Layer by layer dissection or removal of the different anatomical parts from the virtual human cadaver provides the professors a better explaining tool and also for the students to have in depth knowledge of the different anatomical body parts.
Asclepius – Virtual Dissection Anatomy Table is equipped with a life size male and female human cadaver with full annotations about the entire body parts of a human. The virtual anatomy table is equipped with the different planes of view, i.e., coronal, sagittal and transverse, providing the details of all the human body in depth.
The virtual dissection tool of Asclepius – Virtual Anatomy Table is one of the most user friendly feature available among the virtual dissection tables. One touch dissection of the virtual human cadaver with full annotation is available with the table. Virtual dissection feature is replacing the traditional anatomy labs in the universities as it is re-usable any number of times.
Asclepius’ content is divided into 11 system which consist of more than 2000 segmentation for male and female human respectively. For example,reproductivesystem,respiratory system,and others.These segments make it easier for the students to remember the pictorial presentation of the sectional human anatomy.
The animation for the pumping heart with the possibility to view the Sagittal, Coronal and Transverse view helps the students to understand the blood flow from the heart to different anatomical structures in the human body.
Asclepius comes with pre-installed more than 9000 questions with the flexibility to the professors to customize the quizzes as per their requirement or import their own quizzes.
Asclepius is equipped with tools for teachers to mark notes or enter texts as notes while teaching. It can also take screenshots and save it into an external USB to be used during other lectures.
Endoscope teaching mode gives the professors, students, and instructors the advantage of traveling through the hollow organs of the human body. This feature comes with the ability to zoom in, zoom out, illuminate, adjust the aperture, and the change the movement rate.
Free hand cut gives the option to perform the dissection of the virtual human cadaver in form. Professors or students can draw any form to perform the dissection in that respective form.
Select feature enables the professors or students to select one specific part of the virtual human cadaver to have a better and deep understanding of the specific human part.
Radiology feature of Asclepius Virtual Anatomy Table provide basic operation and use multiple image features, such as image processing, image rendering and image measurement, drawing tools, and has a plurality of core OOOPDS computing technology, including 3D image area split, cutting and application object and image simulator suitable for general use of medical imaging operation for educational purpose only.
Asclepius – Virtual Dissection Table is dedicated to the software system for orthopedic medical imaging applications. It has developed a number of digital image simulation operations and visual image operations. This is also the Radiology core processing operation function for the surgical simulation planning of digital images for educational purpose only
Reconstruction of 2D DICOM data to 3D DICOM data with the possibility to connect to PACS gives the professors and students a better understanding based on the radiological images of the human cadaver.
Asclepius has pre-installed more than 400 case real case examples including both hard and soft tissues. Also, Radiology comes with the ability to connect to PACS.
Asclepius has pre-installed more than 400 case real case examples. Also, provides the professor’s to import their own case examples to teach.
Image manipulation enhances the quality of the histopathological slides imported into the system making it easier for the professors to explain and students to understand.
The image tool provides the flexibility to adjust the quality of the image on the screen by adjusting the brightness, contrast or sharpness of the image.
The renderer has a variety of preset rendering modes with rich colors and fine textures. Muscles, fats, bones, blood vessels, etc. are represented by different colors, which can highlight each body system and facilitate observation. Users can also adjust the parameters of the renderer by themselves to achieve the desired visual effect.
The medical image renderer allows users to separate or overlap CT images and 3D rendered models. Allows users to better observe the relative position of the two.
Immediately after importing DICOM data, the 3D rendering model will be presented. The smaller the DICOM slice spacing, the higher the detail of the 3D rendering model. It can help doctors, teachers and students to better observe the required parts, which is conducive to simulation learning. And the softness in the 3D rendered model, the rendering effect of hard tissue has high fidelity, and it brings easy readability to users.