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Abstract

Introduction

Optimal biomechanics in reverse total shoulder arthroplasty (rTSA) are still a topic of debate. Although larger glenospheres have been linked with a theoretical improvement in the range of movement, results from clinical studies are mixed. We hypothesised that matching glenosphere diameter to patient height would result in greater improvements in post-operative range of motion (ROM) and patient-reported outcomes (PROMs).

Methods

An international database of rTSAs was analysed. After exclusions, 3318 rTSA patients were classified as short (<158 cm), average (158–173 cm) or tall(>173 cm). Outcomes were stratified for glenosphere size (small≤38 mm, large≥40 mm). Results were compared preoperatively and at 2 years.

Results

In short patients glenosphere diameter had no statistically significant impact on the degree of post-operative improvement for any ROM or PROM. Average height patients treated with small glenospheres had significantly more improvement in internal rotation (1.3 vs 1.0, p = 0.01), VAS pain (5.3 vs 4.8, p = 0.002), American Shoulder and Elbow Surgeons (47.8 vs 45.2, p = 0.03) and Shoulder Arthroplasty Smart (30.9 vs 28.2, p = 0.01) but significantly less improvement in constant score (31.7 vs 35.3, p = 0.009). Tall patients treated with small glenospheres had significantly more improvement in external rotation (21.2 vs 16.4, p = 0.01) and VAS pain scores (4.7 vs 4.3, p = 0.04).

Conclusions

While most significant differences favoured small glenospheres, the magnitude of these differences was small. Overall, patients of all heights can expect similar clinical improvements irrespective of glenosphere size.

Keywords

reverse total shoulder rTSA shoulder arthroplasty glenosphere size

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References

Bacle

Nové-Josserand

Garaud

, et al. Long-term outcomes of reverse total shoulder arthroplasty: a follow-up of a previous study. J Bone Joint Surg Am 2017; 99: 454–461.

UK. National Joint Registry 19th Annual Report 2022. 2022. Accessed April 2, 2023. https://reports.njrcentre.org.uk/Portals/0/PDFdownloads/NJR 19th Annual Report 2022.pdf.

Gerber

Canonica

Catanzaro

, et al. Longitudinal observational study of reverse total shoulder arthroplasty for irreparable rotator cuff dysfunction: results after 15 years. J Shoulder Elbow Surg 2018; 27: 831–838.

Gutiérrez

Comiskey

IV Luo

, et al. Range of impingement-free abduction and adduction deficit after reverse shoulder arthroplasty. Hierarchy of surgical and implant-design-related factors. J Bone Joint Surg Am 2008; 90: 2606–2615.

Roche

Flurin

P-H

Wright

, et al. An evaluation of the relationships between reverse shoulder design parameters and range of motion, impingement, and stability. J Shoulder Elbow Surg 2009; 18: 734–741.

Bloch

Budassi

Bischof

, et al. Influence of glenosphere design and material on clinical outcomes of reverse total shoulder arthroplasty. Shoulder Elbow 2014; 6: 156–164.

Müller

Born

Jung

, et al.

Glenosphere size in reverse shoulder arthroplasty: is larger better for external rotation and abduction strength?

J Shoulder Elbow Surg 2018; 27: 44–52.

Langohr

GDG

Giles

Athwal

, et al. The effect of glenosphere diameter in reverse shoulder arthroplasty on muscle force, joint load, and range of motion. J Shoulder Elbow Surg 2015; 24: 972–979.

Mollon

Mahure

Roche

, et al. Impact of glenosphere size on clinical outcomes after reverse total shoulder arthroplasty: an analysis of 297 shoulders. J Shoulder Elbow Surg 2016; 25: 763–771.

10.

Sabesan

Lombardo

Shahriar

, et al. The effect of glenosphere size on functional outcome for reverse shoulder arthroplasty. Musculoskelet Surg 2016; 100: 115–120.

11.

Schoch

Vasilopoulos

LaChaud

, et al. Optimal glenosphere size cannot be determined by patient height. J Shoulder Elbow Surg 2020; 29: 258–265.

12.

Hochreiter

Hasler

, et al. Factors influencing functional internal rotation after reverse total shoulder arthroplasty. JSES Int 2021; 5: 679–687.

13.

Torrens

Guirro

Miquel

, et al. Influence of glenosphere size on the development of scapular notching: a prospective randomized study. J Shoulder Elbow Surg 2016; 25: 1735–1741.

14.

Roche

Kumar

Overman

, et al. Validation of a machine learning–derived clinical metric to quantify outcomes after total shoulder arthroplasty. J Shoulder Elbow Surg 2021; 30: 2211–2224.

15.

Goetti

Denard

Collin

, et al. Biomechanics of anatomic and reverse shoulder arthroplasty. EFORT Open Rev 2021; 6: 918–931.

16.

Simovitch

Flurin

P-H

Wright

, et al. Quantifying success after total shoulder arthroplasty: the minimal clinically important difference. J Shoulder Elbow Surg 2018; 27: 298–305.

17.

Oak

Kobayashi

Gagnier

, et al. Patient reported outcomes and ranges of motion after reverse total shoulder arthroplasty with and without subscapularis repair. JSES Int 2022; 6: 923–928.

18.

Constant

Gerber

Emery

RJH

, et al. A review of the Constant score: modifications and guidelines for its use. J Shoulder Elbow Surg 2008; 17: 355–361.

19.

Christie

Hagen

Mowinckel

, et al. Methodological properties of six shoulder disability measures in patients with rheumatic diseases referred for shoulder surgery. J Shoulder Elbow Surg 2009; 18: 89–95.

20.

Hirschmann

Wind

Amsler

, et al. Reliability of shoulder abduction strength measure for the constant-murley score. Clin Orthop Relat Res 2010; 468: 1565–1571.

21.

Othman

Taylor

. Is the constant score reliable in assessing patients with frozen shoulder? 60 shoulders scored 3 years after manipulation under anaesthesia. Acta Orthop Scand 2004; 75: 114–116.

22.

Kumar

Schoch

Allen

, et al. Using machine learning to predict internal rotation after anatomic and reverse total shoulder arthroplasty. J Shoulder Elbow Surg 2022; 31: e234–e245.

23.

Colasanti

Simovitch

Elwell

, et al. Diagnosis specific thresholds for minimal clinically important difference, patient acceptable symptomatic state, and substantial clinical benefit after reverse total shoulder arthroplasty. AAOS 2022. Published online 2022.

24.

Werner

Lederman

Gobezie

, et al. Glenoid lateralization influences active internal rotation after reverse shoulder arthroplasty. J Shoulder Elbow Surg 2021; 30: 2498–2505.

25.

Lädermann

Tay

Collin

, et al. Effect of critical shoulder angle, glenoid lateralization, and humeral inclination on range of movement in reverse shoulder arthroplasty. Bone Joint Res 2019; 8: 378–386.

Does matching glenosphere size to patient height improve outcomes following reverse total shoulder arthroplasty?

Abstract

Introduction

Methods

Results

Conclusions

Keywords

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References