Dimitrios Bochlos scite author profile

Dimitrios Bochlos

2Publications

4Citation Statements Received

64Citation Statements Given

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Affiliations

Krankenhaus vom Roten Kreuz

Publications

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The subacromial spacer system for irreparable posterosuperior rotator cuff tears: A retrospective study of 47 patients with a two-year follow-up

2020

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Background Numerous surgical options are available for the management of massive irreparable rotator cuff tears, but there are no current definitive guidelines concerning the optimal treatment modality. The purpose of this study was to evaluate the efficacy and safety of a biodegradable subacromial spacer (InSpace) implantation in patients with irreparable rotator cuff tears. Methods A retrospective study was conducted involving 47 patients treated with the InSpace balloon between 2016 and 2018. Shoulder function was assessed using Constant Score. Pain was scored using a visual analogue scale, with scores ranging from 0 to 10. Results At an average follow-up of 24.6 months (range 12–38), the Constant Score had improved from 39.4 to 71.5 points (p < 0.0001). The range of motion, a main component of Constant Score, was improved after two years, from 27.6 to 42.2 points (p < .001). The visual analogue scale score decreased from 6.32 at baseline to a mean score of 2.7 points (p < 0.0001). Discussion Arthroscopic deployment of the InSpace device was found to be a safe, reliable treatment option in patients with painful irreparable rotator cuff tears, with meaningful improvement in shoulder function without serious complications.

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Biomechanical Analysis of the Fixation Strength of a Novel Plate for Greater Tuberosity Fractures

Kaisidis

Pantos

Bochlos

et al. 2018

TOORTHJ

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Background:The incidence of isolated greater tuberosity fractures has been estimated to be 20% of all proximal humeral fractures. It is generally accepted that displaced (>5 mm) fractures should be treated surgically but the optimal surgical fixation of greater tuberosity fractures remains unclear.Objective:The goal of this study was to simulate the environment of application of a new plate system (Kaisidis plate, Fa Königsee) for fractures of greater tuberosity, and to demonstrate the stability of the plate.Methods:A Finite Element Method (FEM) simulation analysis was performed on a Kaisidis plate fixed with nine screws, in a greater tuberosity fracture model. Solid Works 2015 simulation software was used for the analysis. The Kaisidis plate is a bone plate intended for greater tuberosity fractures. It is a low profile plate with nine holes for 2,4 mm diameter locking screws, eight suture holes and additional K-wire holes for temporary fixation of the fragment.The supraspinatus tendon has the greatest effect on the fracture zone, and as such, was the primary focus for this study. For this study, we performed only linear calculations.Results:The calculations were performed in a way so that the total applied force resulted in a maximum stress of 816 N/mm2. The findings indicated that the most critical points of the Kaisidis system are the screws that are connected to the bone. The maximal force generated by the supraspinatus tendon was 784 N, which is higher than the minimal acceptable force.The results of the FEM analysis showed that the maximal supraspinatus force was 11.6% higher than the minimal acceptable force. As such, the load would exceed twice the amount of maximal force required to tear the supraspinatus tendon, before the screw or the plate would show first signs of plastic deformation.Conclusion:Based on the results of this analysis and the fulfilment of our acceptance criterion, the FEM model indicated that the strength of the Kaisidis plate exceeded that of the proposed maximum loads under non-cycli loading conditions.

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