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Found 2,068 results

  1. DICOM to STL Files and Other Medical Scans Uploaded to embodi3D® 3D printing is a technology that is constantly evolving, especially among medical professionals who are converting medical CT scans into 3D-printed anatomical models. Patient-specific models with anatomical fidelity created from imaging dataset have the potential to significantly improve the knowledge and skills of a new generation of surgeons. In terms of research and education, 3D-printed anatomical models have proven to be a major benefit in helping students and researchers gain first-hand knowledge of specific conditions and the human anatomy. In a recent University of Pennsylvania research article ("From medical imaging data to 3D printed anatomical models") there merits of DICOM to STL conversions are highlighted and this is a medical technology that will continue to grow in the coming years. As a manufacturing process, 3D printing is well suited for the generation of biomedical phantoms, which is essentially a low-volume process for patient-specific models. The relatively high tooling costs for alternative processes—such as lost-wax investment casting—make 3D printing a cost-effective choice. This week we want to share the top ten downloads of medical scans. 3D prnting technology can be aligned with the predefined educational need, as listed below. Teaching anatomy, patient education: To teach the anatomy and explain pathology, models constructed of hard materials are often sufficient. The low cost and most accessible method FDM is most certainly the best choice if there is no need for fine printing definition and if the size of the model is large, otherwise we would recommend SLA. Models obtained by SLA present more detail thus would be better for small printing models (eg, coronary arteries). However, in the case of the thoracic aortic model with root aneurysm we put the emphasis on the realism of the geometry by representing as much as details as possible which is why we needed to use one of the most accurate 3D printing method: PJ. It also allowed us to change easily the colours of the 3D printed model if desired. Surgical planning and review of procedure: Surgical planning and review of procedure do not necessarily require materials to have the same mechanical properties of the biological tissues. Hard material model can be well representative of the anatomical structure and once again, FDM and SLA might be your best options. Preprocedural planning: preprocedural planning models are more complicated to fabricate since they require materials mechanically representative to the biological tissues. Discussions on the matter are provided in the following section where all printing methods are eventually used. To see more CT scans, check out the embodi3D® Medical CT Scan Files library. Remember: to get the most out of embodi3D® you need to register on the embodi3D® website. It's completely free and will take only a few minutes of your time. Plus, you will gain access to many of our cutting-edge conversion tools and algorithms! 1. A Whole-Body CT Scan in DICOM and NRRD File Formats First place: A Ridiculously Easily Way to Convert CT Scans to 3D Printable Bone STL Models for Free in Minutes which allows you to follow along with the tutorial. Included is an anonymized chest abdomen pelvis CT in both DICOM and NRRD formats. Take a look to this CT model of whole body. 2. An Incredible CT Scan of an Open Bite CT is indicated for implant site assessment in anatomically difficult cases or when extensive implant treatment is planned. In addition, bone quantity and quality, in the implantation area are evaluated in the CT scans. Classifications are based upon jaw shape (degree of resorption), bone quality (amount of compact bone) and bone density. Information about the location of vital structures, such as mandibular canal, mental foramen, incisive foramen, maxillary sinuses and nasal cavity can be evaluated. 3. Head and Neck CT Scan — Great Addition to our Top 10 Medical CT Scans! A source Head and Neck CT scan in NRRD file format for the Radiological Society of North America (RSNA) Annual Meeting 2017 course on Open-Source and Freeware Medical 3D Printing, RCA12 and RCA21, November 26 and 27, 2017. Be sure to view the full tutorial that uses this file here. https://meeting.rsna.org/program/index.cfm Search for "3D Printing Hands-on with Open Source Software: Introduction (Hands-on)" CT angiography of the cerebral arteries is a noninvasive technique allows visualization of the internal and external carotid arteries and vertebral arteries and can include just the intracranial compartment or also extend down to the arch of the aorta. By using multidetector CT (MDCT) after intravenous contrast administration, the vessels become enhanced with contrast allow them to be differentiated from adjacent tissues. Following image acquisition, post-processing techniques are applied for better 3D visualization of the vessels and their abnormalities. 4. A Contrast-Enhanced CT Scan Showing a Chest Wall Tumor Tumors of the chest wall are varied, some of which are found most often in this region. They can be divided into benign and malignant tumors and into those which arise in the ribcage and those of soft tissue density. - Benign: soft tissue , haemangioma: common, lymphangioma: common, lipoma: chest wall lipoma, schwannoma, neurofibroma, ganglioneuroma paraganglioma, skeletal (ribcage), fibrous dysplasia: common, aneurysmal bone cyst (ABC): common, giant cell tumour (GCT), ossifying fibromyxoid tumour, chondromyxoid fibroma, osteochondroma, mesenchymal hamartoma of chest wall: sometimes even considered a developmental anomaly - Malignant: The most common malignant lesions are metastases. Lesions include: rhabdomyosarcoma: common, Ewing sarcoma: including Askin tumour (or pPNET), ganglioneuroblastoma, neuroblastoma, angiosarcoma, leiomyosarcoma, malignant fibrous histiocytoma (MFH), malignant peripheral nerve sheath tumour, dermatofibrosarcoma protuberans, skeletal (ribcage), chest wall metastases: common, myeloma, chondrosarcoma osteosarcoma, 5. CT Scan of the Brain and Structures (Without Contrast) This upload shows a CT scan of the human brain and related structures. This scan has not been contrast-enhanced. window: W:2800 L:600 Review the bones. This should always be performed, even when a bony algorithm hasn't been provided or where slice thickness is suboptimal. Note that if there is a history of trauma, then dedicated thin bony images are required to detect undisplaced fractures. Review the skull vault for any fractures or destructive lesions. Spend some time checking the base of the skull as the increased complexity of this region can make identification of abnormalities more difficult. Don't forget to ensure that both TMJs are normally aligned. Review the paranasal sinuses for evidence of fluid that may represent acute sinusitis or, in the correct setting, fractures. 6. Whole-Body NRRD File Showing the Chest, Abdomen, and Pelvis A whole body NRRD file converted from CT Scan for Medical 3D Printing includes the chest, abdomen and pelvis. It includes a skin, bone and muscle 3D model. 7. Jawbone Implant as Shown in a 3D Model A 3D model of mandible implant with exquisite detail from a CT scan from planning. Current 3D-printers are easy to use and represent a promising solution for medical prototyping. The 3D printing will quickly become undeniable because of its advantages: information sharing, simulation, surgical guides, pedagogy. They allow for better preoperative planning and training for the procedures and for pre-shaping of plates. Occlusal splints and surgical guides are intended for the smooth transfer of planning to the operating room. 8. The Whole Body of a Female — Available in a 3D Printer-Ready Format A 3D model of female's whole body (with bone, muscle and skin 3D printing) 9. Head and Neck Scan from the Cancer Imaging Archives 62yo male skull from the Head-Neck Cetuximab collection of The Cancer Imaging Archives. 10. Contrast-Enhanced CT Scan of the Skull and Brain A brain CT scan with contrast showing all the structures of the skull and brain. References 1. Lekholm U, Zarb G. Patient selection and preparation. In: Brånemark P-I, Zarb G, Albrektsson T, editors. Tissue-integrated prostheses. Osseointegration in clinical dentistry. Chicago: Quintessence; 1985 p. 199 – 209. 2. Wood MR, Vermilyea SG. A review of selected dental literature on evidence-based treatment planning for dental implants: report of the Committee on Research in Fixed Prosthodontics of the Academy of Fixed Prosthodontics. J Prosthet Dent 2004; 92: 447 – 62. 3. Lindh C, Petersson A, Klinge B. Measurements of distances related to the mandibular canal in radiographs. Clin Oral Impl Res 1995; 6: 96 – 103. 4. Garcia, J., Yang, Z., Mongrain, R., Leask, R. L., & Lachapelle, K. (2018). 3D printing materials and their use in medical education: a review of current technology and trends for the future. BMJ Simulation and Technology Enhanced Learning, 4(1), 27-40.
  2. There are many challenging cases, in which the single segmentation is not enough. The paranasal sinuses and the congenital heart defects are notable examples. My usual workflow was to segment whatever I can as good as it's possible, to clean the unnecessary structures and the artefacts, to export the segmentation as stl 3d model and then to "CAD my way around". This is solid philosophy for simple, uncomplicated models, but for complex structures with a lot of small details and requirement from the client for the highest quality possible, this is just not good enough, especially for a professional anatomist like myself. Then I started to exploit the simple fact, that you're actually able to export the model as stl, to model it with your CAD software and then to reimport it back and convert it into label map again. I called this "back and forth technique". You can model the finest details on your model and then you can continue the segmentation right where you need it, catching even the slightest details of the morphology of the targeted structure. This technique, combined with my expertise, gives me the ability to produce the best possible details on some of the most challenging cases, including nasal cavity, heart valves, brain models etc. etc.To use this technique, just import the stl file, convert it into a label map (for 3D slicer - segmentation module/ export/import models and label maps). The main advantages of this technique are:1. You can combine the segmentation with the most advanced CAD functions of your favorite software. Two highly specialized programs are better than one "Jack of all trades" (cough cough Mimics cough cough)2. Advanced artefact removing.3. Advanced small detail segmentation and modelling.4. Combined with several markers (separate segmentations, several voxels in size) on the nearby anthropometric points, this technique increases the accuracy of the final product significantly. Without points of origin, the geometry of your model will go to hell, if you're not especially careful (yes, I'm talking about the 3D brushes in Slicer).5. You can easily compare the label map with the 3d model, converted back. Every deviation, produced during the CAD operations will be visible like a big, shining dot, which you can easily see and correct. This is one of the strongest quality control techniques.6. You can create advanced masks with all the geometrical forms you can possibly imagine, which you can use for advanced detail segmentation. Those masks will be linked with the spatial coordinates of the targeted structures - the stl file preserves the exact coordinates of every voxel, which was segmented.7. You can go back and forth multiple times, as many as you like.8. This technique is more powerful than the best AI, developed by now. It combines the best from the digital technologies with the prowess of the human visual cortex (the best video card up to date).The main disadvantages are:1. It's time consuming.2. It produces A LOT of junk files.3. Advanced expertise is needed for this technique. This is not some "prank modelling", but an actual morphological work. A specialized education and practical experience in the human anatomy, pathology and radiology will give you the best results, which this technique can offer. 4. You need highly developed visual cortex for this technique (dominant visual sense). This technique is not for the linguistic, spatial-motor, olphactory etc. types of brains. Recent studies confirms, that a part of the population have genetically determined bigger, more advanced visual cortex (The human connectome project, Prof. David Van Essen, Washington University in Saint Louis). Such individuals become really successful cinematographers, designers, photographers and medical imaging specialists. The same is true for all the other senses, but right now we're talking about visual modality and 3D intellect (I'm sorry, dear linguists, musicians, craftsmen and tasters). It's not a coincidence that I have so many visual artists in my family (which makes me the medical black sheep). But if you don't have this kind of brain, you can still use the technique for quality control and precise mask generation. Just let the treshould module or the AI to do the job for you in the coordinates, in which you want (You should really start using the Segment Editor module in Slicer 3D).5. You really need to love your work, if you're using this technique. For the usual 3D modelling you don't need so many details in your model and to "CAD your way around" is enough for the task.6. You should use only stl files. For some reason, the obj format can't preserve the spatial geometry as good as the stl format. Maybe because the stl is just a simple map of vertex coordinates and the obj contains much more sophisticated data. The simple, the better.On the picture - comparison of the semilunar valves, made by treshould segmentation at 250-450 Hounsfield units (in green) and modelled and reimported model (in red).
  3. I wanted to know that, is there any size difference between the .stl file generated form CT scan and the actual size of the skull of the patient. at the conversion, is there any dimensional change could be happen in the software.
  4. A member asked us the following question: "I uploaded a NRRD file and was hoping to be able to download it as an STL - any advice?" You can use our democratiz3D service to automatically convert an NRRD into a 3D printable bone STL model. You can find more about democratiz3D here. There are many tutorials available here. Hope this helps.
  5. Version 1.0.0

    5 downloads

    Dog Legs to convert, whole, body, ct, scan, without, contrast, .stl, axial, dicom, muscles, pectoral, shoulder, bone, cervical, dorsal, lumbar, sacrum, tail, trachea, esophagus, lung, heart, cardiac, mediastinum, ribs, scapula, frontleg, foreleg, k9, canine, dog, pelvis, femur, head, neck, skull,

    Free

  6. Version 1.0.0

    3 downloads

    STL testing, .stl, testing, maxilla, bone, 3d, model, .stl, printable, teeth, angle, body, edentula, partial, incisor, molar, premolar, canine

    Free

  7. Version 1.0.0

    7 downloads

    Find a best way of rander, .stl, bone, axial, ct, scan, frontal, temporal, parietal, occipital, petrous, ridge, mastoid, cells, paranasal, sinuses, maxillary, sphenoid, ethmoid, clinoid, apophysis, atlas, axis, cervical, spine, neck, nasal, septum, maxilla, mandible, upper, lower, incisor, molar, premolar, incisor, molar, premolar, canine, hard, palate,

    Free

  8. Version 1.0.0

    4 downloads

    Pulmonary artery sarcoma after surgical resection, ct, scan, with, contrast, .stl, axial, dicom, bone, chest, thorax, pulmonary, trunk, sarcoma, artery, surgical, resection, heart, ventricle, auricle, deltoid, pectoris, major, lesser, axillary, carotid, subclavian, trachea, esophagus, bronchi, lung, esophagus, pancreas, small, bowell, ribs, portal, vessels, cava, dorsal, lumbar, spine, transverse, spinous, process

    Free

  9. Version 1.0.0

    0 downloads

    rahang, paranasal, sinuses, bone, ct, scan, without, contrast, coronal, septum, nasal, maxillary, upper, lower, teeth, hard, palate, coronoid, process, tumor, ear, temporomandibular, joint, muscles, mandible, maxilla, .stl, 3d, model,

    Free

  10. Version 1.0.0

    2 downloads

    Model of maxilla and mandible for test printing, maxilla, mandible, .stl, teeth, canine, incisor, molar, premolar, ct, scan, without, contrast, lower, turbinate, nasal, vomer, maxillary, sinus,

    Free

  11. Version 1.0.0

    3 downloads

    Practice file for ct->stl, Vastus medialis muscle, Vastus lateralis muscle, Femur, Lateral femoral condyle, Medial femoral condyle, Descending genicular vein (articular branches), Lateral tibial condyle, Medial tibial condyle, Peroneus (fibularis) longus muscle, Extensor digitorum longus muscle, Tibia, Tibialis anterior muscle, knee, pes anserinus (superficial), Semimembranosus muscle (tibial attachment deep pesanserinus), Extensor digitorum longus muscle, Popliteus muscle, patella, quadriceps, semitendinosus,

    Free

  12. Version 1.0.0

    2 downloads

    DannyHead - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. 3D, model, .stl, bone, printable, bone, nasal, septum, zygomatic, arch, maxilla, apophysis, mastoid, temporal, frontal, orbit, mandible, head, skull occipital, parietal, clinoid, pterygoid, maxillofacial,

    Free

  13. Version 1.0.0

    1 download

    Tomografia , .stl, maxilla, ct, scan, without contrast, 3d, model, printable, maxillary, sinus, paranasal sinuses, hard, palate, bone,

    Free

  14. Version 1.0.0

    2 downloads

    convert to STL file for ortho, .stl, 3d, model, .stl, printable, bone, hard, palate, nasal, septum, lower, turbinate, maxillary, sinus, sphenoid, pharynx, nasopharynx, teeth, incisor, molar, premolar, canine, mandible,

    Free

  15. Version 1.0.0

    3 downloads

    This is a bone detailed print of a CT scan of the Nasopharynx region and nasal canal. ct, scan, without , contrast, orbit, eyeball, optic, nerve, frontal, bone, sinus, maxillary, sphenoid, nasal, septum, ethmoid, vomer, palatine, pterigoid, bones, hard, palate, atlas, axis, dens, joint, cervical, spine, nasopharynx, nasal canal, 3d, model, printable , .stl,

    Free

  16. Version 1.0.0

    29 downloads

    Patient born with Pulmonary Stenosis, Double Outlet Right Ventricle, Transposition of the Great Arteries, Ventricular Septal Defect, and Atrial Septal Defect. Scanned 19.5 Years later. - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. tetralogy of fallot, ventricle, auricle, pulmonary, stenosis, double outlet right ventricle, transposition of the great arteries, ventricular septal defect, atrial septal, defect, ct scan with contrast, mediastinum, lung, sternum, ribs, bronchi, trachea, cava, vein, inferior, superior, aorta, ascending, descending, mediastinum, thorax, 3d, model, .stl, printable,

    Free

  17. Version 1.0.0

    4 downloads

    LTD Lumbar 20181031 - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. 3d, model, .lumbar spine, bone, Body of vertebra, Superior vertebral end plate, Inferior vertebral end plate, Intervertebral disk space, Facet joint, Superior articular process, Inferior articular process, Transverse process, Spinous process, Pedicle, Sacroiliac joint, Sacrum, Sacral foramina, ribs, osteodegenerative, changes, scoliosis, crest, iliac, .stl, printable

    Free

  18. Version 1.0.0

    1 download

    just fuss - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. lower, limb, .stl, 3d, model, foot, ankle, medial, lateral, malleolus, calcaneus, tendon, Achiles tendon, medial longitudinal arch, head of I metatarsal, hallux, tendons extensors, phalanges, lateral, skin

    Free

  19. Version 1.0.0

    15 downloads

    Alexandra Galindo - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. maxilla, dental, dentistry, maxillofacial, upper, teeth, canine, incisor, premolar, molar, hard, palate, 3d, model, .stl, printable, bone

    Free

  20. Version 1.0.0

    3 downloads

    Arm - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. arm, bone, 3d, model, stl, humerus, upper, limb,

    Free

  21. Version 1.0.0

    0 downloads

    STTL Conversion, .stl, 3d, model, printable, ct, scan, without, contrast, dental, dentistry

    Free

  22. Version 1.0.0

    1 download

    Test 01 Detail Bone - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. upper, limb, stl, wrist, hand, forearm, capital, metatarsal, 3d, model, printable, bone, phalanx, interphalangeal joint

    Free

  23. Version 1.0.0

    3 downloads

    coverting to stl, Dense bones (subchondral sclerosis), degeneration destruction of articular cartilage, deformity (pencil-point deformity of metatarsal heads) debris, lower, limb, stl, tibia, perone, fibula, calcaneus, navicular, metatarsal, cuboid, navicular, ankle, charcot, foot, diabetic, 3d, model, printable, bone, edema, air, ct scan, without, contrast, .stl,

    Free

  24. Version 1.0.0

    21 downloads

    scanned legs - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. Proximal third of the femur, Middle third of the femur, Distal third of the femur, Proximal third of the lower leg, Medial third of the lower leg Distal third of the lower leg, hip, Pubic bone, Femoral head, Greater trochanter, Obturator foramen, Ischium, Ischial tuberosity, Femur, Patella Medial and lateral femoral condyles, knee, Intercondylar eminence, Medial and lateral tibial condyles, Tibia, Fibula, Medial malleolus, Lateral malleolus Trochlea of the talus, calcaneus, navicular, lower, limb, stl, 3d, model, printing, Metatarsophalangeal joint, Tarsometatarsal joint, Medial cuneiform, Middle cuneiform, Lateral cuneiform, foot, ankle, bone

    Free

  25. Version 1.0.0

    9 downloads

    bone model - stl file processed This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. maxilla, bone, 3d, model, stl, teeth, upper, lower, incisor, canine, molar, premolar, zygomatic, arch, cervical, spine, atlas, axis, dens, cornoid, ramus, body, angle, sphenoid, clinoid, process, dental, dentistry, maxillofacial

    Free

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