OBJECTIVETo observe the normal structure of lumbar plexus in the virtual Chinese Human (VCH) Female I and Male III and establish a digitized visible model of their lumbar plexus.

METHODSThe cross-sectional images from the VCH Female I and Male III dataset were reviewed to study lumbar plexus structures on a section-by-section basis. The nerve roots, major psoas muscle and blood vessels were also observed. Three-dimensional computerized reconstructions of lumbar plexus and its adjacent structures were conducted from these data using Amira 3.1 (TGS) imaging software respectively.

RESULTSThe three-dimensional reconstructed visible models perfectly displayed the anatomic relationships of lumbar plexus structures and their adjacent structures.

CONCLUSIONSVCH Female I and Male III dataset can provide complete and accurate data of main structure of lumbar plexus. The digitized models of lumbar plexus offer unique insights into the complex anatomy, and morphologic data for imaging diagnosis and treatment of the injury of lumbar plexus.

Anatomy, Cross-Sectional ; Female ; Humans ; Imaging, Three-Dimensional ; Lumbosacral Plexus ; anatomy & histology ; Male ; Models, Anatomic ; Visible Human Projects

BACKGROUND: Volume models made from magnetic resonance images on computed tomographs can produce horizontal, coronal, sagittal, and oblique planes that are used widely in clinics, although detailed structures cannot be identified. Existing real color volume models are mostly commercial and their production methods have not been released. The aim of this study was to distribute free of charge, real-color volume models produced from sectioned images with the production method. METHODS: The original voxel size of sectioned images was increased appropriately so that the volume model could be handled by typical personal computers. By using Dicom Browser and MRIcroGL, the sectioned images were processed to become the volume models. RESULTS: On the MRIcroGL, the resultant volume model with the voxel size of 0.5 × 0.5 × 0.5 mm3 could be displayed and freely rotated. By adjusting variables of the software, desired oblique planes could be produced instantly. With overlay function, a model of segmented structure can be overlapped to the entire volume models. The sectioned images with high quality and the segmentation data of Visible Korean enabled the identification of detailed anatomical structures on the planes. CONCLUSION: The volume models can be used by medical students and doctors for learning sectional anatomy. Other researchers can utilize the method of this study to produce volume models from their own sectioned images.
Anatomy, Cross-Sectional ; Computer Simulation ; Humans ; Imaging, Three-Dimensional ; Learning ; Methods ; Microcomputers ; Students, Medical ; Visible Human Projects

OBJECTIVETo study the three-dimensional (3D) reconstruction and 3D visualization of the pancreas and create anatomy of the digitalized visual pancreas so as to construct a concrete basis for virtual operation and surgical operation on pancreas.

METHODSThe digital imaging data of pancreas, duodenum, common bile duct, arteries and veins were obtained from the Virtual Chinese Human-Female 1 (VCH-F1) and processed using ACDSee and Photoshop so as to reconstruct 3D pancreas digitally and realize 3D visualization of pancreas.

RESULTSWe successfully 3D reconstructed and visualized the pancreas and the peri-pancreatic structures: the duodenum, the common bile duct, the inferior vena cava, the portal vein vessels, the aorta, the ceoliac trunk vessels. The 3D and visualized pancreas manifested itself with its complete structure as well as its adjacency to other tissues.

CONCLUSIONSThe 3D reconstruction and 3D visualization of the pancreas based on the digital data of VCH-F1 produces a digitally visualized pancreas, which promises us a novel method for virtual operation on pancreas, clinical operation on pancreas and anatomy of 3D visualized pancreas.

Anatomy, Cross-Sectional ; China ; Female ; Humans ; Image Processing, Computer-Assisted ; Imaging, Three-Dimensional ; Pancreas ; anatomy & histology ; diagnostic imaging ; Tomography, X-Ray Computed ; Visible Human Projects

BACKGROUND: The curved sectional planes of the human body can provide a new approach of surface anatomy that the classical horizontal, coronal, and sagittal planes cannot do. The purpose of this study was to verify whether the curved sectional planes contribute to the morphological comprehension of anatomical structures. METHODS: By stacking the sectioned images of a male cadaver, a volume model of the right half body was produced (voxel size 1 mm). The sectioned images with the segmentation data were also used to build another volume model. The volume models were peeled and rotated to be screen captured. The captured images were loaded on user-friendly browsing software that had been made in the laboratory. RESULTS: The browsing software was downloadable from the authors' homepage (anatomy.co.kr). On the software, the volume model was peeled at 1 mm thicknesses and rotated at 30 degrees. Since the volume models were made from the cadaveric images, actual colors of the structures were displayed in high resolution. Thanks to the segmentation data, the structures on the volume model could be automatically annotated. Using the software, the sternocleidomastoid muscle and the internal jugular vein in the neck region, the cubital fossa in the upper limb region, and the femoral triangle in the lower limb region were observed to be described. CONCLUSION: For the students learning various medical procedures, the software presents the needed graphic information of the human body. The curved sectional planes are expected to be a tool for disciplinary convergence of the sectional anatomy and surface anatomy.
Anatomy, Cross-Sectional ; Cadaver* ; Comprehension ; Education ; Human Body ; Humans ; Imaging, Three-Dimensional ; Jugular Veins ; Learning ; Lower Extremity ; Male* ; Neck ; Upper Extremity ; Visible Human Projects

human anatomy was started by Vesalius in sixteenth century Europe during the Renaissance. His exploits are documented in his legendary anatomical text De humani corporis fabrica. Remarkable success of De humani encouraged noted anatomists to publish their own texts over the years. Such a cascading effect started an ongoing process of refining the text based presentation of anatomical details that eventually led to the emanation of Gray's Anatomy, the masterpiece from Henry Gray. In this review article we have tried to revisit the journey from De humani to Gray's Anatomy and have also highlighted on other anatomical texts that form important landmarks in this journey. The article attempts to focus on the rectification of Galenic errors, description of new discoveries in human anatomy, introduction of the concept of clinical anatomy, emergence of surgical anatomy and the advent of sectional anatomy. The article also put emphasis on the efforts to make anatomical illustrations used in texts more scientific and in tune with the printed matter. We noted with interest that luminary anatomists over the years have contributed in their own individual manner towards the development of text based anatomy and from cumulative perspective their visionary efforts have shaped the outlook of anatomical texts in present times.]]>
Anatomists ; Anatomy, Cross-Sectional ; Europe ; Humans

The China Mechanical Virtual Human (CMVH) is a human musculoskeletal biomechanical simulation platform based on China Visible Human slice images; it has great realistic application significance. In this paper is introduced the construction method of CMVH 3D models. Then a simulation system solution based on Creator/Vega is put forward for the complex and gigantic data characteristics of the 3D models. At last, combined with MFC technology, the CMVH simulation system is developed and a running simulation scene is given. This paper provides a new way for the virtual reality application of CMVH.
Algorithms ; Anatomy, Cross-Sectional ; Biomechanical Phenomena ; China ; Computer Graphics ; Computer Simulation ; Humans ; Imaging, Three-Dimensional ; methods ; Models, Biological ; Muscle, Skeletal ; anatomy & histology ; physiology ; Software ; User-Computer Interface ; Visible Human Projects

Normal sectional anatomy of the calcaneus with multiplanar CT examination was studied in 5 volunteers as thebackground for interpretation of various abnormalities. Major 3 sectional anatomy including plantar, coronal,sagittal and additional tuberosity planes are described. With CT examination of the calcaneus, 1. More detailedanatomy of 3 facets of subtalar joint(anterior, middle, and posterior facet) can be well visualized. 2. Itsclinical applications in the tarsal trauma, tarsal coalition, subtalar infectin, degenerative arthritis, clubfoot, pes planus and tarsal tumor could provide much more informations, which not obtained by conventionalradiographic studies.
Anatomy, Cross-Sectional ; Calcaneus ; Clubfoot ; Flatfoot ; Osteoarthritis ; Volunteers

Sectional anatomy is the course to learn anatomical structures on the sectional planes of cadaver. The purpose of this research is to make browsing software of the serially sectioned images, which is useful not only to learn sectional anatomy but also to learn magnetic resonance (MR) images and computed tomography (CT) images. One-thousand seven-hundred two sets of corresponding anatomical, MR, CT, and segmented images (intervals 1 mm) were selected from the serially sectioned images (horizontal direction) of a Korean male cadaver's whole body. We composed browsing software (file size 377 MBytes) of the images, which involved the following functions: The anatomical, MR, CT, and segmented images, which were always corresponding, were displayed; one of four images could be enlarged; images of interesting levels could be displayed in a real time conveniently either using software buttons, scroll bar, image number or using computer keyboard; names of the 13 anatomical structures, which were already segmented, could be displayed. By using this software, medical students and doctors can figure out stereoscopic anatomical structures from the anatomical images to review anatomy; they can compare MR and CT images with corresponding anatomical images to easily recognize anatomical structures in the MR and CT images.
Anatomy, Cross-Sectional* ; Cadaver ; Humans ; Learning* ; Male ; Students, Medical

OBJECTIVETo build three-dimensional (3-D) visible model for surgical treatment of infection of fascial spaces of hand.

METHODSSerial thin cross-sections (0.2 mm) of hand were made by cryomicrotome, and the thin cross-sections of metacarpal parts were observed. A personal computer was employed to reconstruct 3-D model of metacarpal fascial space.

RESULTSThe shapes, locations and adjacent relations of the mid-palmar space, thenar space and metacarpal bones were displayed clearly from computerized 3-D model, which could be the cross-reference of the cross-sections expediently.

CONCLUSIONThe computerized 3-D reconstruction of metacarpal fascial spaces can provide some guidance for surgical treatment of infection and other diseases of metacarpal fascial spaces.

Anatomy, Cross-Sectional ; Hand ; anatomy & histology ; Humans ; Image Processing, Computer-Assisted ; Imaging, Three-Dimensional

OBJECTIVETo study digitized virtual hepatic three-dimensional reconstruction and virtual hepatic surgery.

METHODSThe whole series of hepatic images taken from the database of digitized Virtual Chinese Human Female Number 1 (VCH-F1) was employed to reconstruct a three-dimensional (3D) liver. First, studied some algorithms for registration of human liver tissue images, and then, segmented the regions of liver, vein, bile duct, and gallbladder from the images. Based on them, the 3D visualization human liver model was reconstructed. Finally, a 3D visualization demo system of liver was developed based on personal computer and Windows operation system.

RESULTSThis demo system of liver provided a graphics user interface to rotate, scale the 3D liver to observe the 3D hepatic structure, and a virtual liver simulation system of resection with primary function.

CONCLUSIONSThe study may be beneficial to the future research on digitized virtual hepatic and virtual hepatic surgery, and the 3D visualization demo system of liver may be beneficial to the research on the hepatic structure.

Anatomy, Cross-Sectional ; China ; Female ; Hepatectomy ; Humans ; Imaging, Three-Dimensional ; methods ; Liver ; anatomy & histology ; User-Computer Interface