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  • Welcome to embodi3D Downloads! This is the largest and fastest growing library of 3D printable anatomic 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.

     

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Skeletal tumors, fractures and bony pathology

Tumors, fractures and pathology of the bones.

83 files

  1. $30

    3D Teeth and Mouth Model

    This tooth brushing model provides a highly detailed and anatomically accurate representation of the human teeth, gums, and oral cavity, designed to demonstrate proper brushing techniques and oral hygiene practices. 
     
    It features a full set of teeth, including incisors, canines, premolars, and molars, along with realistic gum structure, allowing for a clear visualization of brushing angles and motions. The model is accompanied by an oversized toothbrush, making it easy to demonstrate effective cleaning methods for different areas of the mouth. 
     
    Designed for educational and clinical purposes, this model is an invaluable tool for teaching oral hygiene, promoting preventive dental care, and demonstrating techniques for brushing and flossing. 
     
    Ideal for dentists, dental hygienists, educators, and students, it supports training and patient education by providing a hands-on approach to learning proper oral care habits and preventing dental conditions such as cavities, gingivitis, and periodontal disease.

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  2. $28

    3D Relief Model of the Ovary

    This 3D relief model of the ovary provides a highly detailed and anatomically accurate representation of the female reproductive organ. It highlights key structures, including the ovarian cortex, medulla, follicles at various stages of development, corpus luteum, and corpus albicans, offering a clear visualization of the ovary’s role in egg production and hormone secretion. The model also illustrates blood vessels and connective tissues, demonstrating their role in nourishing and supporting ovarian function. 
     
    Designed for educational and clinical purposes, this model is an invaluable tool for studying female reproductive anatomy, understanding ovulation and hormonal cycles, and visualizing conditions such as ovarian cysts, polycystic ovary syndrome (PCOS), and tumors. 
     
    Ideal for medical professionals, educators, and students, it supports teaching, training, and patient education by providing a hands-on approach to exploring ovarian structure and function.

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  3. $28

    3D Malpighian Corpuscle Of Kidney Anatomy Model

    This 3D model of the Malpighian corpuscle of the kidney provides a highly detailed and anatomically accurate representation of the renal corpuscle, the initial filtering unit of the nephron. 
    It highlights key structures, including the glomerulus, Bowman’s capsule, afferent and efferent arterioles, and the surrounding capillary network, offering a clear visualization of the filtration process that initiates urine formation. The model effectively demonstrates the intricate interactions between blood flow and filtration membranes, showing how waste products and excess fluids are separated from the blood. 
     
    Designed for educational and clinical purposes, this model is an invaluable tool for studying renal anatomy, understanding kidney filtration mechanisms, and visualizing conditions such as glomerulonephritis, diabetic nephropathy, and hypertension-related kidney damage. 
     
    Ideal for medical professionals, educators, and students, it supports teaching, training, and patient education by providing a hands-on approach to exploring the microscopic structure and function of the kidney’s filtration system.

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  4. $30

    3D Intestinal Villi Anatomy Model

    This 3D intestinal villi anatomy model provides a highly detailed and anatomically accurate representation of the microscopic structures lining the small intestine. It highlights key features such as villi, microvilli, goblet cells, capillaries, and lacteals, offering a clear visualization of nutrient absorption and transport processes.
    The model effectively demonstrates the specialized structure of the intestinal lining, including the mucosal and submucosal layers, to show how it maximizes surface area for efficient digestion and absorption.
     
    Designed for educational and clinical purposes, this model is an invaluable tool for studying digestive system anatomy, understanding nutrient absorption, and visualizing conditions such as celiac disease, malabsorption syndromes, and intestinal inflammation.
     
    Ideal for medical professionals, educators, and students, it supports teaching, training, and patient education by providing a hands-on approach to exploring the structure and function of the small intestine at the microscopic level.

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  5. $35

    3D Microanatomy Model of Digestive System

    This 3D model of nephron anatomy provides a highly detailed and anatomically accurate representation of the functional unit of the kidney. It highlights key structures, including the glomerulus, Bowman’s capsule, proximal and distal tubules, loop of Henle, collecting ducts, and associated blood vessels, offering a clear visualization of the filtration, reabsorption, and secretion processes involved in urine formation.
     
    The model effectively demonstrates the nephron’s role in maintaining fluid and electrolyte balance, regulating blood pressure, and removing waste products from the blood. 
     
    Designed for educational and clinical purposes, this model is an invaluable tool for studying renal physiology, understanding kidney function, and visualizing conditions such as glomerulonephritis, acute kidney injury, and chronic kidney disease. Ideal for medical professionals, educators, and students, it supports teaching, training, and patient education by providing a hands-on approach to exploring the microanatomy and function of the nephron.

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  6. $28

    3D Model of Nephron Anatomy

    This 3D model of nephron anatomy provides a highly detailed and anatomically accurate representation of the functional unit of the kidney. It highlights key structures, including the glomerulus, Bowman’s capsule, proximal and distal tubules, loop of Henle, collecting ducts, and associated blood vessels, offering a clear visualization of the filtration, reabsorption, and secretion processes involved in urine formation. 
     
    The model effectively demonstrates the nephron’s role in maintaining fluid and electrolyte balance, regulating blood pressure, and removing waste products from the blood. 
    Designed for educational and clinical purposes, this model is an invaluable tool for studying renal physiology, understanding kidney function, and visualizing conditions such as glomerulonephritis, acute kidney injury, and chronic kidney disease. Ideal for medical professionals, educators, and students, 
    it supports teaching, training, and patient education by providing a hands-on approach to exploring the microanatomy and function of the nephron.

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  7. $35

    3D Model of Kidney Microanatomy

    This 3D model of kidney microanatomy provides a highly detailed and anatomically accurate representation of the internal structure of the kidney at a microscopic level. It highlights key components, including the nephron, glomerulus, Bowman’s capsule, proximal and distal tubules, collecting ducts, and blood vessels, offering a clear visualization of the kidney’s filtration and absorption processes. The model effectively demonstrates the intricate pathways involved in urine formation, fluid balance, and waste removal. 
     
    Designed for educational and clinical purposes, this model is an invaluable tool for studying renal anatomy, understanding kidney function, and visualizing conditions such as nephritis, kidney stones, and renal failure. Ideal for medical professionals, educators, and students, it supports teaching, training, and patient education by providing a hands-on approach to exploring the kidney’s microstructure and its vital role in maintaining homeostasis.

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  8. $35

    3D Model of 4-Piece Vein Cross Section Anatomy

    This 3D model of a 4-piece vein cross-section provides a highly detailed and anatomically accurate representation of vein structure and function.
     
    It illustrates the layered composition of veins, including the tunica intima, tunica media, and tunica externa, along with venous valves that prevent the backflow of blood. The model effectively demonstrates the differences in vein wall thickness and elasticity compared to arteries, highlighting their role in returning deoxygenated blood to the heart.
     
    Designed for educational and clinical purposes, this 4-piece model allows for a step-by-step exploration of vein anatomy, making it ideal for studying vascular structure, blood flow dynamics, and conditions such as varicose veins, thrombosis, and venous insufficiency.
     
    It is perfect for medical professionals, educators, and students, providing a hands-on approach to teaching, training, and patient education about the circulatory system and vascular health.

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  9. $35

    3D Model Aging Skin, Hair Loss and Normal Skin

    This 3D model of aging skin, hair loss, and normal skin anatomy provides a highly detailed and anatomically accurate representation of the structural changes in skin as it ages. It highlights the differences between youthful, healthy skin and aging or hair-loss-affected skin, showcasing layers of the epidermis, dermis, and hypodermis, along with hair follicles, sebaceous glands, sweat glands, and blood vessels. 
     
    The model effectively demonstrates key features such as collagen loss, thinning skin, reduced elasticity, and hair follicle shrinkage, offering insights into the physiological processes of aging and hair loss. 
     
    Designed for educational and clinical purposes, this model is an invaluable tool for studying skin anatomy, understanding age-related changes, and visualizing conditions such as hair thinning, wrinkles, and skin disorders. 
     
    Ideal for medical professionals, educators, dermatologists, and students, it supports teaching, training, and patient education by providing a hands-on approach to exploring skin health, aging, and treatments for hair and skin conditions.

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  10. $35

    3D Animal Cell Structure Model

    This 3D model of animal cell structure provides a highly detailed and anatomically accurate representation of the internal components of a typical animal cell. It highlights key organelles, including the nucleus, nucleolus, mitochondria, endoplasmic reticulum (smooth and rough), Golgi apparatus, lysosomes, ribosomes, and centrioles, offering a clear visualization of their organization and functions within the cell. The model also illustrates the plasma membrane and cytoplasm, showcasing the dynamic processes involved in cellular activity. 
     
    Designed for educational and scientific purposes, this model is an excellent tool for studying cell biology, understanding cellular processes such as protein synthesis, energy production, and waste removal, and visualizing cellular structures in detail. Ideal for biology teachers, students, and researchers, it supports teaching, training, and learning with a hands-on approach to exploring the anatomy and functions of an animal cell.

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  11. $35

    Anatomy Lab Skin, Nail and Hair Structure Anatomy Model

    This 3D anatomy lab model of skin, nail, and hair structure provides a highly detailed and anatomically accurate representation of the integumentary system. It highlights the multiple layers of skin, including the epidermis, dermis, and hypodermis, as well as associated structures such as hair follicles, sebaceous glands, sweat glands, and nerve endings. 
    The model also features the anatomy of nails, showcasing the nail plate, nail bed, cuticle, and matrix, along with hair structure components like the root, shaft, and bulb. 
     
    Designed for educational and clinical purposes, this model is an excellent tool for studying skin histology, understanding hair and nail growth, and visualizing conditions such as acne, folliculitis, and nail disorders. 
     
    Ideal for medical professionals, educators, and students, it supports teaching, training, and patient education by providing a hands-on approach to learning about the structure, function, and physiology of the skin, nails, and hair.

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  12. $49.99

    Human Bone Microstructure with Long Bone Osteon

    This 3D model of human bone microstructure with a long bone osteon provides a highly detailed and anatomically accurate representation of the microscopic features of bone tissue. It highlights key structures such as osteons, Haversian canals, Volkmann's canals, lamellae, lacunae, and canaliculi, offering a clear visualization of bone organization and nutrient transport pathways.
     
    The model effectively demonstrates the compact bone structure, showing how osteons support strength and durability while facilitating blood flow and cellular communication.
    Designed for educational and clinical purposes, this model is an exceptional tool for studying bone histology, understanding bone remodeling and growth, and visualizing conditions such as osteoporosis, fractures, and metabolic bone diseases.
     
    Ideal for medical professionals, educators, and students, it supports teaching, training, and patient education by providing a hands-on approach to exploring the microanatomy of human bone and its functional components.

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  13. $35

    Human Muscle Micro Anatomy Model

    This 3D model of human muscle microanatomy provides a highly detailed and anatomically accurate representation of muscle tissue at the microscopic level. It highlights the structural organization of skeletal muscle fibers, including key components such as fascicles, muscle fibers, myofibrils, sarcomeres, and connective tissues. 
    The model effectively demonstrates the hierarchical arrangement of muscle tissue, showcasing elements like endomysium, perimysium, and epimysium, along with the structure of actin and myosin filaments involved in muscle contraction. 
     
    Designed for educational and clinical purposes, this model is an invaluable tool for studying muscle histology, understanding muscle function and contraction, and exploring conditions such as muscular dystrophy, myopathy, and muscle injuries. 
     
    Ideal for medical professionals, educators, and students, it supports teaching, training, and patient education by providing a hands-on approach to learning about the microscopic structure and function of human muscle tissue.

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  14. $35

    Microanatomy Bone Structure Anatomy Model

    This 3D model of microanatomy bone structure provides a highly detailed and anatomically accurate representation of the microscopic features of bone tissue. It highlights key structural components, including compact bone, spongy bone, osteons, Haversian canals, Volkmann's canals, and trabeculae, offering a clear visualization of bone organization and function. 
     
    The model effectively demonstrates the arrangement of bone cells, blood vessels, and nutrient pathways, making it an excellent tool for understanding bone strength, growth, and repair. 
     
    Designed for educational and clinical purposes, this model is ideal for studying bone histology, exploring bone remodeling, and visualizing conditions such as osteoporosis, fractures, and metabolic bone diseases. 
     
    It is perfect for medical professionals, educators, and students, supporting teaching, training, and patient education with a hands-on approach to learning about the microscopic structure and function of bone tissue.

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  15. $35

    3D Model of Deluxe Osteoporosis Anatomy

    This 3D model of deluxe osteoporosis anatomy provides a highly detailed and anatomically accurate representation of bone structure affected by osteoporosis. It highlights both healthy and osteoporotic bone tissue, offering a side-by-side comparison to demonstrate the loss of bone density, porosity, and structural integrity associated with the condition. The model effectively illustrates how osteoporosis weakens bones, making them more susceptible to fractures and deformities. 
     
    Designed for educational and clinical purposes, this model is an invaluable tool for studying bone anatomy, understanding the progression of osteoporosis, and visualizing its impact on skeletal health. It is ideal for medical professionals, educators, and students, supporting teaching, training, and patient education about bone health, prevention, and treatment options. Its realistic design enhances comprehension of bone degeneration, promoting awareness of osteoporosis-related risks and care strategies.

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  16. $15

    3D printed pelvic sarcoma and cutting guide 2

    This is an Ewing sarcoma of the right pelvis, reconstructed from CT and MRI scans with a cutting guide. The tumor barely reached the hip joint.
    bone, sarcoma, pelvic, pelvis, tumor, cancer, ewing, hip, surgical guide, anatomy, surgery, orthopedics, cutting guide

    0 downloads

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  17. $15

    3D printed pelvic sarcoma and cutting guide 3

    This is an Ewing sarcoma of the right pelvis, reconstructed from CT and MRI scans, accompanied by a cutting guide.

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  18. $15

    Femoral osteosarcoma and cutting guide 2

    A patient suffers from femoral osteosarcoma. CT scans and MRI reconstruct a 3D bone and tumor model. The surgical guide is designed with a safe margin of 1.5 to 2 cm from the tumor and preserves the two condyles.

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  19. $7

    3D printed pelvic sarcoma

    This is a 3D reconstruction of Ewing sarcoma in the pelvis, based on CT and MRI imaging, and printed using transparent resin.

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  20. $15

    Femoral sarcoma and surgical guide

    This is a case of sarcoma in the femoral bone. We have designed upper and lower cutting guides with a margin of 7 to 15 mm to preserve the femoral condyles. The tumor (highlighted in red) is resected, treated with liquid nitrogen, and then re-implanted into the patient.

    0 downloads

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  21. Free

    Bone fracture

    Fracture on the 5th metacarpal

    15 downloads

       (0 reviews)

    0 comments

    Updated

  22. Free

    test - stl file processed

    test - 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.

    1 download

       (0 reviews)

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    Submitted

  23. Free

    163225 bis - stl file processed

    163225 bis - 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, bone, printable, bone, screw,

    4 downloads

       (0 reviews)

    0 comments

    Updated

  24. Free

    151714 - stl file processed

    151714 - 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, bone, printable, bone, screw,

    5 downloads

       (0 reviews)

    0 comments

    Updated

  25. Free

    155921 - stl file processed

    155921 - 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, bone, printable, bone, 

    4 downloads

       (0 reviews)

    0 comments

    Updated


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    • Choosing a 3D printer within your budget of 1000€ that can handle both small and large prints can be a bit challenging, If you frequently need to print items larger than 50cm x 50cm, a larger printer like the Creality CR-10 V3 or Artillery Sidewinder X1 would be more suitable.If you're willing to assemble larger items and value detail for smaller prints, a smaller but high-quality printer like the Prusa i3 MK3S+ could be a better choice.Remember to also factor in the cost of filament, especially if you plan on printing a lot, as this can add up over time. In addition, I would like to recommend PLA filament to you,PLA is an easy-to-print biodegradable material that is affordable, although it has lower strength and heat resistance. However, it remains a cost-effective choice for some medical modeling and non-implant medical product printing.
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