Nowadays, the development of 3D scanner industry is becoming more and more mature, and it is widely used in all walks of life. Of course, the medical industry is no exception. Medical surgery, dental orthopedics and other operations are important events for patients. Failure or other small mistakes will bring discomfort and pain to patients. Surgical operations and plastic surgery are vigorously performed to relieve the pain of patients, reduce stress and load. Therefore, the success of surgical operations becomes particularly important.

From the perspective of patients, HOLON3D is committed to the research and exploration of medical restoration and pain relief for patients, and has successfully developed various series of hardware and software 3D scanner products to create value for society and mankind.

Dentistry-Denture

Traditional denture processing is hand-made by technicians based on the patient's jaw bone shape by experience. Because the accuracy cannot be guaranteed, the manufactured denture will have deviations, and it will be extremely unsuitable for the patient to install it. At the same time, the repair process of this method is time-consuming and laborious, the repair rate is high, the production cycle is long, and the accuracy is difficult to guarantee, resulting in poor practical effects. Huaguang 3D uses the 3D scanner dental scanning system to accurately, quickly and completely obtain the 3D data of the teeth, combined with the numerical control processing equipment to directly produce the tooth model, completely improve the traditional tooth restoration process, and greatly shorten the design and production cycle of dentures And effectively improve the accuracy.

Prosthesis

The production of traditional prostheses is entirely hand-made, and its accuracy and accuracy are difficult to guarantee. It will be very uncomfortable for patients to wear unmatched prostheses, and the production cycle is long, the efficiency is low, and the cost is very high. Hualang 3D uses the HOLON3D 3D scanner to scan and acquire important data such as the shape and girth of the patient’s limbs. The prosthesis maker will process and modify the data model. After determining the size and shape, the data model is directly sent for processing. Shorten the production cycle and reduce unnecessary losses in the modification.

Repair treatment of missing mandible

Due to the complex anatomical relationship between the cranio-maxillofacial region, it is very difficult to determine the extent of the jawbone lesions only through planar images, which also brings difficulties to the formulation of preoperative treatment plans. By acquiring CT data and using reverse engineering software technology to build a three-dimensional model, the three-dimensional craniofacial anatomical structure and their relationships can be displayed stereoscopically and accurately. A three-dimensional digital model of the jaw bone is established based on the patient's jaw bone data, and the digital model of the jaw bone defect is established through the principle of mirror copy and data interpolation, and then a three-dimensional solid model and an individualized prefabricated restoration model are manufactured by a rapid prototyping machine. The prosthesis and the original bone model of the patient are connected and assembled in vitro, and the defects in the design and manufacture of the prosthesis are found by practicing in vitro operation simulation. This method can improve the quality of clinical operation and shorten the operation time, and can achieve more accurate shape matching for the individualized prefabricated restoration.