Jump to content

Search the Community

Showing results for tags 'printable'.



More search options

  • Search By Tags

    Type tags separated by commas.
  • Search By Author

Content Type


Blogs

  • Embodi3d Test Blog
  • 3D Printing in Medicine
  • Cool Medical 3D-Printing
  • 3D Bio Printing by Paige Anne Carter
  • SSchoppert's Blog
  • Additive Manufacturing in Medicine
  • biomedical 3D printing
  • Bryce's Blog
  • Chris Leggett
  • 3D Models Help Improve Surgical Precision, Reduce Operating Time
  • Desktop 3D Printing in Medical Imaging
  • 3D Printing: Radiology corner
  • The Embodi3D.com Blog
  • descobar3d's Blog
  • 3D Printing in Anthropology
  • Learn to 3D Print: Basic Tools from software to printers
  • 3D printing for bio-medicine
  • 3D Biomedical Printing - by Jacob M.
  • Valchanov's Blog
  • Deirdre_Manion-Fischer's Blog
  • Matt Johnson's Biomedical 3D Printing Blog
  • Devarsh Vyas's Biomedical 3D Printing Blogs
  • Devarsh Vyas's Biomedical 3D Printing Blogs
  • Mike at Medical Models
  • Best embodi3d.com Medical and Anatomic Files

Forums

  • Biomedical 3D Printing
    • Hardware and 3D Printers
    • democratiz3D®
    • Software
    • Clinical applications
    • 3D Printable Models
    • Medical Imaging: CT, MRI, US
    • Science and Research
    • News and Trending Topics
    • Education, Conferences, Meetings, Events
  • General
    • Announcements
    • Questions and Answers
    • Suggestions and Feedback
    • Member Lounge (members only)
  • Classifieds, Goods and Services
    • General Classifieds - members post free
    • Services needed
    • Services offered
    • Stuff for sale/needed
    • Post a Job
    • Looking for work - visible only to members

Categories

  • democratiz3D® Processing
  • Bones
    • Skull and Head
    • Dental, Orthodontic, Maxillofacial
    • Spine and Pelvis
    • Extremity, Upper (Arm)
    • Extremity, Lower (Leg)
    • Thorax and Ribs
    • Whole body
    • Skeletal tumors, fractures and bony pathology
  • Muscles
    • Head and neck muscles
    • Extremity, Lower (Leg) Muscles
    • Extremity, Upper (Arm) Muscles
    • Thorax and Ribs Muscles
    • Abdomen and Pelvis muscles
    • Whole body Muscles
    • Muscular tumors and sarcomas
  • Cardiac and Vascular
    • Heart
    • Congenital Heart Defects
    • Aorta
    • Mesenteric and abdominal arteries
    • Veins
  • Organs of the Body
    • Brain and nervous system
    • Kidneys
    • Lungs
    • Liver
    • Other organs
  • Skin
  • Veterinary
    • Dogs
    • Cats
    • Other
  • Science and Research
    • Paleontology
    • Anthropology
    • Misc Research
  • Miscellaneous
    • Formlabs
  • Medical CT Scan Files
    • Skull, Head, and Neck CTs
    • Dental, Orthodontic, Maxillofacial CTs
    • Thorax and Ribs CTs
    • Abdomen and Pelvis CTs
    • Extremity, Upper (Arm) CTs
    • Extremity, Lower (Leg) CTs
    • Spine CTs
    • Whole Body CTs
    • MRIs
    • Ultrasound
    • Veterinary/Animals
    • Other

Product Groups

  • Premium Services
  • Physical Print Quotes

Find results in...

Find results that contain...


Date Created

  • Start

    End


Last Updated

  • Start

    End


Filter by number of...

Joined

  • Start

    End


Group


Name


Secondary Email Address


Interests

Found 2,594 results

  1. Version 1.0.0

    0 downloads

    head, .stl, 3d, model, printable, skull, frontal, eye, eyelid, parietal, occipital, temporal, nose, nasal, ear, angle, ramus, skin, neck, brain, lobes, cerebellum, brainstem, printable, organ , base, foramina, clivus, petrous, ridge, foramen, magnum Head model with segmented brain and skull cut for Training

    $57.60

  2. From Da Vinci's "Vitruvian Man" to 3D-printable muscles, we continue to expand our understanding of the human anatomy. Through 3D printing, medical students are discovering a new way to create muscle anatomy models and gain more hands-on knowledge. http://ow.ly/M0cE50wL8CI/
  3. Version 1.0.0

    1 download

    me - 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. head, skin, .stl, 3d, model, printable, frontal, temporal, parietal, occipital, eye, eyelid, nose, lip, maxilla, mandible, .stl, eye, brain,

    Free

  4. Version 1.0.0

    1 download

    me - 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. head, skin, .stl, 3d, model, printable, frontal, temporal, parietal, occipital, eye, eyelid, nose, lip, maxilla, mandible, .stl, eye, brain,

    Free

  5. New embodi3d users have uploaded great 3d models with excellent details! Here are the best from this week, we invite you join our community and discover this cutting edge technology of today and the future in the medical field. Sign up it´s easy! 1. A stl file showing the normal kidney location AABERNETHY uploaded this excellent 3D model. The kidneys are paired retroperitoneal structures that are normally located between the transverse processes of T12-L3 vertebrae. 2. Lumbar spine with scoliosis from a stl file In complex spinal disorders as scoliosis, the correction procedure is often very challenging as unexpected pedicle absence and vertebral rotations can be discovered intraoperatively, posing great risk of neurovascular lesions during the operation. Apparently, current visualization modalities as planar radiographic image and CT scans are not qualified to provide necessary anatomic overview of the affected spinal segments, even the CT with 3D reconstruction can only provide the image without tactile feedback. Therefore, 3D printing is very promising in the personalized treatment of complex spinal disorders. 1 747Larry@gmail.com 3. A CT abdomen and pelvis showing muscle tissue The role of 3D-printed models from DICOM images continues to expand and is fueled by the growing realization that intraoperative utilization of 3D images is not as efficient as having a physical model identical to patient structures, particularly for highly complex interventions. Further reductions in morbidity, mortality, and operating room time are inevitable. Uploaded by Azeem 4. Maxillofacial CT scan Shin uploaded this maxillofacial ct scan with good detail. It shows the paranasal sinuses and teeth. 5. Head/Skull 3d model from a STL file processed Dr. Gutierrez uploaded this excellent skull 3D model with exquisite detail. 6. A CT scan of the skull Thank you ngadhoke for upload this skull CT scan in high quality. 7. A 3d model of a central giant cell granuloma of mandible This loculated and expansile mass with wavy septations located on anterior mandible. Presentation • Most common signs/symptoms: pain, swelling of mandible > maxilla Demographics • Age ○ Adolescence to 3rd decade; mean: 25 years • Gender ○ F:M = 2:1 TOP DIFFERENTIAL DIAGNOSES • Aneurysmal bone cyst (ABC) ~ 15% of central giant cell granulomas contain intralesional ABC • Cherubism • Ameloblastoma • Ossifying fibroma • Brown tumor of hyperparathyroidism References 1. Wang, Y. T., Yang, X. J., Yan, B., Zeng, T. H., Qiu, Y. Y., & Chen, S. J. (2016). Clinical application of three-dimensional printing in the personalized treatment of complex spinal disorders. Chinese Journal of Traumatology, 19(1), 31-34. 2. Mitsouras, D., Liacouras, P., Imanzadeh, A., Giannopoulos, A. A., Cai, T., Kumamaru, K. K., ... & Ho, V. B. (2015). Medical 3D printing for the radiologist. Radiographics, 35(7), 1965-1988. 3.Koch, B. L., Hamilton, B. E., Hudgins, P. A., & Harnsberger, H. R. (2016). Diagnostic Imaging: Head and Neck E-Book. Elsevier Health Sciences.
  6. Welcome to this week's Top Ten, featuring some exciting STL files and medical models, many of which you can download and print using your own 3D printing machine. When you upload your organ STL files to embodi3d®, you are helping researchers, students, and inquisitive minds everywhere to develop innovative diagnostic, interventional, and surgical techniques. Medical 3D printing can be used to create centimeter- to sub-millimeter-accurate models. These include the hearts, lungs, kidney, and colon featured in this week's Top Ten, but can be used to create just about any type of 3D organ or tissue model. The democratiz3D® conversion algorithms used on the embodi3D® website are sophisticated enough to recreate the cellular arrangements of various tissues and organs, but are straightforward enough to be used by just about everyone. Even the complex anatomy of the heart can be successfully replicated using various pliable 3D printing materials. These models could serve a future role in preoperative planning, medical education, and enhanced communication between radiologists and others involved in patient care. The prospect of 3D medical models being used to advance research and educational knowledge is truly exciting. We're glad to have you along to share in the experience of this rapidly developing science and art form. But, to receive much of what embodi3D® has to offer you have to register on the website. But, signing up is absolutely free. Become a Registered Member (it's Free) Remember to register on embodi3D.com so you can upload, download, share, and create stunningly realistic 3D models of hearts, lungs, mandibles, and just about anything having to do with the human anatomy. Plus, it is absolutely free to become a registered member. #1. 3D-Printable Model of Human Heart in Tissue Slices Dr. Mike created and submitted this 3D-printable human heart, separated into stackable slices for educational purposes. This STL file originated from a contrast-enhanced CT scan. The embodi3D® community was very excited about this model; it demonstrates the complex anatomy of the heart in a way that can be held, studied, taken apart, and put back together — all activities real-life patients would rather you not try with their own hearts. Representing some of the best uses of medical 3D printing on the embodi3D.com website, this downloadable STL file has earned a rightful place on this week's Top 10 downloads list. #2. Create a 3D Model of a Heart and Pulmonary Artery Tree This anatomically accurate heart and pulmonary artery tree was extracted from a CT angiogram DICOM dataset (0.4 mm slice thickness x 300 slices). This model may serve as an excellent, hands-on educational tool for those entering the medical profession. The uploaded STL files shows the aorta, coronary sinus, coronary arteries, pulmonary arteries, as well as the cardiac ventricles and atria. A special "thank you" goes out to Health Physics for contributing this magnificent file! #3. Full-Size Model of a Human Heart Number 3 on our list is a 3D-printable model of a full-size human heart. Using this STL file, you can create a scale model of a heart, complete with all the complex cardiac anatomy. You will achieve the best results by using a flexible medium when completing your 3D print. Please note: This model has yet to be fully optimized for 3D printing. Therefore, some issues related to minimum wall thickness can be expected. #4. Great Example of a 3D-Printable, Anatomically Accurate Human Heart Dr. Marco Vettorello graciously created and shared this highly accurate human heart STL file, ready for use in your 3D printer. Thank you, Dr. Vettorello! #5. 3D-Print and Compare a Healthy Lung to a Lung with COPD Lung tissue inflammation in patients with chronic obstructive pulmonary disease (COPD) makes it difficult to fully expel air and creates an obstruction in breathing in fresh air. To compare the three STL files of a lung with COPD, embodi3D® has also uploaded three files of a healthy lung. Chronic obstruction pulmonary disease chronic lung disease is often caused by long-term exposure to particulates, cigarette smoke, harmful gases, and other irritants. Those with COPD are at a higher risk of developing heart disease, lung cancer, and a number of other life-threatening conditions. #6. Have a Heart... in a Medical 3D Printing-Ready Format! We'd like to say a special "thank you" to the creators of this 3D-printable heart file, Dr. Beth Ripley and Dr. Tatiana, who have graciously shared this 3D-printable human heart in STL format. This file originally appeared in the "Top 10 Killers" list. While it appears in sixth place for this week's chart, the cardiac events we collectively refer to as "heart disease" remain the developed world's top "killer" and these files should serve to remind us why this type of research is so important — not only to the medical community, but the many patients cardiovascular disease affect each day. #7. 3D-Print a Lung with Pneumonia Pneumonia is one of the leading causes of hospitalization in many parts of the world. This inflammatory condition affects the microscopic alveoli (tiny air sacs) of the lungs, which leads to coughing, sneezing, and difficulty breathing. The 3D-printable files uploaded in STL format feature the lung, airways, and detailed imaging of the alveoli. #8. Compare Healthy and Diseased Kidneys by Creating a 3D Model Chronic kidney disease (chronic renal disease) presently affects around 26 million American adults, with many others at risk of developing this devastating disease. The STL files uploaded for your medical 3D printing use allow you to compare a healthy kidney to one with chronic renal disease. These are available in a format that is ready to be 3D-printed to create your three-dimensional model. #9. Create a 3D Model of a Human Colon with this STL File Surgical procedures, such as hemorrhoidectomies, require a surgeon with a solid grasp of three-dimensional human anatomy. By uploading and sharing medical 3D printing-ready files, such as this colon extracted from a CT DICOM dataset (0.8 mm slice thickness x 467 slices), those entering the profession can acquire this essential knowledge outside the confines of the operating room. Available for educational purposes, this 3D model includes the cecum, appendix, and overall layout of the small and large bowel. #10. A democratiz3D®-Created, 3D-Printable STL File of a Human Right Kidney Dr. Mike uploaded this printable STL file of a human kidney (right side), showing all the nuances of the kidney and renal collecting system in clear, stunning detail. Dr. Mike used the democratiz3D® premium tissue algorithms to bring out all the details of the kidney. Sharing 3D-printable files is just one of the many ways users are creating the future of preoperative planning and surgical performance. References 1. Zheng, B., Wang, X., Zheng, Y., & Feng, J. (2018). 3D-printed model improves clinical assessment of surgeons on anatomy. Journal of robotic surgery, 1-7.
  7. 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.
  8. Create a 3D-Printed Rib Cage and Thorax from STL Files As the second largest largest hollow cavity (largest space between bones), the thoracic cavity encases the lungs, trachea, pericardium, base and apex of the heart, esophagus, as well as all the vessels transporting blood between the lungs and heart. The ribs enclosing these vital organs also include skeletal features such as the sternum, vertebral column, and breastbone. The feature separating the thoracic cavity from the largest cavity in the body (abdominal cavity) is separated by the diaphragm, a muscular, membranous partition that is used to control respiration. In this week's embodi3D® top ten, we would like to share with you some of the top 3D uploads of the chest, including some STL files you can use to create a 3D-printed rib cage or thorax. The benefits of creating three-dimensional models to practice thoracic surgeries was recently highlighted in the Journal of Thoracic Disease in an article titled "Multi-dimensional printing in thoracic surgery: current and future applications." As the technology behind medical 3D printing continues to advance, each iteration brings us closer to highly realistic simulations of thoracoscopic surgery, allowing surgeons to practice cutting, suturing, stapling, and a range of other thoracic surgical procedures. To get the most out of your time on the embodi3D® website (and use the many democratiz3D® medical 3D printing tools), you should register with embodi3D®. The process is free, easy, and will take just a few minutes of your time. And, it just might change the way you practice medicine. After you've browsed these STL files, you can also check out our growing CT scan collection showing various conditions of the thorax and ribs. #1. An Incredible 3D Model of the Chest Cavity Bones JCab uploaded this excellent 3D model of the bones of the rib cage without costochondral cartilage. The thoracic cavity has several functions. The first is to provide protection and support to the body’s vital organs. The thoracic cavity is surrounded by the rib cage and several layers of membranes, which help keep the organs protected from any dangers in the environment. #2. A 3D model of a Chance Fracture of T10 This 3D model created on embodi3D® features a fracture also known as flexion-distraction injury or seat belt fracture. Usually occurs from T11-L3 levels. – 78% occur between T12 and L2 levels * Occasionally at midthoracic spine * May have anterior injury at one level, posterior injury at adjacent one. Staging, Grading, & Classification • Osseous Chance fracture * Vertebral body fracture * Posterior element fractures: Pedicles, transverse processes, laminae, spinous process • Ligamentous Chance injury (uncommon) * Intervertebral disc * Facet dislocation * Ruptured interspinous ligaments • Osteoligamentous Chance injury * Variable combination of fracture and ligament injury #3. A 3D Model of the Sternum in STL Format This 3D model shows us the sternum also called breastbone, in the anatomy of tetrapods (four-limbed vertebrates), elongated bone in the centre of the chest that articulates with and provides support for the clavicles (collarbones) of the shoulder girdle and for the ribs. In mammals the sternum is divided into three parts, from anterior to posterior: (1) the manubrium, which articulates with the clavicles and first ribs; (2) the mesosternum, often divided into a series of segments, the sternebrae, to which the remaining true ribs are attached; and (3) the posterior segment, called the xiphisternum. In humans the sternum is elongated and flat; it may be felt from the base of the neck to the pit of the abdomen. The manubrium is roughly trapezoidal, with depressions where the clavicles and the first pair of ribs join. The mesosternum, or body, consists of four sternebrae that fuse during childhood or early adulthood. The mesosternum is narrow and long, with articular facets for ribs along its sides. The xiphisternum is reduced to a small, usually cartilaginous xiphoid (“sword-shaped”) process. The sternum ossifies from several centres. The xiphoid process may ossify and fuse to the body in middle age; the joint between manubrium and mesosternum remains open until old age. #4. A 3D Model Showing Rib Cage (Left Side) in STL The human skeleton has 12 pairs of ribs. Working from the top of the torso down, ribs 1 to 7 are considered "true ribs," as they connect directly from the spine to the sternum, Martinez says. Ribs 8 to 10 are called "false ribs" because they don't connect directly, but have cartilage that attaches them to the sternum. Ribs 11 and 12 are called "floating ribs" because they only connect to the spine in back. These, he says, "are much shorter." #5. Right Side of Ribs Shown in Medical 3D Model This incredible created on embodi3D® shows the right sided ribs with exquisite detail. The ribs allow chest expansion for breathing, Martinez explains. "They function similarly to the bucket handle on a bucket and swing upwards as we take a breath, allowing the thoracic cavity to expand." This increase in the thoracic cavity makes it easier to take a breath. #6. An Informative Tutorial on Showing Thoracic Cavity Arteries with STL Files This incredible chest and humerus was generated from a CT scan data and is thus anatomically accurate as it comes from a real person- #7. STL File Showing a Three-Dimensional Model of a Clavicle The clavicle (collarbone) extends between the manubrium of the sternum and the acromion of the scapula. The clavicle has three main functions: - Attaches the upper limb to the trunk as part of the ‘shoulder girdle’. - Protects the underlying neurovascular structures supplying the upper limb. - Transmits force from the upper limb to the axial skeleton. #8. 3D Imaging of the Costal Cartilage Do you know that the sexual difference in pattern of human costal cartilages is statistically significant and thus highly predictive of sex determination? The first rib cartilages were not considered because there are no sex differences. The lower ribs exhibit sexual dimorphism. Mineralization and ossification changes appear at the end of puberty and their occurrence increases with age. #9. 3D Model of the Sternocostoclavicular Joint Many physicians are unfamiliar with the characteristics of the sternocostoclavicular joint (SCCJ). Disorders of the SCCJ, although common, frequently escape recognition. The most common SCCJ disorder is degenerative disease manifesting as osteoarthritis or as periarticular lesions causing antero-medial dislocation of the clavicle. Septic arthritis is the most severe disorder and can lead to mediastinitis. All inflammatory joint diseases, including spondyloarthropathies, can affect the SCCJ. SCCJ involvement is a typical component of the osteoarticular manifestations seen in patients with palmoplantar pustulosis. #10. A 3D-Printable STL Medical File (Converted from CT Scan DICOM of Thoracic Cage) The thoracic cage (rib cage) is the skeleton of the thoracic cavity. It is formed of 12 thoracic vertebrae, 12 ribs and their costal cartilages, and the sternum. Its main function is to give support and protection for the vital organs of the thorax. References 1. Rejtarová, O., Slizova, D., Smoranc, P., Rejtar, P., & Bukac, J. (2004). Costal cartilages–a clue for determination of sex. Biomed Pap Med Fac Univ Palacky Olomouc Czech Repub, 148(2), 241-243. 2. Le Loët, X., & Vittecoq, O. (2002). The sternocostoclavicular joint: normal and abnormal features. Joint Bone Spine, 69(2), 161-169. 3. Vertebral column | anatomy. (2018). Encyclopedia Britannica. 4. Giannopoulos, A. A., Steigner, M. L., George, E., Barile, M., Hunsaker, A. R., Rybicki, F. J., & Mitsouras, D. (2016). Cardiothoracic applications of 3D printing. Journal of thoracic imaging, 31(5), 253. 5. Ross, J. S., & Moore, K. R. (2015). Diagnostic Imaging: Spine E-Book. Elsevier Health Sciences.
  9. Version 1.0.0

    2 downloads

    Head_CT_Scan - 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. head, maxillofacial, clinoid, apophysis, sphenoid, .stl, 3d, model, printable, coronoid, process, orbit, nasal, angle, ramus, body, mastoid, foramina, clivus, petrous, ridge, frontal, temporal, vomer, atlas, axis, cervical spine, temporomandibular, joint,

    Free

  10. Three-dimensional printing and modeling is a new technology that has exciting applications for rhinoplasty and facial plastic surgery. We now have the ability to 3D print a skull and 3D-printed face models have been used in the facial reconstruction process. We can also use 3D printing to recreate the muscles of the face. These types of models have been used in advanced procedures that help to restore facial features. One notable example from the Mayo Clinic in Minnesota is the 2017 full-facial reconstruction that employed 3D-printed models to reconstruct a face. Check this post and learn more!
  11. Version 1.0.0

    1 download

    brain_scan - 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. head, .stl, 3d, model, frontal, temporal, parietal, occipital, lobes, full, printable, brain

    Free

  12. 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. Check this! https://www.embodi3d.com/blogs/entry/403-dicom-to-stl-files-and-other-medical-scans-uploaded-to-embodi3d®/
  13. Version 1.0.0

    2 downloads

    trial - 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. upper, teeth, tooth, incisor, molar, premolar, canine, dental, dentistry, bone, .stl, 3d, model, hard, spine, maxillofacial, printable,

    Free

  14. Version 1.0.0

    3 downloads

    ssss - 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. 3d, model, .stl, printable, Capitate, Trapezoid, Hamate, Trapezium, Triquetrum, Scaphoid, Pisiform, Radial styloid, Ulnar styloid, Lunate, Distal radius, Distal radioulnar joint Distal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone, fracture,

    Free

  15. Version 1.0.0

    0 downloads

    ss, 3d, model, .stl, printable, Capitate, Trapezoid, Hamate, Trapezium, Triquetrum, Scaphoid, Pisiform, Radial styloid, Ulnar styloid, Lunate, Distal radius, Distal radioulnar jointDistal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone, fracture,

    Free

  16. Version 1.0.0

    1 download

    Rao, axial, ct, scan, without, contrast, .stl, 3d, model, printable, hard, palate, vomer, lower, turbinate, incisor, molar, bone, dental, dentistry, dicom

    Free

  17. Version 1.0.0

    0 downloads

    Head CT Higher Resolution, .stl, 3d, model, printable, bone, nasal, frontal, temporal, parietal, occipital, skin, ear, maxilla, mandible, head, skull, ct, scan, without, contrast, brain, cerebellum, clinoid, apophysis, ethmoid, cells,

    Free

  18. Version 1.0.0

    1 download

    Brain 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. .stl, 3d, model, printable, bone, nasal, frontal, temporal, parietal, occipital, skin, ear, maxilla, mandible, head, skull,

    Free

  19. Version 1.0.0

    1 download

    Test Brain CT, ct, scan, without, contrast, frontal, temporal, parietal, .stl, 3d, model, printable, nasal, head, skull, foramen, magnum, clivus, sagittal, pterygoid, process, paranasal, sinuses,

    Free

  20. Version 1.0.0

    0 downloads

    bone retry, axial, dicom, .stl, petrous, ridge, ethmoid, cells, orbit, nasal, palate, eyeball, mastoid, process, zygomatic, arch, pterygoid, coronoid, atlas, axis, cervical, spine, ct, scan, without, contrast, 3d, model, printable, mandible, incisor, molar, premolar, canine, aorta, pulmonary, trunk, lung, ribs, thorax, thyroid, gland, pharynx, trachea,

    Free

  21. Version 1.0.0

    0 downloads

    test dicom to stl, axial, dicom, .stl, 3d, model, printable, hard, palate, bone, without, contrast, paranasal, sinuses, upper, teeth, tooth, incisor, molar, premolar,

    Free

  22. Version 1.0.0

    3 downloads

    Head_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. frontal, temporal, parietal, occipital, head, skull, orbit, atlas, axis, cervical, spine, lordosis, yugular, zygomatic, arch, angle, ramus, body, nasal, spine, 3d, model, printable, maxillofacial,

    Free

  23. Version 1.0.0

    0 downloads

    abdomen, pelvis, hip, bone, 3d, model, .stl, printable, liver, spleen, axial, dicom, lumbar, spine, lithiasis, head, acetabulum, neck, trochanter, diaphysis, sacroiliac, joint, ilium, pubis, iliac, rectum, colon, descendent, ascendent, transverse, sigmoid,

    Free

  24. Version 1.0.0

    0 downloads

    aug mk 2, bone, ct, scan, with, contrast, orbit, eyeball, ethmoid, cells, petrous, ridge, maxilla, mandible, .stl, 3d, model, printable, coronoid, process, pterygoid, trachea, epiglottis, arch, aorta, lung, mediastinum, ventricle, auricle, dorsal, cervical, spine, atlas, axis, ribs, scapula, clavicle, shoulder, upper, neck, muscles, cerebellum, mastoid, paranasal, sinuses, carotid, yugular, great, vessels, diaphragm, heart,

    Free

  25. Version 1.0.0

    1 download

    Test 2 -400 threshold - 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. implant, dental, dentistry, upper, teeth, tooth, 3d, model, .stl, printable,

    Free

×
×
  • Create New...