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  • Welcome to embodi3D Downloads! This is the largest and fastest growing library of 3D printable medical models generated from real medical scans on the Internet. A unique scientific resource, most of the material is free. Registered members can download, upload, and sell models. To convert your own medical scans to a 3D model, take a look at democratiz3D, our free and automated conversion service.

Aorta

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3D printable files of the aorta 

36 files

  1. Free

    VICENZA 1

    PROVA

    27 downloads

       (0 reviews)

    0 comments

    Submitted

  2. Free

    MAGAGNA

    AORTA

    36 downloads

       (0 reviews)

    0 comments

    Submitted

  3. Free

    sortic valve

    valve1234 corrected.stl

    25 downloads

       (0 reviews)

    0 comments

    Submitted

  4. Free

    Heart and aorta within the rib cage STL

    This 3D printable STL file contains a model of the thorax was derived from a medical CT scan. It shows the heart and aorta as they reside in the chest.
    This model was created using the democratiz3D 3D model creation service
     
    0522c0878 CAPw

    46 downloads

       (0 reviews)

    0 comments

    Updated

  5. Free

    Thoracic aorta and arch vessels STL

    This 3D printable STL file contains a model of the thoracic aorta, heart, and aortic arch was derived from a medical CT scan.
    This model was created using the democratiz3D 3D model creation service
     
    0522c0878

    27 downloads

       (0 reviews)

    0 comments

    Updated

  6. Free

    Thoracic aorta STL file

    This 3D printable STL file contains a model of the thoracic aorta was derived from a medical CT scan. It shows the course of the aorta as it arches and travels into the abdomen. Part of the left kidney is also shown.
    This model was created using the democratiz3D 3D model creation service
     
    0522c0878 CAPw

    33 downloads

       (0 reviews)

    0 comments

    Updated

  7. Free

    TCGA-G3-AAV6 liver - processed

    This 3D printable model of the abdominal aorta and mesenteric arteries was created from a CT scan.
     
    This model was created using the democratiz3D 3D model creation service
     
    TCGA-G3-AAV6

    13 downloads

       (0 reviews)

    0 comments

    Updated

  8. $10.00

    Aortic arch with bicarotid trunk anomaly, 3d printing version

    This is a 3d printing version of my "Aortic arch with bicarotid trunk anomaly" 3d model. It's hollow and with proper supports, it can become a decent 3d printed model with 0,2mm or lesser layer thickness. 

    1 purchase   42 downloads

       (0 reviews)

    0 comments

    Updated

  9. $10.00

    Bovine Arch

    This is 3d model of aortic arch with left common carotid artery, which branches from the brachiocephalic trunk (Bovine Arch) and a dilatation of the ascending aorte. I made the model from the Artifix CTA set, Osirix dicom library. It's part of a anatomical series of aortic arch anomalies and it's for clinical anatomy teaching purposes.

    1 purchase   28 downloads

       (1 review)

    0 comments

    Updated

  10. $10.00

    Aortic Arch, type III elongation

    This is 3d model of aortic arch with type III elongation (according to Madhwal classification). I made it from MRI set, which I obtained from Osirix dicom library, Felix set.  It's part of a anatomical series of aortic arch anomalies and it's for clinical anatomy teaching purposes.

    2 purchases   26 downloads

       (0 reviews)

    0 comments

    Updated

  11. $10.00

    Aortic arch with bicarotid trunk anomaly

    This is 3d model of aortic arch with bicarotid trunk anomaly and aberrant right subclavian artery (arteria lusoria), which was made from CTA scan. The patient is caucasian woman with stenosis of the left vertebral artery (which is not included) and severe disphagia. It's part of a anatomical series of aortic arch anomalies and it's for clinical anatomy teaching purposes.

    0 purchases   26 downloads

       (0 reviews)

    1 comment

    Updated

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    • It's amazing to see that i had the same problem and question. I usually avoid the Contact Z distance. Anyways, I got information from several places regarding any problem in 3d printing.
    • First of all, a lot of people in the "professional world" are using Ultimakers. And the Palette 2 is still not working with 2.85 filaments (and probably never will?)   The last few months I came across a new scenario for multi material printing. It is mixing PLA with PETG for supports. PLA and PETG don't bond to each other. So you can print your part with PLA and supports with PETG (or vice versa) and set the contact z distance to 0(!). It works very well. Supports are coming off easy and the interface layers look as good as if you were using soluble supports. Since you have to keep soluble filament in dry conditions it is much easier (and cheaper) to use PETG instead.    Setting up the Palette is very easy. Mosaic has some videos one can watch like this one https://www.youtube.com/watch?v=uqbMw_M07GM (and the two follow up ones).   As for my experience. The combination Prusa MK3 + Palette 2 is probably one of the most used one in the community and works very reliable (of course there is no 100% guarantee but lets say 98,5% of the time 😉) . And I always use and recommend Prusas.    Also I would recommend using this post processing tool for PrusaSlicer 2.0: https://github.com/tomvandeneede/p2pp for an Prusa+Palette combination.    I would also still strongly recommend the already mentioned DIY canvas hub guide. There is already an Octoprint beta version out for the new Raspberry 4 so chances are the guide might work with the new Raspberry 4. But I haven't tested it.
    • Thank you, Dr Mike I'll look into that.
    • Flaviu,    Can you go into more detail with your Palette 2 experience? The concept looked great in theory when it came out, but at the time I heard it was still problematic. Are you finding success now?
    • If you are only interested in bone, the lower dose is probably fine. Make sure you get sequences with soft tissue reconstruction algorithm in addition to the standard bone algorithm. Edge enhancement with the bone algorithm causes speckling, which can make bone segmentation more difficult. See my blog article on selecting a good scan for 3D printing below for details. Look at the section on reconstruction kernel.    
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