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Found 10 results

  1. 313 downloads

    This anatomically accurate L3 vertebra was extracted from a DICOM CT dataset (0.5 mm slice thickness x 95 slices). The model may be useful for medical education and shows shows the vertebral body, spinous process, facets, transverse processes and spinal canal. The file is in STL format and compressed with ZIP. Printed on a Makerbot Replicator 1. Thank you to Dr Mike for the excellent renders. Find us at www.healthphysics.com.au

    Free

  2. Version 1.0.0

    3 downloads

    Skeletal dysplasia , osteochondrodysplasia, Vastus medialis muscle, Vastus lateralis muscle, Femur (shaft), Iliotibial tract, Medial collateral ligament, Lateral femoral condyle, Medial femoral condyle, Lateral tibial condyle, Inferior lateral genicular artery, Medial tibial condyle, Peroneus (fibularis) longus muscle, Extensor digitorum longus muscle, Tibia (shaft), Tibialis anterior muscle, knee, pes anserinus (superficial), Semimembranosus muscle, Extensor digitorum longus muscle, Popliteus muscle, patella, ct scan without, contrast, 3D, model, .stl, printable, ankle, lower, limb, leg, tight,

    Free

  3. 143 downloads

    This anatomically accurate C1 vertebra was extracted from a DICOM CT dataset (0.5 mm slice thickness x 47 slices). The model may be useful for medical education and shows shows the vertebral body, spinous process, facets, transverse processes and spinal canal. The file is in STL format and compressed with ZIP. Printed on a Makerbot Replicator 1. Thank you to Dr Mike for the excellent renders. Find us at www.healthphysics.com.au

    Free

  4. 46 downloads

    This anatomically accurate scapula was derived from a model by Bror (http://www.thingiverse.com/thing:34004). The only change was to split the model into two pieces for easier printing. The model may be useful for medical education and shows the scapular surfaces, acromion and corocoid process. The file is in STL format and compressed with ZIP. Thank you to Dr Mike for the excellent renders. Printed on a Makerbot Replicator 1. Find us at www.healthphysics.com.au

    Free

  5. 34 downloads

    This anatomically accurate acetabulum was extracted from a DICOM CT dataset (0.5 mm slice thickness x 132 slices). The model may be useful for medical education. The file is in STL format and compressed with ZIP. Printed on a Makerbot Replicator 1. Thank you to Dr Mike for the excellent renders. Find us at www.healthphysics.com.au

    Free

  6. 12 downloads

    This anatomically accurate ischium was extracted from a CT DICOM dataset (1 mm slice thickness x 38 slices). The model may be useful for medical education and shows shows the ischial tuberosity. The file is in STL format and compressed with ZIP. Thank you to Dr Mike for the excellent renders. Find us at www.healthphysics.com.au

    Free

  7. 15 downloads

    This anatomically accurate ilium was extracted from a DICOM dataset (1 mm slice thickness x 90 slices). The model may be useful for medical education and shows shows the iliac crest nicely. The file is in STL format and compressed with ZIP. Thank you to Dr Mike for the excellent renders. Find us at www.healthphysics.com.au

    Free

  8. 66 downloads

    This anatomically accurate sacrum was derived from a DICOM CT dataset (0.8 mm slice thickness x 138 slices). The model may be useful for medical education and shows the sacral foramina, dorsal and ventral surfaces, and articular surface with the L5 vertebra. The file is in STL format and compressed with ZIP. Thank you to Dr Mike for the excellent renders. Find us at www.healthphysics.com.au

    Free

  9. 424 downloads

    This object was converted from a CT DICOM dataset of a male skull. The CT slice width was 1 mm (which is quite crude compared to today's scanners) and there were 245 slices in total. Although most of the orphaned pieces have been removed (for printing) using Meshlab the internal structure is still very complex. The vertex count was reduced for simplification but no smoothing was applied to the surface. Some bony artefact holes were filled but on the whole the structure is as per the CT scan. Once again, thank you to Dr Mike for the excellent renders and . Find us at www.healthphysics.com.au

    Free

  10. 44 downloads

    The patella is the largest sesamoid bone in the body. This anatomically accurate patella, showing the articular surfaces, was extracted from a CT DICOM dataset with 0.3 mm slice thickness. Being an orphaned bone the patella is quite easy to segment from the surrounding soft tissue using CT number thresholding. The file is in STL format and compressed with ZIP. Thank you to Dr Mike for the excellent renders. Printed on a Makerbot Replicator 1. Find us at www.healthphysics.com.au

    Free

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