 download

       (0 reviews)

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    Updated

  13. Free

    Right Knee - stl file processed

    knee, stl, lower limb, skin, 3dmodel,

    1 download

       (0 reviews)

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  14. Free

    Right Shoulder - undifferentiated pleomorphic spindle cell sarcoma - Skin Model STL file from converted CT scan

    This 3D model represents a case of undifferentiated pleomorphic spindle cell sarcoma implicating the right parascapular region of a 61 years old male. The patient represented with lung metastasis and was treated by surgical excision follower by chemotherapy as well as radiotherapy.
    A cross sectional CT image is attached showing the lesion in axial, coronal and sagittal planes.   Unfortunately pleomorphic undifferentiated sarcoma has an aggressive biological behaviour and a poor prognosis.   Pleomorphic undifferentiated sarcomas can occur almost anywhere in the body, they have a predilection for the retroperitoneum and proximal extremities. They are usually confined to the soft tissues, but occasionally may arise in or from bone.   This 3D model was created from the file STS_037   The original CT examination can be reviewed at: The 3D bone model created from this scan can be reviewed at: The 3D muscle model created from this scan can be reviewed at: 

    1 download

       (0 reviews)

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    Updated

  15. Free

    Left Shoulder - Skin model STL file from converted CT scan

    The shoulder joint is a large and complex ball and socket joint formed by the humerus and the scapula (glenohumeral joint) while the clavicle join the acromion to form the acromioclavicular joint.
      The shoulder joint is the most mobile joint in the human body on cost of instability. Lot of elements share to compensate the instability such as rotator cuff muscles, tendons and ligaments as well as the glenoid labrum.   Muscles of the shoulder joint
    The rotator cuff: supraspinatus, infraspinatus, teres minor and subscapularis
    Posterior muscle group: deltoid, latissimus dorsi and teres major
    Anterior muscle group: pectoralis major and coracobrachialis   This 3D model was created from the file STS_037   The original CT examination can be reviewed at: The 3D bone model created from this scan can be reviewed at: The 3D muscle model created from this scan can be reviewed at: 

    1 download

       (0 reviews)

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    Updated

  16. Free

    140 - stl file processed

    140 - stl file processed

    1 download

       (0 reviews)

    0 comments

    Updated

  17. Free

    200 - stl file processed

    200 - stl file processed

    1 download

       (0 reviews)

    0 comments

    Updated

  18. Free

    100 - stl file processed

    100 - stl file processed

    1 download

       (0 reviews)

    0 comments

    Updated

  19. Free

    75 - stl file processed

    75 - stl file processed

    1 download

       (0 reviews)

    0 comments

    Updated

  20. Free

    50 - stl file processed

    50 - stl file processed

    1 download

       (0 reviews)

    0 comments

    Updated

  21. Free

    Left Anterior Thigh Myxoid Fibrosarcoma 3D Printable STL File Converted from CT Scan

    This model is the bilateral thigh skin rendering of a 65-year-old male with left thigh myxoid fibrosarcoma. At the time of diagnosis, the patient had metastases to his lungs. The patient therefore underwent neoadjuvant radiotherapy, surgery, and adjuvant chemotherapy and was found to have an intermediate grade lesion at the time of diagnosis. The patient is still living with the metastatic disease at 2.5 years since diagnosis. This is an STL file created from DICOM images of his CT scan which may be used for 3D printing.
     
    Myxoid fibrosarcoma (or myxoid MFH) is the most common subtype of MFH, at about 10%-20% of cases. Clinically, the tumor presents as a deep, slow-growing, painless mass. It is located more commonly in the lower extremities and retroperitoneum. Imaging on MRI demonstrates a mass with low signal intensity on T1-weighting imaging, and high signal intensity on T2-weighted imaging. On histology, a myxoid background is present with a storiform (or cartwheel) pattern seen on low-power imaging, seen in fibrosarcomas. A “myxoid background” is composed of a clear, mucoid substance. Treatment includes radiation, wide surgical resection, and chemotherapy in selected cases.  However, the 5-year survival is 50%-60% depending on size, grade, depth and presence of metastasis.
     
    The term “malignant fibrous histiocytoma” was coined in the 1960s by Margaret R. Murray when histology a sarcoma demonstrated an appearance like histiocytes, with characteristics of phagocytosis and a pleomorphic pattern. With further research, this entity was identified to have a wider range of appearances with a fibrous characteristic. Today, these sarcomas are known as “pleomorphic sarcomas.”
     
    Recently, a change in the understanding of soft tissue tumors has purported that MFH is not a specific type of cancer, but a common morphologic pattern shared by unrelated tumors. One school of thought states that this morphologic pattern is shared by tumors as a common final pathway in cancer progression whereas another school of thought believes that true pleomorphic sarcomas are the result of a transformation from mesenchymal stem cells. Future research into understanding the pathway of these sarcomas and progression will help to target specific therapies and, hopefully, eventual cures.
     
    This model was created from the file STS_022.

    1 download

       (0 reviews)

    0 comments

    Updated

  22. Free

    Ouvido_3D - stl file processed

    Ouvido_3D - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.

    1 download

       (0 reviews)

    0 comments

    Updated

  23. Free

    25 - stl file processed

    25 - stl file processed

    1 download

       (0 reviews)

    0 comments

    Updated

  24. Free

    Right Ankle - Skin model STL file from converted CT scan

    The ankle joint is comprised of the tibia, fibula, talus, and calcaneus as well as the supporting ligaments, muscles and neurovascular bundles.
      The ankle is a synovial joint composed of the distal tibia and fibula as they articulate with the talus. The distal tibia and fibula articulate with each other at the distal tibiofibular joint which is more commonly referred to as the tibiofibular syndesmosis.   This 3D model was created from the file STS_051   The original CT examination can be reviewed at: The 3D bone model created from this scan can be reviewed at: The 3D muscle model created from this scan can be reviewed at: 

    1 download

       (0 reviews)

    0 comments

    Updated

  25. Free

    Left Ankle - Skin model STL file from converted CT scan

    The ankle joint is comprised of the tibia, fibula, talus, and calcaneus as well as the supporting ligaments, muscles and neurovascular bundles.
      The ankle is a synovial joint composed of the distal tibia and fibula as they articulate with the talus. The distal tibia and fibula articulate with each other at the distal tibiofibular joint which is more commonly referred to as the tibiofibular syndesmosis.   This 3D model was created from the file STS_051   The original CT examination can be reviewed at: The 3D bone model created from this scan can be reviewed at: The 3D muscle model created from this scan can be reviewed at: 

    1 download

       (0 reviews)

    0 comments

    Updated

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    • Hello everyone. Newbie here. I am curious if anyone has created 3D models that are used as ultrasound phantoms for teaching purposes. I would like to create models of limbs, torsos, etc... that can simulate muscle, subcutaneous tissue, nerves, vessels, where I can teach MSK and regional nerve block ultrasound. It seems clear that I can use PLA or PETG to simulate bone very easily, but I was wondering if anyone has used TPU (or other filament) and whether sound waves penetrate TPU. Thanks
    • Yes definitely! I would definitely like to see it applied more to unidentified remains.
    • Do any of you print 3d models to sell?  This is a good article to keep in mind.     ====   If you’re running a 3D printing service, or a product development company where you’re quoting customers on digital fabrication services, there’s a good chance that you’re pricing wrong. Here’s how I know.   In the last five years, I’ve spoken to hundreds of 3D printing/Additive Manufacturing business owners about how they price their services and a vast majority of them undersell their services. The three primary reasons are either a combination or one of the following: They don’t take into account all of the ancillary components that go into running a business. They charge purely based on the volume of the CAD model not taking into account exponential price increases or decreases. Taking their slicer output of time to print and material usage too literal without physically measuring those parameters and taking into account #1 above.   Based on those hundreds of hours of conversation combined with years of industry experience, I’ve developed a holistic methodology on how to price for 3D printed parts and projects that accounts for all aspects of the business (human/machine time, machine depreciation, software, facility cost) the size of the job, and the unique attributes of the parts. I’ll share that methodology with you today, but first, a little more context on how I got here.   Mike Moceri, the founder and CEO of MakerOS.   Back in 2013, while I was running a 3D printing service bureau, my team and I received an order from a Fortune 500 company to print them approximately 15,000 individual parts for a toy line. At the time, we were charging a little less than $1 per cubic centimeter printing in PLA and Nylon PA12, and that’s how we ended up pricing them for the job.    The project ended up being a very challenging one (that’s a whole different story that you should ask me about at some point) and after some time gaining more experience over the years, I realized that, considering how immensely large the job was, we should have priced about 70% more than what we originally quoted.    There’s a lot we didn’t factor for: the manual time it takes to prep, slice, validate, think through how to plate up and pull off parts; the software costs to execute all of those tasks; how long it actually took to print parts accounting for machine depreciation. It was quite a learning experience – in fact, it ultimately changed my life because I decided to do something about it, and I’m still doing it today.   View the full article
    • I remember seeing 3D printed skulls from CT scans many years ago at JPAC, the Joint POW MIA Accounting command based at Pearl Harbor in Hawaii. It was a pretty cool idea to study the 3D printed models so that the original remains could be buried, thus giving families closure, etc. I think there is great potential in anthropology for this type of technology.
    • Not all the algorithms are based on different threshold values. I don't mean to get super-technical, but I am a somewhat skilled programmer for a very limited number of things. It's a super-simple algorithm to simply put a threshold on HU. There are a bunch of other approaches algorithmically. You can also threshold based on texture analyses even in 3D slicer. I could go on here for ten paragraphs, but trust me there are a lot. AI based segmentation that is pretty accurate is available for some things...but the ones I have seen were custom built by companies for a particular entity looking to segment something specific e.g. just segment out the lungs into bronchopulmonary segments.
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