Today, the 3D scanner industry is increasingly mature and widely used in all walks of life. Of course, the medical industry is no exception. Surgery such as medical surgery and orthodontics is a vital event for the patient. If it fails or other small mistakes, it will bring discomfort and pain to the patient. The powerful operation of surgery and plastic surgery is a good way to save patients' pain and reduce stress and weight. Therefore, the success of surgery has become more and more important.
Based on the patient's perspective, Huaguang 3D (CO3D) is dedicated to solving the research and exploration of medical repair and pain relief for patients, and successfully developed various series of hardware and software 3D scanner products to create value for society and human beings.
Dental - denture
The traditional denture processing is manually made by the technician according to the patient's jaw shape. Because the precision cannot be guaranteed, the denture produced will be biased, and the patient will be extremely unsuitable. At the same time, the repairing process of this method is time-consuming and labor-intensive, the repair rate is high, the production cycle is long, and the precision is difficult to guarantee, resulting in a poor practical effect. Huaguang 3D uses the 3D scanner dental scanning system to accurately and quickly acquire the 3D data of the teeth, and directly combines the dental model with the CNC machining equipment to thoroughly improve the repair process of the traditional teeth and greatly shorten the design cycle of the denture. And effectively improve the accuracy.
Prosthesis
The production of traditional prosthetic limbs relies entirely on manual production. Its accuracy and accuracy are difficult to guarantee. Patients will be uncomfortable after wearing unsuitable prostheses, and the production cycle is long, the efficiency is low, and the cost is very high. Huaguang 3D uses CO3D 3D scanner to scan and acquire important data such as the shape and circumference of the limbs of the patient. The prosthetician will process and modify according to the data model. After determining the size and shape, the data model will be sent directly to the processing. Shorten the production cycle and reduce unnecessary losses in the modification.
Repair treatment of mandibular bone loss
Due to the complex anatomical relationship of the cranial sacral area, it is very difficult to determine the extent of the sacral lesion only by planar images, which also makes it difficult to develop a preoperative treatment plan. By acquiring CT data and using reverse engineering software technology to establish a three-dimensional model, the three-dimensional anatomical structure of the craniofacial and its interrelationship can be displayed stereoscopically and accurately. According to the data of the patient's tibia, the three-dimensional digital model of the bone was established. The digital model of the bone defect was established by mirror copying and data interpolation. Then the three-dimensional solid model and the individual prefabricated restoration model were created by the rapid prototyping machine. The prosthesis and the patient's original skeletal model were connected and assembled in vitro, and the exercises were simulated by in vitro surgery to find defects in the design and manufacture of the prosthesis. This method can improve the quality of clinical surgery and shorten the operation time, and can achieve more accurate shape matching for individualized prefabricated restorations.