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Found 37 results

  1. Version 1.0.0


    High fidelity 3D models of liver vasculature. Created using the anatomical atlas published by the open anatomy project. liver, portal, vessels, .stl, printable, 3d, model, printable, left portal vein, right anterior portal vein, and right posterior portal vein


  2. Version 1.0.0

    1 download

    Aortic arch with visible left and right carotid artery branching from a single trunk (Bicarotid Trunk) and a right aberrant subclavian artery also known as arteria Lusoria. You can see it here: https://sketchfab.com/3d-models/aortic-arch-with-arteria-lusoria-0070ed336d4f424fbb258536d4ee4bb6 Thyrocervical trunk, Common carotid artery, Vertebral artery, Subclavian artery, Brachiocephalic trunk, Aortic arch, Ascending aorta, Descending aorta, Aortic bulb, 3d, model, .stl, printable,


  3. Version 1.0.0


    A skull model from CT-scan set. Hello all, this is actually my first 3D model from CT-scanning You can see it here: https://sketchfab.com/3d-models/skull-model-469a1046e36443a19b556f6db6db4eb2 and if you like it, you can support my work! TerzievStudent ™


  4. I decided to give my Prusa MK3 printer a real challenge, so I cut my best skull model, I added some slots for neodymium magnets and I started to print the parts. I'm done with the half of them and I'll update my post when I'm done.
  5. Dear all, I am looking for a collection/library of 3d single facial muscles (i.e. masseter, temporal, etc.) in .stl or .obj format to import, attach and model on a personalized skull (obtained from a CT scan). It is for "facial reconstruction" Can you help me? Thanks in advance
  6. Version 1.0.0


    Talar fracture. Source - Hristo Hristov. Link in Sketchfab. Excellent model for orthopedic training - just print it in PLA and have some fun anatomy, orthopedic, orthopedy, bone, talus, calcanus, foot, training, osteology, naviculare, phalanx, cuboideum, cuneiform, tarsal, metatarsal, fracture, .stl, 3d, model, printable, lower, limb, ankle


  7. Version 1.0.0


    This is my latest version of my paranasal sinuses model with emphasis on the nasal cavity. Every cavity is connected and can be reached with endoscope as an otorhynolaryngological training model. The wall thickness is 0,6mm. For best results, use transparent material with water or oil soluble support. paranasal, sinuses, osteology, ethmoid, sinus, paranasal, septum, nasal, maxillary, turbinate, otorhynolaryngology, 3d, model, stl, frontal, sphenoid, facial


  8. Version 1.0.0


    This is a camel's skull, ct, bone, without, contrast, stl, head, skull, printable, coronal, sinus, frontal, maxilla, mandible, orbit, anatomy, veterinary, animal, african


  9. Version 1.0.0


    Female pelvis and spine with massive osteophytes. CT scan, 0,6mm slides. Sketchfab anatomy, spine, pelvis, osteophytes, disc hernia, spondiloartrhosis, disc, ribs, hip, head, femur, stl, 3d, model, printable


  10. Tim Hu


    Version 1.0.0


    shark, veterinary, spiracle, eye, nostril, snout, labial, furrows, anatomy, marine, dicom, axial, 3d, printable, veterinary,


  11. Version 1.0.0


    arteries I10.nrrd, angiography, stl, 3d, model, carotid, commun, external, internal, cerebellar, artery, anteroinferior, posteroinferior, basilar, pontine, middle, cerebral, anatomy normal, anterior, cerebral, posterior, vessels, aorta, arch, cerebellar.


  12. Tim Hu


    Version 1.0.0


    test, jaws, shark, ct without contrast, veterinary, spiracle, eye, nostril, snout, labial, furrows, anatomy, marine, dicom, bone, 3d, model, printable, stl, without, contrast


  13. Version 1.0.0


    shark head, head, ct, without, contrast, stl, spiracle, eye, nostril, snout, mouth, labial furrows, jaw, anatomy, veterinary, marine, jaws, dicom, bone, 3d, printable


  14. This week we would like to share the most downloaded 3D models and resources from our site. These may be good resources for educational purposes as they demonstrate the detailed anatomy of the human body. We have a list of the top human heart STL files and another list of free human anatomy STL files. The 1st place is for Dr. Mike’s tutorial on how to create 3D printable bone models. 3D printing is an evolving technology that enables the creation of unique organic and inorganic structures with high precision. In medicine, this technology has demonstrated potential uses for both patient treatment and education as well as in clinical practice. Learning how to create 3D models and taking this technology as a great advantage for medical education and practice is important for all of us as physicians and this tutorial makes it easy to learn. The list also includes other great 3D models, like skull and heart. Let’s then take a look into this ten awesome models. Don’t forget to register in order to download the models, you can do it by clicking here. 1. 2.952 Downloads An improved tutorial that shows you how to create 3D printable bone models even more easily and for free on any operating system. Try it! https://www.embodi3d.com/files/file/115-file-pack-for-3d-printing-with-osirix-tutorial/ 2. 913 Downloads 3D printable model of a human heart was generated from a contrast enhanced CT scan. https://www.embodi3d.com/files/file/64-3d-printable-human-heart-model-with-stackable-slices/ 3. 893 Downloads 3D printable brain is from an MRI scan of a 24 year old human female. https://www.embodi3d.com/files/file/30-human-brain-from-mri-scan/ 4. 714 Downloads This full-size skull with web-like texture was created from a real CT scan. https://www.embodi3d.com/files/file/26-3d-printable-lace-skull-full-size/ 5. 648 Downloads 3D printable model of stroke. https://www.embodi3d.com/files/file/6378-3d-printing-brain-model-with-stroke-stl-files-available-for-download/ 6. 609 Downloads Skull with web-like texture was created from a real CT scan. https://www.embodi3d.com/files/file/25-3d-printable-lace-skull-half-size/ 7. 422 Downloads Anatomically accurate heart and pulmonary artery tree was extracted from a CT angiogram. https://www.embodi3d.com/files/file/59-heart-and-pulmonary-artery-tree-from-ct-angiogram/ 8. 396 Downloads Tutorial: "3D Printing of Bones from CT Scans: A Tutorial on Quickly Correcting Extensive Mesh Errors using Blender and MeshMixer” https://www.embodi3d.com/files/file/89-tutorial-file-pack/ 9. 392 Downloads Tutorial A Ridiculously Easily Way to Convert CT Scans to 3D Printable Bone STL Models for Free in Minutes https://www.embodi3d.com/files/file/6441-imag3d-tutorial-support-files-dicom-and-nrrd/ 10. 373 Downloads Bony anatomy and skin surface of the L and R feet. https://www.embodi3d.com/files/file/52-feet-from-ct-scan/ References 1. Colaco, M., Igel, D. A., & Atala, A. (2018). The potential of 3D printing in urological research and patient care. Nature Reviews Urology.
  15. Version 1.0.0


    spine 2 - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. spine, dorsal, lumbar, spine, bone,3d, model, stl body, vertebrae, lordosis, anatomy


  16. Version 1.0.0


    Real Size Human Left Foot This is a 3D rendering 3D printable model of human foot from MRI images. All bones of foot are connected and make it to be "One-Piece" model. Height quality STL file just ready to printing. A model can be used to study anatomy, biology and physiology.


  17. Version 1.0.0


    36 failing RCT with distal fracture, sub-optimal extension and obturation Dental, teeth, incisor, ct, scan, bone, palate, canine, maxillary, premolar, alveolar, arch, 3d, model, stl, printable, anatomy, fracture,


  18. Version 1.0.0


    Joan Malukis - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. Dental, teeth, incisor, ct, scan, bone, palate, canine, maxillary, premolar, alveolar, arch, 3d, model, stl, printable, anatomy


  19. Version 1.0.0


    Sheryl Revoir - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. Dental, teeth, incisor, ct, scan, bone, palate, canine, maxillary, premolar, alveolar, arch, 3d, model, stl, printable, anatomy


  20. Version 1.0.1


    chronic sinusitis - stl file processed sinuses, skull, face, septum, nose, ct without contrast, stl, dicom, anatomy


  21. Version 1.0.0


    This is 3d model of a skull - my best skull so far. I made it from 0,7mm CT scan. This is the source model for my paranasal sinuses model. Sketchfab link. Thanks for the tutorials, Dr. Mike!


  22. Simmiv

    Head Shot Skin

    Version 1.0.0


    Skin Version mri, head, brain, t1, anatomy, axial, septum


  23. Version 1.0.0


    This model is the right 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. The thigh is divided into three compartments: the anterior, posterior, and adductor. After a femoral fracture or vascular injury in the thigh, increasing pressure within a compartment may threaten to compromise blood flow to muscles within the compartment, a syndrome known as “compartment syndrome.” Compartment syndrome is diagnosed clinically as “pain out of proportion to exam.” In patients that a clinical exam may not be obtained, such as those who are intubated or with a traumatic brain injury, a Stryker needle of each compartment may be performed. The diagnosis of compartment syndrome is defined as pressures within 30 mmHg of diastolic blood pressure. Compartment syndrome is an emergency and thigh fasciotomies must be performed immediately to prevent compromise of muscles within the compartment at risk. Thigh fasciotomies may be performed through a single incision for release of the anterior and posterior compartments, or a medial incision for decompression of the adductor compartment (less common). For the single incision technique, the incision is created laterally, and the fascia lata is incised. This exposes the anterior compartment, which is decompressed. The lateral intermuscular septum is then incised to decompress the posterior compartment. This model was created from the file STS_022.


  24. Version 1.0.0


    This 3D model shows the normal anatomy of the pubic bone of a 62-year old female. The pubic bone consists of the superior pubic ramus, inferior pubic ramus and the body. The two superior pubic rami unite at the midline in the cartilagenous joint known as the symphysis pubis. This file was extracted from a CT scan DICOM data set.


  25. Version 1.0.0


    This is the normal left foot and ankle muscle model of a 56-year-old male with right anterior thigh pleomorphic leiomyosarcoma. This is an STL file created from DICOM images of his CT scan which may be used for 3D printing. The primary motions of the ankle are dorsiflexion, plantarflexion, inversion, and eversion. However, with the addition of midfoot motion (adduction, and abduction), the foot may supinate (inversion and adduction) or pronate (eversion and abduction). In order to accomplish these motions, muscles outside of the foot (extrinsic) and muscles within the foot (intrinsic) attach throughout the foot, crossing one or more joints. Laterally, the peroneus brevis and tertius attach on the proximal fifth metatarsal to evert the foot. The peroneus longus courses under the cuboid to attach on the plantar surface of the first metatarsal, acting as the primary plantarflexor of the first ray and, secondarily, the foot. Together, these muscles also assist in stabilizing the ankle for patients with deficient lateral ankle ligaments from chronic sprains. Medially, the posterior tibialis inserts on the plantar aspect of the navicular cuneiforms and metatarsal bases, acting primarily to invert the foot and secondarily to plantarflex the foot. The flexor hallucis longus inserts on the base of the distal phalanx of the great toe to plantarflex the great toe, and the flexor digitorum inserts on the bases of the distal phalanges of the lesser four toes, acting to plantarflex the toes. The gastrocnemius inserts on the calcaneus as the Achilles tendon and plantarflexes the foot. Anteriorly, the tibialis anterior inserts on the dorsal medial cuneiform and plantar aspect of the first metatarsal base as the primary ankle dorsiflexor and secondary inverter. The Extensor hallucis longus and extensor digitorum longus insert on the dorsal aspect of the base of the distal phalanges to dorsiflex the great toe and lesser toes, respectively. This model was created from the file STS_014.


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