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Bone & Joint Open
Vol. 3, Issue 6 | Pages 463 - 469
7 Jun 2022
Vetter P Magosch P Habermeyer P

Aims

The aim of this study was to determine whether there is a correlation between the grade of humeral osteoarthritis (OA) and the severity of glenoid morphology according to Walch. We hypothesized that there would be a correlation.

Methods

Overal, 143 shoulders in 135 patients (73 females, 62 males) undergoing shoulder arthroplasty surgery for primary glenohumeral OA were included consecutively. Mean age was 69.3 years (47 to 85). Humeral head (HH), osteophyte length (OL), and morphology (transverse decentering of the apex, transverse, or coronal asphericity) on radiographs were correlated to the glenoid morphology according to Walch (A1, A2, B1, B2, B3), glenoid retroversion, and humeral subluxation on CT images.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_II | Pages 96 - 96
1 May 2011
Kircher J Kuerner K Morhard M Magosch P Krauspe R Habermeyer P
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Purpose: The aetiology of primary omarthrosis is still unclear. Typical radiological changes are joint space narrowing and the development of caudal osteophytes. The objective of the study is the analysis of the joint space of the shoulder in four different age groups.

Materials and Methods: Retrospective analysis of n=342 standardized X-rays (2002–2009) (true ap, axillary). Inclusion criteria: normal adulthood group I (n=60), instability group II (n=53), calcifying tendonitis of the supraspinatus tendon group III (n=109), advanced primary omarthrosis group IV (n=120). Measurement of joint space at three levels (ap: superior, central, inferior; axillary: anterior, central, posterior). Two independent measurements. Statistical analysis SPSS 17.0: U-Test acc. Mann and Whitney. Bivariate correlation analysis (Spearman), partial correlation analysis, intraclass correlation coefficient.

Results: Mean age group I 17.84±1.54, group II 31.6±11.8, group III 48.2±8.0, group IV 66.43 ±9.74 (p=0.001). Measurement joint space: interobserver reliability excellent in the ap-projection (r=0.887–0.910) and in the axillary projection (r=0.879–0.886). Joint space group I: 4.79mm±0.84 superior ap, 4.28mm±0.75 central ap, 4.57mm±0.80 inferior ap, 6.59mm±1.44 anterior axillary, 6.12mm±1.09 central axillary and 7.03mm±1.17 posterior axillary; group II: 3.78mm±0.99 superior ap, 3.12mm±0.73 central ap, 3.38mm±0.80 inferior ap, 3.92mm±1.08 anterior axillary, 3.92mm±0.77 central axillary and 4.79mm±1.18 posterior axillary; group III: 3.43mm±1.06 superior ap, 2.87mm±0.80 central ap, 3.25mm±0.79 inferior ap, 3.95mm±0.83 anterior axillary, 3.34mm±0.84 central axillary and 4.05mm±0.84 posterior axillary; group IV: 2.00mm±1.40 superior ap, 1.47mm±1.07 central ap, 1.48mm±1.93 inferior ap, 3.01mm±2.22 anterior axillary, 1.08mm±1.12 central axillary and 1.17mm±1.04 posterior axillary. The differences between the four groups for the joint space width are all statistically significant with p< 0.001 (except the difference between group I and group II for ap-central, ap-inferior and axillary anterior).

There is a significant negative correlation (r= −0,579–0,813) between the joint space width and patients age at all measured levels in both projections (p< 0.001). This negative correlation is only little smaller (r= −0,430–0,655) but still clearly significant for all measurements, if the patients with present osteoarthritis (group III) are excluded.

Conclusion: The data of the study show a decrease of joint space width in group I–IV in all measurements. This effect is negatively correlated with age. The data suggest that the decrease in joint space with loss of cartilage cover is an age-dependant process which is independent from the presence of osteoarthritis. This is in contrast to historical findings but in concordance with recent basic studies about cartilage ageing.


Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_IV | Pages 570 - 570
1 Oct 2010
Bartl C Bartl R Habermeyer P Lichtenberg S Magosch P
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The pathogenesis of Calcifying Tendinitis (CT) is still not well established. Prognostic factors for outcome could not yet be identified. The purpose of this study was to evaluate the histologic features of calcific deposits (CD) and their correlation with radiologic and clinical findings.

122 patients with a radiologically confirmed CD were prospectively scheduled for arthroscopic shoulder surgery. According to their radiologic appearance (RA) the CD were graded as fluffy or sharply demarcated. Arthroscopic removal of the deposit was performed and biopsies were taken and embedded in methylmethacry-late. Sections were stained and also immunohistology was performed. Shoulder function was assessed with the Constant score (CS) and the SST.

Three distinct histologic stages (HS) of the CDs could be divided: calcification (I), fibrotic organisation (II) and ossification (III). Biopsies revealed 42x (34%) HS I, 18x (15%) HS II and 62x (51%) HS III deposits. 90% of the CD were located in the SSP tendon. 12 months after the operation the CS and the SST showed a significant improvement (p< 0.01). Forty percent of the patients with ossification (III) of the CD underwent unsuccessful shock wave therapy before. The preoperative RA as well as the HS of the CD did not predispose to postoperative outcome.

In this study three definite histologic stages of Calcifying Tendinitis were identified that have not been described previously. We underline the hypothesis that CT is an active cell mediated tissue process which can lead to production of primitive bone.