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Extremity, Upper (Arm) Muscles

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Muscles of the upper extremity: shoulder, arm, forearm, hand

22 files

  1. Free

    Deneme - stl file processed

    Deneme - stl file processed

    Have embodi3D 3D print this model for you. Learn More. This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    3d, model, .stl, printable, Distal phalanx (tuft),  Distal phalanx,  Distal interphalangeal joint,  Proximal interphalangeal joint,  Middle phalanx,  Head of the proximal phalanx,  Proximal phalanx,  Metacarpophalangeal joint,  Base of the proximal phalanx,  Metacarpal head,  Metacarpal,  Metacarpal base,  Capitate,  Trapezoid,  Hamate,    Radial styloid,  Ulnar styloid,  Lunate,  Distal radius,  Distal radioulnar joint, Distal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone

    1 download

       (0 reviews)

    0 comments

    Updated

  2. Free

    Todos - stl file processed

    Todos - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    hand, .stl, muscle, skin, upper, limb, finger, phalanx, tendons, ligaments, flexor, extensor, hypothenar, index, middle, ring, pinky, thumb, 3d, model, printable,

    0 downloads

       (0 reviews)

    0 comments

    Updated

  3. Free

    Mao4 - stl file processed

    Mao4 - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    hand, .stl, muscle, skin, upper, limb, finger, phalanx, tendons, ligaments, flexor, extensor, hypothenar, index, middle, ring, pinky, thumb, 3d, model, printable,

    5 downloads

       (0 reviews)

    0 comments

    Updated

  4. Free

    mao - stl file processed

    mao - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    hand, .stl, muscle, skin, upper, limb, finger, phalanx, tendons, ligaments, flexor, extensor, hypothenar, index, middle, ring, pinky, thumb, 3d, model, printable,

    1 download

       (0 reviews)

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    Updated

  5. Free

    Wrist mri - stl file processed

    Wrist mri - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
    Distal phalanx, Distal interphalangeal joint,  Middle phalanx (base),  Proper palmar digital nerves , and arteries, Proximal phalanx (head), Flexor digitorum muscle (tendon),  Distal phalanx,  Proximal interphalangeal joint, Metacarpal II (head), Lumbrical muscles, wrist, upper, limb, stl, 3d model, printable

    1 download

       (0 reviews)

    0 comments

    Updated

  6. Free

    Wrist mri - stl file processed

    Wrist mri - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
    Distal phalanx, Distal interphalangeal joint,  Middle phalanx (base),  Proper palmar digital nerves , and arteries, Proximal phalanx (head), Flexor digitorum muscle (tendon),  Distal phalanx,  Proximal interphalangeal joint, Metacarpal II (head), Lumbrical muscles, wrist, upper, limb, stl, 3d model, printable

    1 download

       (0 reviews)

    0 comments

    Updated

  7. Free

    Wrist mri - stl file processed

    Wrist mri - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.
     
     Distal phalanx, Distal interphalangeal joint,  Middle phalanx (base),  Proper palmar digital nerves , and arteries, Proximal phalanx (head), Flexor digitorum muscle (tendon),  Distal phalanx,  Proximal interphalangeal joint, Metacarpal II (head), Lumbrical muscles, wrist, upper, limb, stl, 3d model, printable

    3 downloads

       (0 reviews)

    0 comments

    Updated

  8. Free

    Wrist mri - stl file processed

    Wrist mri - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more. Distal phalanx, Distal interphalangeal joint,  Middle phalanx (base),  Proper palmar digital nerves , and arteries, Proximal phalanx (head), Flexor digitorum muscle (tendon),  Distal phalanx,  Proximal interphalangeal joint, Metacarpal II (head), Lumbrical muscles, wrist, upper, limb, stl, 3d model, printable

    5 downloads

       (0 reviews)

    0 comments

    Updated

  9. Free

    Test 2 - stl file processed

    Test 2 - stl file processed

    This file was created with democratiz3D. Automatically create 3D printable models from CT scans. Learn more.

    1 download

       (0 reviews)

    0 comments

    Updated

  10. Free

    hand-bone-3files - stl file processed

    hand-bone-3files - stl file processed
    upper limb, stl, 3dmodel, skin, hand, .stl, muscle, skin, upper, limb, finger, phalanx, tendons, ligaments, flexor, extensor, hypothenar, index, middle, ring, pinky, thumb, 3d, model, printable,

    3 downloads

       (0 reviews)

    0 comments

    Updated

  11. Free

    Harsh - stl file processed

    Harsh - stl file processed

    1 download

       (0 reviews)

    0 comments

    Updated

  12. Free

    Hand Muscle - stl file processed

    Hand Muscle - stl file processed, 3d, model, muscle, hand, wrist, stl, fingers, printable, extensor pollicis longus and brevis, extensor indicis, muscles of Hand: dorsal and palmar interosseous, lumbrical, extensor digitorum, extensor digiti minimi, extensor carpi ulnaris, abductor pollicis longus and abductor pollicis brevis, opponens pollicis, flexor pollicis brevis, adductor pollicis, abductor digiti minimi, flexor digiti minimi brevis, opponens digiti minimi

    58 downloads

       (0 reviews)

    0 comments

    Updated

  13. Free

    Human Hand - stl file processed

    Human Hand - stl file processed
    hand, muscle, finger, palmar, wrist, stl, 3dmodel

    43 downloads

       (0 reviews)

    0 comments

    Updated

  14. Free

    Right Shoulder - Muscle model STL file from converted CT scan

    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.   Muscles of the shoulder joint
    The rotator cuff: supraspinatus, infraspinatus, teres minor and subscapularis
    Posterior muscle group: deltoid, latissimus dorsi and teres major
    Anterior muscle group: pectoralis major and coracobrachialis   This 3D model was created from the file STS_040   The original CT examination can be reviewed at: The 3D bone model created from this scan can be reviewed at:

    2 downloads

       (0 reviews)

    0 comments

    Updated

  15. Free

    Left Shoulder - Muscle model STL file from converted CT scan

    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.   Muscles of the shoulder joint
    The rotator cuff: supraspinatus, infraspinatus, teres minor and subscapularis
    Posterior muscle group: deltoid, latissimus dorsi and teres major
    Anterior muscle group: pectoralis major and coracobrachialis   This 3D model was created from the file STS_040   The original CT examination can be reviewed at:   The 3D bone model created from this scan can be reviewed at:  

    2 downloads

       (0 reviews)

    0 comments

    Updated

  16. Free

    Left Shoulder - Muscle model STL file from converted CT scan

    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.   Muscles of the shoulder joint
    The rotator cuff: supraspinatus, infraspinatus, teres minor and subscapularis
    Posterior muscle group: deltoid, latissimus dorsi and teres major
    Anterior muscle group: pectoralis major and coracobrachialis   This 3D model was created from the file STS_037   The original CT examination can be reviewed at: The 3D bone model created from this scan can be reviewed at: The 3D skin model created from this scan can be reviewed at: 

    7 downloads

       (0 reviews)

    0 comments

    Updated

  17. Free

    Left Shoulder Joint muscles 3D Printable STL File Converted From CT Scan

    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.   Muscles of the shoulder joint The rotator cuff: supraspinatus, infraspinatus, teres minor and subscapularis Posterior muscle group: deltoid, latissimus dorsi and teres major Anterior muscle group: pectoralis major and coracobrachialis   This 3D model was created from the file STS_036   The original CT examination can be reviewed at:   The 3D bone model created from this scan can be reviewed at:

    0 downloads

       (0 reviews)

    0 comments

    Updated

  18. Free

    Right Shoulder Joint muscles 3D Printable STL File Converted From CT Scan

    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.   Muscles of the shoulder joint The rotator cuff: supraspinatus, infraspinatus, teres minor and subscapularis Posterior muscle group: deltoid, latissimus dorsi and teres major Anterior muscle group: pectoralis major and coracobrachialis   This 3D model was created from the file STS_036   The original CT examination can be reviewed at: The 3D bone model created from this scan can be reviewed at: 
     
     

    1 download

       (0 reviews)

    0 comments

    Updated

  19. Free

    cardio - stl file processed

    cardio - stl file processed

    3 downloads

       (0 reviews)

    0 comments

    Updated

  20. Free

    Muscles of the right shoulder

    This 3D printable STL file contains a model of the right shoulder was derived from a real medical CT scan. It shows the pectoralis, deltoid, biceps, and triceps muscles, as well as musculature of the chest wall. 
    This model was created using the democratiz3D free online 3D model creation service.
     
    QIN-HN-01-0003

    20 downloads

       (0 reviews)

    0 comments

    Updated

  21. Free

    Muscles of the left shoulder

    This 3D printable STL file contains a model of the left shoulder was derived from a real medical CT scan. It shows the deltoid, pectoralis, triceps, and biceps muscles in great detail. Also, the muscles of the chest wall and ribs are also shown.
    This model was created using the democratiz3D free online 3D model creation service.
     
    QIN-HN-01-0003

    11 downloads

       (0 reviews)

    0 comments

    Updated

  22. Free

    Muscles and tendons of the shoulder in a 60 year old woman

    This 3D printable STL file contains a model of the muscles and tendons of the shoulder of a 60 year old woman was derived from a real medical CT scan. It shows the pectoralis muscles, deltoid, latissimus dorsi, and other muscles of the shoulder.

    This model was created using the embodi3D free online 3D model creation service.
    STS007

    11 downloads

       (0 reviews)

    0 comments

    Updated

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    • Hi Mike - starting with Cone beam CT files.  Will play with Hounsfield settings next time.  For this particular case I learned enough on Slicer and Meshmixer to get the job done. 
    • You are diving into the deep topic of medical imaging scans for 3D printing. I wrote a blog article on how to get the most out of your scan here. Take a look as it is very helpful.   3mm is not bad for a CT scan for 3D printing.  In order to understand why the radiology department created 3 mm slices, you need to understand how CT scans work. Modern CT scanners do not acquire data in slices. Rather, the acquisition is helical. The patient moves in the scanner on the Z axis at a fixed speed, while the x-ray tube spins around that axis during acquisition. As a result, relative to the body, the x-ray tube moves around like a helix, i.e. corkscrew. The raw data from this acquisition is stored in memory in the CT scanner. It is then reconstructed into flat slices that can be of any thickness anywhere from 0.5 mm to 5 mm.   Thinner slices are not always better however. There is a fixed number of x-ray photons that were acquired during the scan. When the slices are created after the fact, the data that those photons created is spread among the slices. If you have a lot of very thin slices then there are few photons per slice. Just like with a handheld camera when you shoot in low light, having a low number of photons results in a grainy image. The exact same things happen with a CT scanner. Thin slices tend to be very grainy and it can be difficult to detect abnormalities when the image quality is poor. Thicker slices on the other hand are fewer in number and have more photons per slice and thus are less grainy. Think of a nice photograph from a handheld camera on a bright sunny day. There are so many photons to make the image, the image is crystal clear. Thicker slices, while giving a higher quality image, are also thicker, and very small structures are harder to see.   Therefore, if you had a CT scan and reconstructed 0.5 mm slices, those images would be much grainier and of lower quality than if you had reconstructed with 5 mm slices. When the scan is being taken the radiologist determines what slice thickness is the best for diagnosing the problem at hand. If you're getting a CT scan of the abdomen for appendicitis, you will get 5 mm slices. If you have a problem with your middle tier and are getting a CT scan of the mastoid, you'll probably get 0.5 mm slices.   It should be noted that the raw data from the scan acquisition takes up a lot of memory. While the reconstructed slices are saved in the hospitals radiology system, the raw data from the scan is stored on the physical scanner itself. Typically after a few days that data is purged to make room for new scan data. So, after a few days it is not possible to generate any new slices from the scan, as the raw data has been purged.   My guess is that 3 mm slices is as good as you are ever going to be able to get from your scan. To reduce the stairstep artifact, run a smoothing algorithm on your model. This should reduce that appearance.   I hope this helps   Dr. Mike    
    • 1) Nothing in this forum should be considered medical advice. 2) The scan shows some extent of pectus excavatum. Heart is a bit displaced as a result. 3)  Evaluation of the heart itself is poor because the scan was not protocoled to examine the heart (i.e. no ECG gating). My guess is they were looking for PE, and there is no obvious one.   Good luck
    • If you increase the threshold value (150->250 Hounsfield units), that will tend to include less bone in the model. If decrease it, more bone will be included.    Just want to check -- are you starting with a CT or an MRI. CTs work better.   Hope this helps.   Dr. Mike
    • I use 3D slicer and the segmentation module. It takes a little time to get familiar with the tools, but they can be pretty powerful.   I just did this kidney yesterday, including the kidney tissue, renal collecting system, artery and vein.    FYI, we are building the ability to automatically segment organs into democratiz3D. Right now it only supports creation of bone models, but in the future auto segmentation of organs will be a feature.    Hope this helps,   Dr. Mike
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