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Construction method for digitized virtual hand and longitudinal shaped severed finger anatomic structure model

A construction method and technology of structural models, applied in the field of construction of digital virtual human organs, can solve the problems of no clear anatomical basis for longitudinal severed fingers, lack of clinical anatomical and anatomical basis, and not at the same level, so as to achieve clear and accurate adjacency relationship Effect

Inactive Publication Date: 2009-04-08
东莞市厚街医院
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AI Technical Summary

Problems solved by technology

[0008] Considering the thickness of the material to be cut, the gap between the blades is adjusted, and the angles at which the injured hand is brought into the cutting machine are different, so that the planes of the joints of the injured finger are different in depth, and the cutting surface of each finger may not be on the same level, so the cut will be uneven. There are various bone and joint, tendon, blood vessel and nerve injuries, including oblique, longitudinal, and multiple severed injuries, so the tissue repair of longitudinal severed fingers on the coronal plane can repair bones, joints, and tendons , The key is to look for blood vessels that can be anastomosed. Since they do not go up and down in the same plane, it is necessary to understand the absence of vascular ruptures in detail before performing vascular anastomosis. However, the clinical anatomy of such injuries, especially the anatomy of hand vascular injuries, is currently lacking. Therefore, clinical treatment still relies on empirical operations, which is highly subjective and affects the success rate of surgery.
At present, there is no clear anatomical basis for the types of longitudinal amputated fingers

Method used

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  • Construction method for digitized virtual hand and longitudinal shaped severed finger anatomic structure model
  • Construction method for digitized virtual hand and longitudinal shaped severed finger anatomic structure model
  • Construction method for digitized virtual hand and longitudinal shaped severed finger anatomic structure model

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Embodiment Construction

[0060] 1 Materials and methods

[0061] 1.1 Specimen selection and pretreatment

[0062] Take 3 adult hand specimens (wrist joints preserved) from a commercial standard wood bank (for example, the human specimen bank of the Institute of Clinical Anatomy, Southern Medical University). The specimens should have no organic damage (CT scan before treatment), and the The main anatomical parameters are representative. After the proximal ulnar and radial arteries of the specimen were freed, the vessels were flushed with 5% sodium citrate saline until the effluent was clear and the specimen was pale.

[0063] 1.2 Specimen perfusion

[0064] 1.2.1 Pouring material

[0065] In this experiment, the material of self-curing dental trays was used, and the contrast agent was mercury sulfide. The formula is: 30-35g of self-setting dental tray powder, 65-70g of self-setting dental tray water, 30ml of dibutyl phthalate, 10-15g of Chinese silver vermilion (containing mercury sulfide), and th...

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Abstract

The invention discloses a method for constructing anatomical structural models for a virtual hand and a longitudinally amputated finger. The method comprises the following steps: A. specimen selection and pretreatment; B. specimen irrigation; C. CT scan and data set acquisition; D. 3D visual reconstruction of a hand with Mimics software of Materalise Company of Belgium on a platform of a common personal computer; and E. digital virtual construction of a longitudinally amputated finger. The invention applies a virtual hand constructed by a digital virtual technology to clinic anatomical research of longitudinally amputated fingers (palms) and provides the method for constructing the anatomical structural models for the virtual hand and the longitudinally amputated finger which converts 2D images commonly used in clinic into 3D images, thereby improving the understanding of the structure of a hand and providing scientific foundation for clinic diagnosis and treatment protocol decision, surgeries, prognosis, etc.

Description

technical field [0001] The invention relates to a method for constructing digital virtual human organs, in particular to a method for constructing a digital virtual hand and a longitudinal severed finger anatomical structure model based on it. Background technique [0002] Digital virtual technology has become a hot issue in the field of life science and information science. Since the U.S. National Library of Medicine first proposed the "Visible Human Project (VHP)" in 1989, South Korea, Japan and other countries have also proposed similar research projects. Digital virtual human body refers to the digitization of human body structure, and through computer technology and image processing technology, a seemingly real simulated human body appears on the computer screen. At present, the research on "virtual human" at home and abroad is in the stage of "virtual visual human", which can also be called "virtual anatomical human" or "virtual geometric human". The goal is to virtua...

Claims

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Application Information

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IPC IPC(8): A61B6/03A61B19/00G01N33/48G06T17/40A61K49/04A61B90/00G06T19/00
CPCA61B6/506
Inventor 黄潮桐李敬矿陈隆福李忠华朱家恺陈冬生谭建文张美超叶耀华秦金桥方敏鸣方耀高
Owner 东莞市厚街医院
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