scholarly journals Development of Lumbosacral Spina bifida: Three-Dimensional Computer Graphic Study of Human Embryos at Carnegie Stage Twelve

2001 ◽  
Vol 35 (5) ◽  
pp. 247-252 ◽  
Author(s):  
Moududul Haque ◽  
Kenji Ohata ◽  
Toshihiro Takami ◽  
Sergio Branco Soares, Jr. ◽  
Sarun Nunta Aree ◽  
...  
Keyword(s):  
Spina Bifida ◽  
Computer Graphic ◽  
Three Dimensional ◽  
Human Embryos ◽  
Carnegie Stage

Developmental anatomy of the liver from computerized three-dimensional reconstructions of four human embryos (from Carnegie stage 14 to 23)

2015 ◽  
Vol 200 ◽  
pp. 105-113 ◽  
Author(s):  
Martin Lhuaire ◽  
Romain Tonnelet ◽  
Yohann Renard ◽  
Tullio Piardi ◽  
Daniele Sommacale ◽  
...  
Keyword(s):  
Three Dimensional ◽  
Human Embryos ◽  
Developmental Anatomy ◽  
Carnegie Stage

Three-dimensional image analysis and visualization in confocal light microscopy

1993 ◽  
Vol 51 ◽  
pp. 158-159
Author(s):  
J. K. Samarabandu ◽  
R. Acharya ◽  
D. R. Pareddy ◽  
P. C. Cheng
Keyword(s):  
Depth Perception ◽  
Computer Graphic ◽  
Three Dimensional ◽  
Cellular Organization ◽  
Data Set ◽  
Computational Burden ◽  
Interactive Operation ◽  
Cell Organization ◽  
Confocal Images ◽  
3D Digitization

In the study of cell organization in a maize meristem, direct viewing of confocal optical sections in 3D (by means of 3D projection of the volumetric data set, Figure 1) becomes very difficult and confusing because of the large number of nucleus involved. Numerical description of the cellular organization (e.g. position, size and orientation of each structure) and computer graphic presentation are some of the solutions to effectively study the structure of such a complex system. An attempt at data-reduction by means of manually contouring cell nucleus in 3D was reported (Summers et al., 1990). Apart from being labour intensive, this 3D digitization technique suffers from the inaccuracies of manual 3D tracing related to the depth perception of the operator. However, it does demonstrate that reducing stack of confocal images to a 3D graphic representation helps to visualize and analyze complex tissues (Figure 2). This procedure also significantly reduce computational burden in an interactive operation.

scholarly journals OC160: Three-dimensional ultrasonography is of limited value in diagnosing fetal spina bifida

2007 ◽  
Vol 30 (4) ◽  
pp. 416-416 ◽  
Author(s):  
A. Carletti ◽  
T. Ghi ◽  
M. Ceccarini ◽  
S. Gabrielli ◽  
A. Perolo ◽  
...  
Keyword(s):  
Spina Bifida ◽  
Three Dimensional

Three-Dimensional Computer Reconstruction of a Temporal Bone

1989 ◽  
Vol 101 (5) ◽  
pp. 522-526 ◽  
Author(s):  
Charles Lutz ◽  
Akira Takagi ◽  
Ivo P. Janecka ◽  
Isamu Sando
Keyword(s):  
Temporal Bone ◽  
Internal Carotid ◽  
Computer Graphic ◽  
Three Dimensional ◽  
Computer Assisted ◽  
Computer Reconstruction ◽  
Temporal Bone Anatomy ◽  
Bone Structures ◽  
Graphic Software ◽  
Computer Graphics System

The complexities of the temporal bone and the critical inter-relationships among its key structures can be simplified with three-dimensional computer-assisted reconstruction. Knowledge of the topography of these structures and their mutual relationships in essential in any surgical approach to the temporal bone. Sixty sagittal histologic sections of a normal left temporal bone were examined. Each section, 30 μm in thickness, was optically enlarged. Segments representing the facial nerve, internal carotid artery, and inner ear structures from individual slides were traced and data were entered into a computer. A personal computer was used for data processing and analysis. Graphic software developed in our laboratory generated images with x-y-z coordinates that could be rotated In any plane. The high resolution of the computer graphics system, combined with the precision of histologic sections, permitted study of the critical three-dimensional anatomic relationships among essential intratemporal bone structures. The capability of reproducing individual and joint images of the intratemporal bone structures and viewing them from all surgical angles gives skull base and otologic surgeons Important topographic guidance. Accurate spatial measurements of temporal bone anatomy are now possible with the application of computer graphic technology.

PS01.031: REVISITING THE ESOPHAGOGASTRIC JUNCTION ANATOMY: WHERE IS THE INFRACARDIAC BURSA?

2018 ◽  
Vol 31 (Supplement_1) ◽  
pp. 58-59
Author(s):  
Tatsuro Nakamura ◽  
Hisashi Shinohara ◽  
Tomoaki Okada ◽  
Shigeo Hisamori ◽  
Shigeru Tsunoda ◽  
...  
Keyword(s):  
Esophagogastric Junction ◽  
Conflicts Of Interest ◽  
Three Dimensional ◽  
Human Embryos ◽  
Closed Space ◽  
Mr Images ◽  
Crown Rump Length ◽  
Transhiatal Approach ◽  
Dimensional Reconstruction ◽  
The Right

Abstract Background The infracardiac bursa (ICB), the closed space encountered in the esophagogastric junction (EGJ) surgery, is rarely described in anatomical atlases. The purpose of the study is to link surgery to embryology and propose the new anatomical chart including the ICB. Methods Histological serial sections of Carnegie stages (CS) 13–23 embryos and magnetic resonance (MR) images of the fetus with 43.5 mm crown-rump length from the Kyoto Collection of Human Embryos were examined for embryological changes in the ICB. Seventy-four surgery videos of laparoscopic and thoracoscopic esophagectomy were reviewed to investigate the appearance of the ICB and frequency of the recognition in surgery. Results The right pneumato-enteric recess appeared in CS13 embryos and the ICB was separated from the recess by the development of the diaphragm between CS17 and CS18 embryos and established as a closed space up until CS23. The three-dimensional reconstruction of fetus MR images showed the ICB was located adjacent nearly one third around the esophagus above the right crus. The ICB was clinically encountered in 12 of 14 (86%) transhiatal surgeries and 23 of 60 (38%) thoracic surgeries. Via the transhiatal approach, the caudal edge of the ICB appeared as a thick whitish membrane after the dissection of the phrenico-esophageal ligament and a closed space enveloped with a serosa was opened by the incision of the membrane. Via the right thoracic approach, the ICB appeared on the right crus after the dissection of the pulmonary ligament. Conclusion We described a new chart around EGJ including the ICB based on embryology. This anatomical chart can contribute to promote accuracy and safety of operating procedures around the EGJ. Disclosure All authors have declared no conflicts of interest.

Anatomical Variability of Fascial-Muscle Formations of the Thorax in 4-6-Month Human Fetuses

2021 ◽  
Vol 6 (5) ◽  
pp. 134-140
Author(s):  
T. V. Khmara ◽  
◽  
I. I. Okrym ◽  
M. Yu. Leka ◽  
I. D. Kiiun ◽  
...  
Keyword(s):  
Pectoralis Major Muscle ◽  
Three Dimensional ◽  
Spinal Column ◽  
Vertical Direction ◽  
Posterior Wall ◽  
Pectoralis Major ◽  
Human Embryos ◽  
Human Fetuses ◽  
Surgical Interventions ◽  
Rib Cartilage

The development of rational accesses and methods of surgical interventions to the chest walls, muscles and vascular-nerve formations of the chest involves clarifying data on the topography of fascia, superficial and deep muscles of the chest at different stages of human ontogenesis. The purpose of the study. Identification of macromicroscopic structure and topography of fascia and chest muscles in 4-6-month human fetuses. Materials and methods. The study was performed using microscopy of a series of consecutive histological sections of 29 human embryos of 81.0-230.0 mm parietal-coccygeal length, production of three-dimensional reconstruction models and morphometry. Results and discussion. In some early fetuses, and in isolated cases in the same fetus, there is anatomical variability of the pectoralis major muscle, characterized by asymmetry of shape, size and topography of individual parts of the right and left pectoralis major muscles. The underdevelopment of the individual muscle bundles of the sternocostal part of the pectoralis major muscle, hypoplasia of the internal intervertebral muscles, aplasia of the external intercostal membrane, internal intercostal and subcostal muscles, transverse muscles of the chest is described. Conclusion. In human fetuses of 4-6 months old there is anatomical variability of the chest muscles, characterized by bilateral asymmetry, variability of shape, size and topography of both their individual parts and muscle as a whole. In early human fetuses, thoracic fascia is a rather thin structural plate, in the structure of which there is no layering. Intervertebral spaces at the level of rib cartilage are filled with internal intervertebral muscles, the fibers of which near the edges of the thorax have a vertical direction, and from the point of connection of the rib cartilage to the thorax – oblique. In the gap between the external and internal intervertebral muscles of fascia as such is not manifested, but only a small layer of loose fiber is determined, in which the vascular-nerve bundles pass. In the fetuses of 6 months, the endothorаcic fascia on the posterior wall of the chest is somewhat thickened, split into separate plates and forms fascial cases for vascular-nerve formations located near the spinal column

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