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Female Head, whole, body, .stl, 3d, model, ct, scan, without, contrast, petrous, ridge, maxilla, mandible, pharynx, thorax, ribs, scapula, bone, neck, cervical, dorsal, lumbar, spine, sacrum, coccyx, foramina, intervertebral, disc, foramina, intervertebral, disc, head, humerus, chest, mediastinum, cardiac, ventricle, auricle, septum, rectum, sigmoid, hard, palate, nasal, muscle, pelvis, gluteus,Free
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Rotura de Glena, glenoid, shoulder, scapula, clavicle, neck, trochin, head, skull, ribs, lung, mediastinum, .stl, 3d, model, ct, scan, without, contrast, coronoid, process, glenohumeral, joint, upper, limb, dorsal, spine, intervertebral, disc, body, chest, ventricle, auricle, septum,Free
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hombro - 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. dorsal, spine, .stl, 3d, model, printable, ribs, scapula, clavicle, bone, humerus, head, neck, trochin, diaphysis, shoulder, acromion, acromioclavicular, joint,Free
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3D Free Scapula, Clavicle, and Humerus Models in 3D-Printable STL Format Shoulders are comprised of three main bones. These include humerus (bone in the upper arm), scapula (shoulder blade), and the clavicle, which we commonly refer to as the "collarbone." Bones of the shoulder work together with the transverse humeral ligament, synovial membrane of the bicep, bursa sac, and the superior transverse ligament to perform a complex range of motions. In fact, the shoulder has the most extended pivot range of any joint within the body. Your glenohumearal joint (shoulder) is a ball-and-socket joint that is able to move in so many positions due to the relatively small size of the glenoid fossa, as well as the laxity ("wiggle room") of the joint capsule. But, these features also make the shoulder prone to overuse injuries, subluxation, dislocation, and ligament tears. In this week's embodi3D® Top Ten, we are bringing you some of the best 3D scapula, clavicle, and humerus models which comprise the majority of the human shoulder joint. Before you dive into this week's Top 10 and start printing your own 3D anatomical models, you must first register with embodi3D®. It's absolutely free to sign up and you can take advantage of many of the features found on the embodi3D® website, including standard resolution democratiz3D® conversions. Register with embodi3D® today! Technologies like these were recently featured in the journal Société Internationale de Chirurgie Orthopédique et de Traumatologie (SICOT), where models of a 3D scapula, humerus, and soft tissues are being used in preoperative planning. If you are interested in uploading your CT scans and converting these to 3D-printable STL format, the democratiz3D® Quick Start Guide will help you to quickly get up and running. How Shoulders Achieve Their Range of Motion Flexion, extension, abduction, adduction, circumduction, medial rotation, and lateral rotation. * Flexion: Pectoralis major, deltoid, coracobrachialis, & biceps muscles * Extension: Deltoid & teres major muscles. – If against resistance, also latissimus dorsi & pectoralis major. * Abduction: Deltoid & supraspinatus muscles. – Subscapularis, infraspinatus, & teres minor exert downward traction – Supraspinatus contribution controversial * Medial rotation: Pectoralis major, deltoid, latissimus dorsi, & teres major muscles. – Subscapularis when arm at side * Lateral rotation: Infraspinatus, deltoid, & teres minor muscles. #1. An Incredible 3D Model of the Shoulder in STL Format This articulation is maintained by overlying soft tissue structures. The posterosuperior acromion process of the scapula provides one half of the AC joint. It also forms most of the osseous portion of the coracoacromial arch, the roof over the rotator cuff. The acromion process is connected to the body of the scapula by the spine. The osseous structures of the shoulder girdle are the clavicle, scapula, and humerus. Medially, the clavicle articulates with the manubrium of the sternum at the sternoclavicular (SC) joint. This joint serves as the only true articulation between the shoulder girdle and the axial skeleton. Laterally, the clavicle articulates with the acromion process of the scapula at the acromioclavicular (AC) joint #2. STL File Showing Scapular Notch and Shoulder Variations in the shape of the clavicle are considered normal and are not usually pathologic. These variations may range from an almost straight bone to one with exaggerated curves. Another variation of the clavicle that is present in 6-10% of the population is termed the canalis nervi supraclavicularis. In this variation, a foramen forms through the clavicle, and the medial supraclavicular nerve passes through this accessory osseous canal. The scapular notch varies in size and shape. The notch is bridged by the superior transverse scapular ligament. This ligament ossifies in 10% of patients, producing a bony foramen for the suprascapular nerve. #3. A 3D Model of the Shoulders of the Muscle Rotator cuff: 4 muscles arising on scapula and inserting on humerus * Supraspinatus: From supraspinatus fossa of scapula to greater tuberosity – Abducts humerus, also depresses humeral head. * Infraspinatus: From posterior surface of scapula to greater tuberosity. – Externally rotates humerus * Teres minor: From lateral border of scapula to greater tuberosity – Externally rotates humerus * Subscapularis muscle: From anterior surface of scapula to lesser tuberosity – Superficial fibers extend across to anterior margin of greater tuberosity as part of transverse ligament – Internally rotates, adducts humerus #4. 3D Model (STL Format) of the Muscles Connecting the Arm to Axial Skeleton 4. Various muscles also serve to connect the arm to the axial skeleton. Anteriorly, the pectoralis major and minor muscles extend from the sternum and clavicle to the proximal humeral shaft. Posteriorly, the latissimus dorsi muscle arises from the thoracic cage to attach onto the proximal humeral shaft. The great range of motion provided for by the glenohumeral joint is executed in large part by the muscles of the rotator cuff. The supraspinatus muscle arises superior to the scapular spine and attaches to the superior facet of the greater tuberosity. The more posterior infraspinatus muscle arises below the spine and inserts onto the posterior facet of the greater tuberosity. The teres minor muscle originates and inserts just caudal to the infraspinatus. The subscapularis muscle arises from the anterior scapular body to insert onto the lesser tuberosity. The long head of the biceps originates at the superior glenoid rim, passes through the rotator cuff interval at the anterosuperior glenohumeral joint, and then follows the bicipital groove between the tuberosities into the upper arm. The deltoid muscle has a broad origination along the lateral aspect of the acromion from anterior to posterior. It covers the lateral portion of the upper arm before inserting on to the lateral proximal humeral shaft at the deltoid tuberosity. #5. 3D Model of the Skin around the Shoulder, Arm, and Upper Chest A 3D model of the skin of the shoulder where the soft tissue of the shoulder and arm are shown. Trapezius: is responsible for the smooth contour of the lateral side of the neck and over the superior aspect of the shoulder. It can be seen and felt throughout its entirety when the shoulder girdles are retracted against resistance; the superior part can be palpated when the shoulders are elevated against resistance. Posterior axillary fold: is formed by the latissimus dorsi winding around the lateral border of the teres major muscle. Latissimus dorsi forms much of the muscle mass underlying the posterior axillary fold extending obliquely upward from the trunk to the arm. Teres major passes from the inferior angle of the scapula to the upper humerus and contributes to the fold laterally. Both muscles can be palpated on resisted shoulder adduction. Pectoralis major: can be seen and felt throughout its entire extent when it is contracted against resistance as in pressing the palm together in front of the body. Clavicular fibers can be felt if the shoulder is flexed against resistance to a position midway between flexion and extension, while the sternocostal fibers can be felt if the shoulder is extended against resistance starting in a flexed position. The inferior border of the pectoralis major muscle forms the anterior axillary fold. Deltoid: forms the muscular eminence inferior to the acromion and around the glenohumeral joint. The anterior, middle, and posterior fibers of the deltoid can be palpated. When the arm is abducted against resistance, the anterior border of the deltoid can be felt. The clavipectoral triangle (deltopectoral triangle) is the depressed area just inferior to the lateral part of the clavicle, bounded by the clavicle superiorly, the deltoid laterally, and the clavicular head of the pectoralis major medially. #6. CT Scan Showing a Fracture in the Proximal Humeral A computed tomography (CT) is recommended for complex fracture situations although those situations were not clearly defined. Therefore, precise indications for CT in proximal humeral fractures are not established. #7. Connection of Scapula, Humerus, and Clavicle Shown in 3D STL File The scapula is a spade-shaped bone comprised of a thin triangular body and a semi-ovoid cavity known as the glenoid fossa (glenoid cavity). The glenoid fossa faces lateral and slightly anterior and cranial. A bony spine runs across the dorsal surface of the scapular body and terminates in the acromion. The scapula articulates with two bones, the humerus and clavicle. The scapula does not directly contact the bony rib cage: the two structures are separated by muscle and other soft tissue. #8. Right Shoulder Injury Revealed by CT Scan On CT acute trauma may result of bony, labral, ligamentous or musculotendinous damage. The shoulder may be injured following repetitive injury or as part of systemic inflammatory conditions or infection. Moreover, the bones around the shoulder may be affected by benign or malignant bony lesions, and associated pathological fracture. #9. Right Shoulder with Pleomorphic Spindle Cell Sarcoma (3D-Printable STL File) Pleomorphic sarcoma composed of fibroblasts, myofibroblasts and histiocyte-like cells. Historically considered the most common adult soft tissue sarcoma. Usually older adults (age 50+ years) with slight male predominance; more common in lower extremities, rarely retroperitoneum, head and neck, breast. Large and deep-seated with progressive enlargement. Sarcomas adjacent to orthopedic implants or post-radiation are usually osteosarcoma or MFH. #10. 3D-Printable Model of Right Shoulder Bones The humerus is the large single bone of the upper arm. Proximally, it articulates with the glenoid fossa of the scapula forming the glenohumeral joint. The humeral head is large and globular. Just ventral to the articular surface is the lesser tubercle, where the subscapularis attaches. Lateral to the articular surface is the greater tubercle. The rotator cuff muscles of the shoulder insert on the proximal humerus. References 1. Manaster, B. J., & Crim, J. R. (2016). Imaging Anatomy: Musculoskeletal E-Book. Elsevier Health Sciences. 2. Bahrs, C., Rolauffs, B., Südkamp, N. P., Schmal, H., Eingartner, C., Dietz, K., ... & Helwig, P. (2009). Indications for computed tomography (CT-) diagnostics in proximal humeral fractures: a comparative study of plain radiography and computed tomography. BMC musculoskeletal disorders, 10(1), 33. 3. Duke University Medical School - Anatomy. (2018). Web.duke.edu. Retrieved 4 August 2018, from https://web.duke.edu/anatomy/ 4. Shoulder Joint Anatomy: Overview, Gross Anatomy, Microscopic Anatomy. (2018). Emedicine.medscape.com. Retrieved 4 August 2018, from https://emedicine.medscape.com/article/1899211-overview#a1 5. The Radiology Assistant : Shoulder MR - Anatomy. (2012). Radiologyassistant.nl. Retrieved 4 August 2018, from http://www.radiologyassistant.nl/en/p4f49ef79818c2/shoulder-mr-anatomy.html -
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skull 5th attempt, whole, body, chest, sternum, ribs, bone, lung, mediastinum, arch, aortic, descendent, ascendent, pulmonary, trunk, shoulder, scapula, clavicle, lumbar, spine, .stl, 3d, model, printable, knee, lower, limb, femur, tibia, fibula, quadriceps, muscles, vastus, medialis, lateralis, abdomen, small, bowel, kidneys, liver, spleen aorta, psoas, iliac, iliacus, pelvis, hip, acetabulum, head, neck, trochanter, dorsal, ct, scan, without, contrast,Free
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TOP TEN THE MOST DOWNLOAD SHOULDER 3D MODEL
Angel Sosa posted a blog entry in Best embodi3d.com Medical and Anatomic Files
The upper extremity is connected to the axial skeleton and thoracic cage by the shoulder girdle. The unique arrangement of the skeletal and soft tissue structures of the shoulder allows for the greatest range of motion of any joint in the human body. For these same reasons, the shoulder joint is the least stable of all joints making it prone to dislocation and instability. The glenohumearal joint has a greater range of motion than any other joint in the body. The small size of the glenoid fossa and the relative laxity of the joint capsule renders the joint relatively unstable and prone to subluxation and dislocation. Range of motion: Flexion, extension, abduction, adduction, circumduction, medial rotation, and lateral rotation. * Flexion: Pectoralis major, deltoid, coracobrachialis, & biceps muscles * Extension: Deltoid & teres major muscles. – If against resistance, also latissimus dorsi & pectoralis major. * Abduction: Deltoid & supraspinatus muscles. – Subscapularis, infraspinatus, & teres minor exert downward traction – Supraspinatus contribution controversial * Medial rotation: Pectoralis major, deltoid, latissimus dorsi, & teres major muscles. – Subscapularis when arm at side * Lateral rotation: Infraspinatus, deltoid, & teres minor muscles. 1. 2. The osseous structures of the shoulder girdle are the clavicle, scapula, and humerus. Medially, the clavicle articulates with the manubrium of the sternum at the sternoclavicular (SC) joint. This joint serves as the only true articulation between the shoulder girdle and the axial skeleton. Laterally, the clavicle articulates with the acromion process of the scapula at the acromioclavicular (AC) joint 3. 4. 5. 6. 7. 8. 9. 10. -
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nov tissue - 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. whole, body, .stl, 3d, model, printable, muscle, frontal, temporal, parietal, occipital, mandible, chest, thorax, upper, limb, shoulder, abdomen, quadriceps, lower,thigh, knee, gluteus, neck, back,Free
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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
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Top 10 Muscle Anatomy Models Uploaded to embodi3D® Muscles of the human anatomy form an amazingly quilted patchwork that allow us to do, well whatever is we do. There are muscles that allow us to perform intricate tasks, such as finagling with a screw to fix eyeglasses, or paint a highly detailed portrait. Then there are those muscles that allow us to run, swing a bat, and don't forget the cardiac muscle, which helps supply the blood necessary to complete all these tasks. Long before the days of Da Vinci, the human musculature has long fascinated medically minded individuals. Through 3D printing, medical students are discovering a new way to create muscle anatomy models and gain more hands-on knowledge of the human musculoskeletal system. From Da Vinci's "Vitruvian Man" to 3D-printable muscles, we continue to expand our understanding of the human anatomy. Although learning of complex geometries in human anatomy has been facilitated with 3D three-dimensional visualization methods and novel educational applications, there is little dispute that physical models provide an optimal method of learning human anatomy. While 3D printing is quickly becoming the new norm, it's amazing to think that just a few short years ago ScienceDaily was heralding the arrival of 3D-printed anatomical parts for the purpose of medical training. On the embodi3D® website, we now have a number of subcategories exploring human musculature in 3D-printable STL files. Become a Registered embodi3D® Member — It's Absolutely Free to Join! This week, we want to share the most amazing 3D-printed muscle models. But, before you begin uploading, converting, and printing muscle models from your own CT scans (and others), you need to become a registered member of the embodi3D® community. It is absolutely free to join and you will have access to many of the most popular tools and algorithms. 1. An Excellent Muscle 3D Model of the Human Foot Dr. Mike uploaded this amazing CT scan-converted STL file in the Extremity, Lower (Leg) Muscles form. This is an incredible 3D model of the foot showing with exquisite detail the following structures excellent for education purposes: Interosseous muscles: extensor digiti II muscle (tendon), flexor digitorum longus muscle (tendon), Adductor hallucis muscle (transverse head), lumbrical muscle, dorsal tarsal ligaments, adductor hallucis muscle, peroneus (fibularis) longus muscle (tendon), flexor digitorum brevis muscle, extensor digitorum longus muscle (tendon), tibia, abductor digiti minimi muscle, flexor hallucis longus muscle (tendon), calcaneus and Achilles’ tendon (calcaneal tendon). 2. Left Thigh Muscle with Myxoid Fibrosarcoma Shown in a 3D Model This model is the right foot and ankle 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. Laterally, the peroneus brevis and tertius attach on the proximal fifth metatarsal to evert the foot. The peroneus longus courses under the cuboid to attach on the plantar surface of the first metatarsal, acting as the primary plantarflexor of the first ray and, secondarily, the foot. Together, these muscles also assist in stabilizing the ankle for patients with deficient lateral ankle ligaments from chronic sprains. Medially, the posterior tibialis inserts on the plantar aspect of the navicular cuneiforms and metatarsal bases, acting primarily to invert the foot and secondarily to plantarflex the foot. The flexor hallucis longus inserts on the base of the distal phalanx of the great toe to plantarflex the great toe, and the flexor digitorum inserts on the bases of the distal phalanges of the lesser four toes, acting to plantarflex the toes. The gastrocnemius inserts on the calcaneus as the Achilles tendon and plantarflexes the foot. Anteriorly, the tibialis anterior inserts on the dorsal medial cuneiform and plantar aspect of the first metatarsal base as the primary ankle dorsiflexor and secondary inverter. The Extensor hallucis longus and extensor digitorum longus insert on the dorsal aspect of the base of the distal phalanges to dorsiflex the great toe and lesser toes, respectively. 3. A 3D Model Showing the Musculature of the Human Femur and Tibia The knee is one of the largest and most complex joints in the body. The knee joins the thigh bone (femur) to the shinbone (tibia). The smaller bone that runs alongside the tibia (fibula) and the kneecap (patella) are the other bones that make the knee joint. Is also formed by some ligaments and cartilage called (menisci) which are best imaged by MRI. 4. An Amazing CT Scan-Converted 3D-Printable Model of the Legs A detailed 3D printable model of the musculature of the legs was derived from the CT scan of a 22 year old female. It shows all major muscle groups: Sartorius, tensor fasciae latae, gluteus maximus, medius, gemellus muscles, quadratus femoris, obturator internus, semitendinosus, semimembranosus, biceps femoris, peroneus group: peroneus brevis (fibularis brevis), peroneus longus (fibularis longus), quadriceps: rectus femoris Vastus lateralis, medialis, and intermedius. 5. Hand and Wrist Muscles in a 3D-Printable Format An excellent 3D model of the hand and wrist showing the following muscles 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 6. 3D-Printable Model of a Woman's Chest, Abdomen, and Pelvis A 3D model of the muscles of a woman's whole body: chest, abdomen and pelvis with exquisite detail of latissimus dorsi muscle, subscapularis muscle, pectoralis minor muscle, pectoralis major muscle, sternum, intercostal muscles, teres major muscle, infraspinatus muscle, scapula, rhomboid major muscle, ribs, trapezius muscle, erector spinae muscle, gluteus maximus, medius, thoracolumbar fascia, rectus abdominis muscle, external oblique muscle and breasts. 7. A 3D-Printable Model of a Human Torso (Converted from a Real Medical CT Scan) This is a 3D printable model of the torso, neck, and arms derived from a real medical CT scan and shows anatomic structures in great detail. Similar uploads can also be found in an embodi3D® forum showcasing the muscles of the abdomen and pelvis. 8. Using a 3D Model to Show the Muscles of the Hip Joint The muscles of the hip joint are those muscles that cause movement in the hip. Most modern anatomists define 17 of these muscles, although some additional muscles may sometimes be considered. These are often divided into four groups according to their orientation around the hip joint: the gluteal group, the lateral rotator group, the adductor group, and the iliopsoas group. For example the gluteal muscles include the gluteus maximus, gluteus medius, gluteus minimus, and tensor fasciae latae. They cover the lateral surface of the ilium. The gluteus maximus, which forms most of the muscle of the buttocks, originates primarily on the ilium and sacrum and inserts on the gluteal tuberosity of the femur as well as the iliotibial tract, a tract of strong fibrous tissue that runs along the lateral thigh to the tibia and fibula. The gluteus medius and gluteus minimus originate anterior to the gluteus maximus on the ilium and both insert on the greater trochanter of the femur. The tensor fasciae latae shares its origin with the gluteus maximus at the ilium and also shares the insertion at the iliotibial tract. 9. 3D-Printable STL File of Left Pelvic Region, as Converted from a CT Scan This is a 3D printable medical file converted from a CT scan DICOM dataset of a 68-year old male presented by a swelling at the posterior aspect of the left pelvic region (notice the contour bulge at the posterior aspect of the left side). Histopathological examination revealed the swelling to be leiomyosarcoma of intermediate grade of malignancy. Soft tissue sarcoma is a rare type of cancer that begins in the tissues that connect, support and surround other body structures. This includes muscle, fat, blood vessels, nerves, tendons and the lining of your joints. More than 50 subtypes of soft tissue sarcoma exist. Some types are more likely to affect children, while others affect mostly adults. These tumors can be difficult to diagnose because they may be mistaken for many other types of growths. A soft tissue sarcoma may not cause any signs and symptoms in its early stages. As the tumor grows, it may cause: A noticeable lump or swelling Pain, if a tumor presses on nerves or muscles 10. Using 3D-Printed Muscle Models for Oncological Purposes This 3D model represents a case of undifferentiated pleomorphic spindle cell sarcoma implicating the right parascapular region of a 61 years old male. The patient represented with lung metastasis and was treated by surgical excision follower by chemotherapy as well as radiotherapy. A cross sectional CT image is attached showing the lesion in axial, coronal and sagittal planes. Undifferentiated pleomorphic sarcoma (UPS), formerly referred to as malignant fibrous histiocytoma, is a type of soft tissue cancer. The word "undifferentiated" in undifferentiated pleomorphic sarcoma means that the cells don't resemble the body tissues in which they develop. The cancer is called pleomorphic (plee-o-MOR-fik) because the cells grow in multiple shapes and sizes. While sarcomas are not common tumors, they do represent one of the most common soft tissue malignancies in adults. Soft tissue sarcomas can develop in blood vessels and in deep skin, fat, muscle, fibrous or nerve tissues. References 1. Smith, M. L., & Jones, J. F. (2018). Dual‐extrusion 3D printing of anatomical models for education. Anatomical sciences education, 11(1), 65-72.
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remod, ct, scan, without, contrast, axial, dicom, head, neck, frontal, temporal, parietal, occipital, petrous, ridge, foramina, clivus, paranasal, sinuses, lobes, mastoid, apophysis, inner, ear, orbit, eyeball, shoulder, upper, limb, .stl, 3d, model, printable, humerus, scapula, clavicle, elbow, radius, cubitus, heart, mediastinum, lung, ribs, dorsal, cervical, lumbar, spine, sacrum, coccyx, hip, liver, spleen, gallbladder, urinary, bladder, psoas, small, bowel, colon, sigmoid, rectum, perineum, without, contrast, femur, tibia, fibula, sternum, knee,Free
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skin - 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. whole, body, skin, head, neck, thorax chest, abdomen, upper, lower, limbs, elbow, shoulder, back, thigh, knee, ankle, hip, pelvis, 3d, model, .stl, printable,Free
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ct, scan, without, contrast, 3d, model, bone, axial, dicom, thorax, aorta, pulmonary, trunk, bronchi, mediastinum, heart, ventricle, septum, muscle, ribs, dorsal, lumbar, spine, transverse, intervertebral, disc, lung, muscles, shoulder, sternum, clavicle, scapulaFree
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ct, scan, without, contrast, 3d, model, bone, axial, dicom, thorax, aorta, pulmonary, trunk, bronchi, mediastinum, heart, ventricle, septum, muscle, ribs, dorsal, lumbar, spine, transverse, intervertebral, disc, lung, muscles, shoulder, sternum, clavicle, scapulaFree
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Nico - 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. spine, 3d, model, .stl, bone, atlas, axis, neck, shoulder, printable, skin, vessels,Free
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Nico - 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. cervical, spine, skin, axis, transversus, neck, shoulder, lung, clavicle, 3d, model, .stl, printable, chest, boneFree
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this is a liver, stl, stomach, liver, spleen, ct, scan, with, contrast, kidney, mediastinum, heart, lung, upper, limb, shoulder, ribs, thorax, chest, diaphragm, small, bowel, colon, rectum, sigmoid, breast, dorsal, lumbar, spine, transverse, spinous, right, effusion, aorta, abdomen, pelvis, psoas, muscle, bone, porta, 3d, model, printable,Free
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dem liver, .stl, stomach, liver, spleen, ct, scan, with, contrast, kidney, mediastinum, heart, lung, upper, limb, shoulder, ribs, thorax, chest, diaphragm, small, bowel, colon, rectum, sigmoid, breast, dorsal, lumbar, spine, transverse, spinous, right, effusion, aorta, abdomen, pelvis, psoas, muscle, bone, porta, 3d, model, printable,Free
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instructable 3D model of shoulder - 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. shoulder, .stl, printable, acromion, upper, limb, scapula, spine, ribs, humerus, diaphysis, clavicle, 3d, model, bone,Free
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Aortic annulectasia - 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. Annuloaortic ectasia, sternum, chest, thorax, bone, 3d, model, .stl, printable, heart, coracoid, process, shoulder, upper, limb, dorsal, spineFree
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all skin - 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. face, skin, maxillofacial, eye, eyelid, orbit, nasal, spine, lips, mandible, ramus, angle, neck, occipital, frontal, temporal, parietal, breast, chest, dorsal, back, shoulder, auditory, conduct, external, 3d, model, printable, .stl,Free
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Version 1.0.0
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august scans - bone, axial dicom, orbit, eyeball, mandible, angle, ramus, mastoid, process, atlas, cervical, spine, bone, .stl, intervertebral, disc, sphenoid, paranasal, sinuses, petrous, ridge, pterygoid, neck, clinoid, apophysis, foramina, ct, scan, with, contrast, carotid, vertebral, cerebral, media, anterior, posterior, thyroid, gland, trachea, esophagus, larynx, pharynx, aorta, arch, ascendent, descendent, clivus, cava, vein, clavicle, shoulder, head, humeral, occipital, temporal, parietal, frontal, ethmoid, tongue, infrahyoid, suprahyoid , muscle, sternocleidomastoid, temporomandibular, joint, axilar, suprascapularis, basilar, willis, polygon, cisterns, cerebelliFree
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Version 1.0.0
4 downloads
test_shoulder - 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. Clavicle, Acromion, Coracoid process, Superior angle, Spine of the scapula, Humeral head, Articular surface, Lateral process (neck) of the scapula, Medial margin, Lateral margin, Inferior angle, 3D model, stl, bone, humerus, diaphysis, scapula, shoulder,Free
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Version 1.0.0
0 downloads
mama_1 - 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, pectoralis, serratus, major, minor, shoulder, deltoid, muscle, thorax, chest, wall,Free
