The diagnosis of scoliosis and kyphosis should be made by an orthopedist or physical therapy and rehabilitation physician, who is an expert in the field, by evaluating the spine x-ray. If the bone development (according to the risser scale) and cobb angle(s) of the individual diagnosed with scoliosis is suitable for conservative treatment, the process begins with the patient's referral to the orthotic prosthesis center. The orthotist, who is an expert in his field, classifies the curvature in accordance with the Cheneau classification and continues with the selection of the appropriate base model from our Osteoid software.
With the iPad, 3D scanning apparatus and 3D scanning software developed by our company, the patient's body is transferred to the 3D software environment in the most practical and fastest way possible, without touching the patient's body. At the same time, in addition to 3D scanning, photographs of the patient are taken at various angles and positions.
In the 3D software environment, the patient's body and the patient's body measurements are entered and the personalized 3D base model is compared in accordance with the patient, and it is designed to be most suitable for the patient with fine touches on the standard model such as compression points, gravity line, rotation and pelvic tilt.
After the design of the personalized spine orthosis is completed in 3D environment, it is printed on a 3D printer specially developed for manufacturing. This process is completed in an average of 7-10 hours with the extruder developed by us in order to make the brace suitable for the user durable and fast to manufacture. The brace, whose 3D printing is finished, is prepared in the workshop for rehearsal.
During the rehearsal, the expert orthotist adapts the brace and the patient to each other, taking into account the biomechanics of the brace and the patient's special conditions, by performing operations such as padding, attaching the columns, tightness and, if necessary, shaving the brace again, in an effective and comfortable manner. Approximately three weeks later, the patient's corset x-ray is taken. The results of the first brace correction, which is one of the most important indicators of the treatment, are observed by the physician of the patient.
Get advice from the artificial intelligence support system for X-ray / radiation-free risk analysis, analysis of scoliosis, if any, and selection of the appropriate brace with the help of models trained with deep neural networks of 3D scan data.
Cobb angle measurement using deep learning models based on X-ray images.
Detailed symmetrical analysis of the patient's body is performed by processing the 3D scan data with appropriate algorithms. Make sure that you choose the right brace with the help of the artificial intelligence module, where detailed analyzes are trained together with the relevant corset models.
Easily customize standardized corset models with the corset modeling interface we have developed.
Get the opportunity to determine patient-specific parameters such as derotation, gravity line and amount of compression, by seeing the effects on the patient while the corset is on the patient in digital environment.
|Specifications||Features: Filament break/end warning on touch screen the ability to pick up where it left off.|
|3D printer volume||850x900x1400mm|
|Pressure area volume||600x600x1000mm|
|Number of extruders||Single|
|Minimum layer height||0.05mm-1.5mm|
|Table temperature||0-100 °C|
|Extruder temperature||0-280 °C|
|AC input||100~240 VAC, 50/60 Hz|
|Filament diameter||1.75 mm|
As Osteoid Health Technologies, we are a leading company in the world in the field of providing personalized 3D orthotics and prosthetic solutions since its establishment. We became the first company in Turkey to manufacture scoliosis and kyphosis braces specifically for hundreds of patients with 3D scanning and 3D printing production methods.
We, as the Osteoid family, have had a share in both the spread of conservative treatment and the increase in the expected effect from the treatment in our country, with the work we have done with Turkey’s leading doctors and clinics over the years. At the point we have reached today, the technical knowledge and methods we have accumulated in the field in order to ensure the accessibility of the orthoses with 3D printers to the individual; we decided to share it with the market under the name of Osteoid Spine Orthosis Manufacturing System with software, 3D printer and training packages.
Reşitpaşa Mah. Katar Cad. İTÜ Teknokent Arı 1 Osteoid A.Ş. No:2/5/27 PK:34394
Sarıyer / İstanbul