The biodegradable spacer as a novel treatment modality for massive rotator cuff tears: a prospective study with 5-year follow-up.

Background: The management of massive, irreparable rotator cuff tears (RCT) is challenging and associated with high failure rates. There are no current consensus or definitive guidelines concerning the optimal surgical treatment for this devastating condition. This study was designed to confirm the long-term safety and efficacy of the biodegradable inflatable InSpace™ system in patients with massive reparable or irreparable RCTs.

Prospective clinical study of a novel biodegradable sub-acromial spacer in treatment of massive irreparable rotator cuff tears.

Purpose: The purposes of this prospective non-randomized study were to confirm the feasibility of the biodegradable sub-acromial spacer (InSpace™) implantation in patients with massive irreparable rotator cuff tear and to determine the safety profile and functional results 3 years post-implantation.

Methods: Twenty patients were implanted with the InSpace™ device and assessed up to 3 years of post-implantation. Improvement in shoulder function was assessed using Constant score, while ease of use of the system was recorded by surgeons as were device-related adverse events.

Long-term shoulder function after type I and II acromioclavicular joint disruption.

Background: Acromioclavicular joint separations are very common lesions, with the majority falling into Rockwood classification type I and II. It is generally agreed that conservative treatment of these injuries leads to good functional results, although there are some studies that suggest these injuries are associated with a high incidence of persistent symptoms.

Hypothesis: Type I and II acromioclavicular joint disruption significantly impairs long-term shoulder function.

Poor results from the isoelastic total hip replacement: 14-17-year follow-up of 149 cementless prostheses.

Background: To overcome the mismatch between a stiff stem and the more elastic bone, the concept of isoelasticity was introduced in the 1970s. This concept was based on the assumption that the implant and the bone should deform as one unit to avoid stress shielding. The Robert Mathys (RM) cementless total hip replacement (THR) was one of the earliest isoelastic designs.