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National Institute of Allergy and Infectious Disease
NIH 3D
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NIH3D

Human Kidney Model 3D

Created by
Johnson J
Created:
3/12/26
Submitted:
3/12/26
Published:
3/12/26
thehuman_kidney
thehuman_kidneythehuman_kidney.

Select an image below to view

thehuman_kidney
3DPX-023373

Licensing:

Public Domain
How to cite this NIH 3D entry
44
41
Version 1

Category

Anatomy
Anatomy
Description

This 3D model, copyrighted by Hyes in 2022, provides an exceptionally detailed and accurate representation of the human kidney, a vital organ in the urinary system responsible for filtration and homeostasis. Created using the innovative methodology described in Human Kidney Model 3D, it integrates high-resolution data from microscope volume datasets to achieve unparalleled anatomical precision.

Key Features

  • Macroscopic Anatomy: The model vividly depicts the kidney's primary gross anatomical regions, including the renal cortex, renal medulla, renal pyramids, major and minor calyces, and the renal pelvis leading into the ureter.

  • Microscopic Details: Beyond gross anatomy, the model showcases intricate microscopic features, including nephrons (the functional units of the kidney), the glomerulus (responsible for blood filtration), and the complex network of renal tubules (which manage reabsorption and secretion).

  • Integrated Perspective: This integration of macro- and micro-perspectives offers a comprehensive view of renal anatomy and histology, illustrating how blood is filtered to produce urine.

Design and Purpose

By transforming complex microscopic data into a tangible, three-dimensional form, this 3D printed model enables hands-on exploration, enhancing spatial understanding of the kidney's structure and function. Its unique design, rooted in advanced imaging techniques, makes it an invaluable tool for multiple audiences:

  • Medical Students: Facilitates the learning of urinary system anatomy and the complex spatial arrangement of the nephron.

  • Researchers: Support detailed study of renal physiology, filtration mechanics, and pathologies such as chronic kidney disease.

  • Healthcare Professionals: Aids in patient education by providing a clear, physical representation for explaining conditions such as kidney stones, renal failure, and surgical procedures like nephrectomies or transplants.

Significance

Through its combination of macroscopic fidelity and microscopic detail, this model bridges traditional anatomical study with cutting-edge histological analysis. It enriches the understanding and communication of renal science, offering a multifaceted perspective on one of the body's most critical organs. This enhanced description highlights the model's precision, innovative creation process, and practical applications, making it a standout resource in anatomical education and clinical environments.

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