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Found 1,390 results

  1. Version 1.0.0

    5 downloads

    3D Modeling test., ct without contrast, stl, coronal reconstruction, molar, teeth, temporomandibular joint, mastoid cells, paranasal sinuses superior rectus muscle, inferior rectus muscle, middle nasal concha, hard palate, mucosal thickening

    Free

  2. Version 1.0.0

    4 downloads

    Bone 3D printing - stl file processed, mandible, 3dmodel, stl, printable, bone, coronoid process, mandibular dental arcade, incisor tooth, angle of mandible, condylar process, molar, cervical, spine, odontoid, process, joint, palate

    Free

  3. Version 1.0.0

    1 download

    YinShengWen - stl file processed, bone, 3dmodel, stl, face, maxilla, teeth, mandible, cervical, spine, skull, base, sphenoid, cygomatic, temporomandibular, joint, foramen, magnun

    Free

  4. Version 1.0.0

    2 downloads

    acetabulum test feb 15 2018 - stl file processed bone, stl, hip, 3dmodel, joint, pelvis

    Free

  5. Version 1.0.0

    1 download

    Acetabulum just bone feb 15 2018 - stl file processed joint, stl, 3dmodel, hip, acetabulum, bone

    Free

  6. Version 1.0.0

    11 downloads

    bone, stl, 3dmodel, humerus, shoulder, upper, limb I have Multiple Epiphyseal Dysplasia

    Free

  7. Version 1.0.0

    12 downloads

    C1-2 vertebrae - stl file processed

    Free

  8. Version 1.0.0

    15 downloads

    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. This CT scan represents the joint in abduction and shows parts of the related ribs. This CT scan was cropped from the file STS_036 The 3D bone model created from this scan can be reviewed at: The 3D muscle model created from this scan can be reviewed at:

    Free

  9. Version 1.0.0

    22 downloads

    This model is the left leg bone 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 leg includes the area between the knee and the ankle and houses the tibia and fibula. The proximal tibia includes the medial plateau (which is concave) and the lateral plateau (which is convex). The Proximal tibia has a 7-10 degree posterior slope. The tibial tuberosity is located on the anterior proximal tibia, which is where the patellar tendon attaches. On the anteromedial surface of the tibia is Gerdy's tubercle, where the sartorius, gracilis, and semitendinosus attach. The distal tibia creates the superior and medial (plafond and medial malleolus) of the ankle joint. The proximal fibula is the attachment for the posterolateral corner structures of the knee joint. The peroneal nerve wraps around the fibular neck. The distal fibula is the lateral malleolus and a common site for ankle fractures. The ankle is a hinge (or ginglymus) joint made of the distal tibia (tibial plafond, medial and posterior malleoli) superiorly and medially, the distal fibula (lateral malleolus) laterally and the talus inferiorly. Together, these structures form the ankle “mortise”, which refers to the bony arch. Normal range of motion is 20 degrees dorsiflexion and 50 degrees plantarflexion. Stability is provided by the anterior talofibular ligament (ATFL), calcaneofibular ligament (CFL), and posterior talofibular ligament (PTFL) laterally, and the superficial and deep deltoid ligaments medially. The ankle is one of my most common sites of musculoskeletal injury, including ankle fractures and ankle sprains, due to the ability of the joint to invert and evert. The most common ligament involved in the ATFL. The foot is commonly divided into three segments: hindfoot, midfoot, and forefoot. These sections are divided by the transverse tarsal joint (between the talus and calcaneus proximally and navicular and cuboid distally), and the tarsometatarsal joint (between the cuboids and cuneiforms proximally and the metatarsals distally). The first tarsometatarsal joint (medially) is termed the “Lisfranc” joint, and is the site of the Lisfranc injury seen primarily in athletic injuries. This model was created from the file STS_022.

    Free

  10. Version 1.0.0

    15 downloads

    This model is the right knee muscle 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 knee is a hinge joint that does not have true bony stabilization, so it requires soft tissue static and dynamic stabilizers to prevent excess motion through the joint. In addition, the knee goes through a “screw home” mechanism in which the tibia rotates externally and “locks” into extension during the last 15-20 degrees of extension. Multiple structures, therefore, are needed to work in concert to prevent excess strain through this joint during these daily motions. On the medial aspect of the knee, the static stabilizers consist of the superficial and deep medial collateral ligaments (MCL) and the posterior oblique ligament (POL). The dynamic stabilizers are the semimembranosus, vastus medialis, medial gastrocnemius, and pes tendons (semitendinosus, gracilis, and sartorius). The lateral stabilizers are best known as the posterolateral corner, and consist of the static stabilizers (lateral collateral ligament (LCL), iliotibial band (ITB), arcuate ligament), and dynamic stabilizers (popliteus, biceps femoris, lateral gastrocnemius). Inside the joint, the anterior cruciate ligament provides resistance to anterior tibial translation varus, and internal rotation, whereas the posterior cruciate ligament provides resistance to posterior tibial translation, varus, valgus, and external rotation. This model was created from the file STS_022.

    Free

  11. Version 1.0.0

    13 downloads

    This model is the right knee 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. Landmarks of the lower extremity consist of bony and muscular landmarks. Prior to incision, the bone landmarks should be palpated and drawn. The patella is the largest sesamoid bone (bone located within a tendon) and is located on the anterior aspect of the knee. Along with the femur, it forms the patellofemoral joint, providing a mechanical advantage to leg extension. The quadriceps tendon inserts proximally and the patellar tendon inserts distally. The patellar tendon attaches to the tibial tubercle on the anterior aspect of the tibia. On the anteromedial surface of the tibia is Gerdy's tubercle, where the sartorius, gracilis, and semitendinosus attach. Laterally, the head of the fibula may be palpated, which is the attachment for the posterolateral corner structures of the knee joint. The peroneal nerve wraps around the fibular neck, and a tinel’s sign may be elicited due to its superficial position at this location. The knee joint can be palpated and must be accurately located in order to provide landmarks for surgeries such as arthroscopy and arthroplasty. Typically, pain with palpation of the joint line is indicative of knee pathologies such as osteoarthritis or a meniscal tear, with point tenderness at the area of the tear. Proper landmarks are essential for the success of procedures about the knee, and therefore the skin should be adequately evaluated prior to any procedure. This model was created from the file STS_022.

    Free

  12. Version 1.0.0

    69 downloads

    This model is the right knee bone 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 knee is composed of 3 separate joints: two hinge joints (medial and lateral femorotibial joints), and one sellar, or gliding, joint (the patellofemoral joint). These also compose the three compartments of the knee: medial, lateral, and patellofemoral. Although the knee is thought of as a hinge joint, it has 6 degrees of motion: extension/flexion, internal/external rotation, varus/valgus, anterior/posterior translation, medial/lateral translation, and compression/distraction. To provide stability to the joint, static and dynamic stabilizers surround the knee, including muscles and ligaments. The major ligaments that provide stability to the knee include the anterior cruciate ligament (ACL), posterior cruciate ligament (PCL), lateral (or fibular) collateral ligament (LCL), and medial collateral ligament (MCL). The ACL prevents anterior translation of the knee and the PCL prevents posterior translation of the knee. The LCL prevents varus stresses and the MCL prevents valgus stresses on the knee. Furthermore, the medial meniscus is a secondary stabilizer to anterior translation and is therefore commonly injured during an ACL tear or after an untreated ACL tear. This model was created from the file STS_022.

    Free

  13. Version 1.0.0

    7 downloads

    This is the normal left knee 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 knee is composed of 3 separate joints: two hinge joints (medial and lateral femorotibial joints), and one sellar, or gliding, joint (the patellofemoral joint). These also compose the three compartments of the knee: medial, lateral, and patellofemoral. Although the knee is thought of as a hinge joint, it actually has 6 degrees of motion: extension/flexion, internal/external rotation, varus/valgus, anterior/posterior translation, medial/lateral translation, and compression/distraction. In order to provide stability to this inherently unstable knee, static and dynamic stabilizers surround the knee, including muscles and ligaments. On the medial aspect of the knee, the static stabilizers consist of the superficial and deep medial collateral ligaments (MCL) and the posterior oblique ligament (POL). The dynamic stabilizers are the semimembranosus, vastus medialis, medial gastrocnemius, and pes tendons (semitendinosus, gracilis, and sartorius). The lateral stabilizers are best known as the posterolateral corner, and consist of the static stabilizers (lateral collateral ligament (LCL), iliotibial band (ITB), arcuate ligament), and dynamic stabilizers (popliteus, biceps femoris, lateral gastrocnemius). Inside the joint, the anterior cruciate ligament provides resistance to anterior tibial translation varus, and internal rotation, whereas the posterior cruciate ligament provides resistance to posterior tibial translation, varus, valgus, and external rotation. This model was created from the file STS_014.

    Free

  14. Version 1.0.0

    12 downloads

    This is the normal right hip model of an 82-year-old male. This is an STL file created from DICOM images of his CT scan which may be used for 3D printing. The hip joint is a ball and socket joint that has intrinsic stability from osseous, ligamentous, and muscular structures. The hip capsule is made of the iliofemoral, pubofemoral, and ischiofemoral ligaments which attach from the acetabulum to the femoral neck. The normal acetabulum is anteverted 15 degrees and abducted 45 degrees. The normal femoral anteversion is between 10-15 degrees. The proximal femur also includes the greater trochanter, to which the external rotators are attached, and the lesser trochanter, to which the iliopsoas is attached. This model was created from the file STS_013.

    Free

  15. k9032406

    CanineElbow_FMCP

    0 downloads

    2 YR old, MN beagle with acute limp on the left thoracic limb. CT eval revealed subtle fragmented medial coronoid process.

    $10.00

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