A PubMed search for humeral component loosening in anatomic stemless shoulder arthroplasty revealed the following reports
2021 Survival of stemless humeral head replacement in anatomic shoulder arthroplasty: a prospective study Clinically and radiologically, the authors observed no loosening of the stemless humeral head component.
2022 Sex-related differences in stemless total shoulder arthroplasty No humeral components were loose.
2023 Midterm results of stemless impaction shoulder arthroplasty for primary osteoarthritis: a prospective, multicenter study. There were no cases of humeral loosening.
2022 Stemless Hemiarthroplasty of the Shoulder Using the SMR(R) System: Summary of Six-Year Experience and Surgical Technique No cases of failure or loosening of the humeral implant.
2022 Early fixation of the humeral component in stemless total shoulder arthroplasty : a radiostereometric and clinical study with 24-month follow-up 20 out of 24 prostheses stabilized within the first 12 months postoperatively. Four prostheses showed continuous migration between 12 and 24 months postoperatively. There were no revisions for loosening.
2022 Short-term results of a new anatomic stemless shoulder arthroplasty - A prospective multicentre study Postoperative radiographs showed no continuous radiolucent lines, subsidence, aseptic loosening or progressive radiolucency.
2023 Short-term radiographic analysis of a stemless humeral component for anatomic total shoulder arthroplasty No humeral component shift or subsidence was observed
2023 Medium-term results of stemless, short, and conventional stem humeral components in anatomic total shoulder arthroplasty: a New Zealand Joint Registry study No patients having stemless arthroplasty were revised for humeral component loosening.
These minimal reported values for loosening of the anatomic stemless humeral component may be due to a combination of several factors:
(1) lack of sufficiently long-term followup - time will tell
(2) surgeons' decision to avoid stemless components in patients suspected of having insufficient bone quality based on preoperative assessment
Preoperative 3D Computed Tomography Bone Density Measures Provide Objective Bone Quality Classifications for Stemless Anatomic Total Shoulder Arthroplasty Preoperative CT imaging allows accurate evaluation of the bone densities in the proximal humerus. Three-dimensional regions of interest, rescaling using patient-specific calibration, and a machine learning model resulted in good-to-excellent prediction for objective bone quality classification.
"If bone quality was deemed adequate on inspection, the surgeon would use his thumb to compress the cut surface of the bone. Bone that was compressed with minimal force was deemed insufficient for stemless component fixation, and therefore placement of a short metaphyseal-fitting stem was performed. Once the stemless trial was implanted, rotational stability was assessed by applying manual torque to the implant via the implant inserter handle, and if the component rotated, the bone was deemed inadequate for stemless fixation. This was repeated for the final implant, and if the implant rotated within the bone under minimal torque, the stemless humeral component was revised to a short-stem meta- physeal-fitting humeral component intraoperatively. Sixty-one planned stemless TSAs were included, with 56 (91.8%) undergoing stemless TSA and 5 (8.2%) undergoing short, metaphyseal-fitting humeral stemmed TSA after intraoperative assessment determined that the bone quality was insufficient for stemless fixation."
Clinical and Radiographic Outcomes of the Simpliciti Canal-Sparing Shoulder Arthroplasty System: A Prospective Two-Year Multicenter Study
"Next the surgeon attempted to compress the neck cut surface with his/her thumb. Bone that was easily compressed with minimal force was also considered not sufficient for implantation. If the physician subjectively determined that the bone had sufficient strength to support the press fit of the nucleus, the humerus was pre- pared with the standardized surgical technique outlined in the protocol: a guide- pin was placed in the center of the cut surface of the humeral head, and sequential bone preparation was completed with cannulated instrumentation. With the three-finned blazer in place, the surgeon tested for stability. If the blazer rotated within the bone, the bone was considered inadequate for implantation of the canal-sparing device. If the bone was still considered acceptable, a metallic humeral cut protector was secured to the trial Simpliciti nucleus to prevent proximal humeral bone damage during glenoid exposure and preparation."
Preoperative metaphyseal cancellous bone density is associated with intraoperative conversion to stemmed total shoulder arthroplasty "The decision to convert to a stemmed humeral component was made intraoperatively based on a lack of stability of the trial stemless component. After the humeral cut was performed at the anatomic neck, a stemless anatomic humeral trial component was placed, followed by a head protector. The glenoid was prepared, and a final glenoid component was placed. When attention was turned back to the humerus, the head protector was removed. If the trial component was stable, then a final stemless component was inserted. If the trial component was grossly mobile, then the decision was made to convert to a stemmed humeral component."
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Here are some videos that are of shoulder interest
Shoulder arthritis - what you need to know (see this link).
How to x-ray the shoulder (see this link).
The ream and run procedure (see this link).
The total shoulder arthroplasty (see this link).
The cuff tear arthropathy arthroplasty (see this link).
The reverse total shoulder arthroplasty (see this link).
The smooth and move procedure for irreparable rotator cuff tears (see this link).
Shoulder rehabilitation exercises (see this link).