Pre-opp X-Ray patient
Years after a total shoulder arthroplasty on the left scapula, a 64-year-old male still had severe complaints. He suffered from a type 2 central defect with abnormal ossification surrounding the glenoid. Prof. Stefaan Nijs, Chairman of Trauma Surgery at Leuven University Hospital in Belgium took on the case and headed the revision surgery. Seeing the complexity and unusual size of the defect in the patient’s shoulder, Dr. Nijs chose to work with Materialise’s experts and the Glenius implant. He performed a two-stage procedure. Stage one entailed the removal of the previous implant and inserting a spacer. In the second stage, the Glenius was implanted.
3D-printed components for complex post-op defect
The two-part surgery went smoothly and as planned. There were no incidents during the removal of the components. Removing the spacer, cleaning of the area, and tissue sampling for possible infection took roughly one hour, after which the surgical team was ready to place the implant. The insertion went very well, due to the welcoming size of the incision and the small size of the prosthesis. The patient-specific guides provided with the surgery helped to find the unique position. Prof. Nijs first double-checked by testing the implant on the bone model. He then fitted the implant in its real position rather quickly, despite the smoothness of the defect surface. Finally, he proceeded with the drilling, using the 3D-printed guide. The depth of the screw holes was verified before he inserted the screws. The first four screws fit as planned, but the fifth was more challenging due to no solid grip in the second cortex. However, as the length prediction of the previous screws was correct, Dr. Nijs continued with the planned screw length for screw 5.
Dr. Nijs, Chairman of Trauma Surgery at Leuven University Hospital
Positioning and fixating the glenoid baseplate took approximately 20 minutes; 10 minutes less than expected. The surgical team removed the guide and proceeded with preparing the humerus for the sawing. A large part was removed to make the reduction easier. The team used a monoblock stem together with a 3mm thin, high mobility liner. After the trial reduction, the CoCr glenosphere was inserted. All components were in place after approximately two hours of surgery time.
Shoulder model and guides on operating table
The value of a patient-specific solution
3D printing enables the creation of very specific and complex shapes and is therefore the optimal process for designing patient-specific components. Additionally, it facilitates the delicate construction of porous structures, an essential feature in the Glenius implant. The plastic models and guides that were used during this surgery were printed with polyamide using selective laser sintering (SLS), and the metal implant was made using selective laser melting (SLM). Depuy Synthes Delta Xtend components were used for the humeral stem and liner.
Dr. Nijs was very pleased with the added value of the additional posterior support on the drilling guide, and with how smoothly the surgery went. The patient-specific instruments that were designed for the glenoid implant made it possible for the trauma surgeon to accurately execute the preoperative 3D plan.
The postoperative report issued one and a half year after the procedure shows that the implant and screws are still in good place. There are limited orientation and position differences between the analyzed planned position and the actual outcome.
So far, the surgery has prevented further revisions. Nearly two years following his second surgery, the patient is still happy. His shoulder’s range of motion has improved, and the patient has regained his independency.
For more information on the Glenius implant, please contact your account manager at medical@materialise.com or visit: www.materialise.com/Glenius
Glenius is not commercially available in the US and Canada