Procedures / Forearm
Forearm Malunion Correction
Tailor Surgery combines cutting-edge 3D surgical planning and personalized tools to restore alignment and functionality in forearm malunion cases, ensuring superior outcomes for patients.
Restore Anatomy
Restore the patient's anatomy, based on the contralateral arm.
Radioulnar's Joint Congruence
Have full control of the final radioulnar's joint congruence..
Time Reduction
Reduce up to 50% of surgical time, all in benefit of your patient.
FOREARM MALUNION CORRECTION
Our 3 Personalized Solutions
CORE SOLUTION
✓ Digital Patient Study
ADVANCED SOLUTION
✓ CORE SOLUTION
✓ Personalized Surgical Guide
✓ Standard Implant
EXCELLENCE SOLUTION
✓ CORE SOLUTION
✓ Personalized Surgical Guide
✓ Customized Implant
✓ Basic Instruments
LEVEL 1
CORE SOLUTION
Get a detailed digital surgery simulating the perfect position of your prosthesis.
A clear anatomy view
Get a visual 3D analysis of the patients anatomy by overlapping the patient’s pathological and healthy contralateral arm.
Restore patients mobility
Get a digital surgery simulation including the ideal osteotomy plane and the needed correction to obtain the maximum radioulnar’s joint congruence and fully restore patient’s pronation and supination mobility.
Fitting standard implants and screws
Get a recommendation on Implant sizes and Screws lengths and directions.
Get your Core Solution in 48 Hours
LEVEL 2
ADVANCED SOLUTION
Go one step forward with our Patient Specific Central PIN Positioning Guide.
Ensure the ideal correction with our patient
Specific Surgical Instruments, be able to:
- Drill all the implant screws holes in the perfect direction to achieve the maximum implant grip and place the implant as planned.
- Perform the ideal osteotomy to obtain maximum correction.
.
Get your Advanced Solution in 4-5 days
LEVEL 3
EXCELLENCE SOLUTION
Bring your surgery to the next level. Get a full personalized metaglene system perfectly adapted to your patient.
Include a patient specific implant
Avoid the instability and undercorrection that can come with a maladaptation of the standard implants and ensure a full implant adjustment.
Plan down to the last detail
You will have available each of the screws and instruments you need, specially chosen for each surgical case so that you don’t have to worry about anything..
Request your Excellence Solution now
Clinical Indication
The Reverse Shoulder Arthoplasty is indicated for the treatment of shoulder osteoarthritis and proximal humeral fractures.
Compatibilities
This product is compatible with the following prothesis:
✓ Humelock Reversed - FX Solutions
✓ Comprehensive Reverse Shoulder System
✓ Zimmer Biomet
Other implants coming soon!
SCIENTIFIC EVIDENCE:
- Marcoin, A., Nerot, C., Lestra, T., Blasco, L., Ferrier, A., Siboni, R. and Ohl, X., 2020. The precision of patient-specific instrumentation guides for the positioning of the glenoid component in total reverse shoulder arthroplasty: an in vivo scanographic study. International Orthopaedics, 44(9), pp.1761-1766.
- Villatte, G., Muller, A., Pereira, B., Mulliez, A., Reilly, P. and Emery, R., 2018. Use of Patient-Specific Instrumentation (PSI) for glenoid component positioning in shoulder arthroplasty. A systematic review and meta-analysis. PLOS ONE, 13(8), p.e0201759.
- Walch, G., Vezeridis, P., Boileau, P., Deransart, P. and Chaoui, J., 2015. Three-dimensional planning and use of patient-specific guides improve glenoid component position: an in vitro study. Journal of Shoulder and Elbow Surgery, 24(2), pp.302-309.
- Boileau, P., Cheval, D., Gauci, M., Holzer, N., Chaoui, J. and Walch, G., 2018. Automated Three-Dimensional Measurement of Glenoid Version and Inclination in Arthritic Shoulders. Journal of Bone and Joint Surgery, 100(1), pp.57-65.
- Srivas, P., Kapat, K., Dadhich, P., Pal, P., Dutta, J., Datta, P. and Dhara, S., 2017. Osseointegration assessment of extrusion printed Ti6Al4V scaffold towards accelerated skeletal defect healing via tissue in-growth. Bioprinting, 6, pp.8-17.
- Xiong, Y., Wang, W., Gao, R., Zhang, H., Dong, L., Qin, J., Wang, B., Jia, W. and Li, X., 2020. Fatigue behavior and osseointegration of porous Ti-6Al-4V scaffolds with dense core for dental application. Materials & Design, 195, p.108994.
TAILOR SURGERY SOLUTIONS
All Our Procedures
Can’t find what you need?
We can do a completely personalized surgery for you. Contact us!