Shoulder arthroplasty in osteoarthritis: correlation between function and radiographic parameters

Gracitelli, Mauro Emilio Conforto; Duarte, Fernando Aires; Toffoli, Rogerio Padovani; Burnato, João Henrique; Malavolta, Eduardo Angeli; Ferreira Neto, Arnaldo Amado

doi:10.1590/S1413-78522013000200006

Abstracts

OBJECTIVES: to evaluate the correlation between radiographic parameters and functional assessments of patients with osteoarthritis of the shoulder who underwent shoulder arthroplasty and describe the functional outcomes of this procedure in our institution. METHODS: we evaluated 21 patients (22 shoulders) who underwent shoulder arthroplasty between 1998 and 2010 with a minimum follow-up of 12 months. clinical evaluation was performed using the constantmurley scale, ucla, vas and measuring the arc of active motion. we analysed preoperative radiographic parameters (distance from the top of the head and the humerus and the acromion, superior migration, neck angulation, medial "offset", subluxation, glenoid cavity erosion) and postoperatively we evaluated rod inclination, migration of components and loosening. RESULTS: patients showed significant improvement in all parameters: flexion (p = 0.0083), abduction (p = 0.0266), external rotation (p = 0.0062), constantmurley (p = 0.0001 ), ucla (p < 0.0001) and vas (p = 0.0002). the superior migration of the humerus showed a significant correlation with ucla and constant-murley scores (p = 0.0480 and p = 0.0110, respectively). the other radiographic parameters had no correlation with the clinical outcomes. CONCLUSION: the superior migration of the humerus is related to a worsening of clinical scores. Level of Evidence IV, Case Series.

osteoarthritis; glenohumeral joint; arthroplasty

OBJETIVOS: Avaliar a correlação entre os parâmetros radiográficos e as avaliações funcionais de pacientes com osteoartrose do ombro submetidos à artroplastia do ombro e descrever os resultados funcionais deste procedimento em nosso serviço. MÉTODOS: Foram avaliados 21 pacientes (22 ombros) que realizaram artroplastias do ombro entre 1998 e 2010 e que apresentassem tempo mínimo de seguimento de 12 meses. A avaliação clínica foi realizada através das escalas de Constant-Murley, UCLA, EVA e da medida do arco de movimento ativo. Aferimos parâmetros radiográficos pré-operatórios (distância entre o topo da cabeça e o úmero e o acrômio, migração superior, inclinação do colo,"offset" medial, subluxação do úmero, erosão da glenóide) e pós-operatórios (inclinação da haste, migração dos componentes e sinais de soltura). RESULTADOS: Os pacientes apresentaram melhora significativa em todos os parâmetros avaliados: flexão (p=0,0083), abdução (p=0,0266), rotação externa (p=0,0062), Constant-Murley (p=0,0001), UCLA (p<0,0001) e EVA (p=0,0002). A migração superior do úmero e as escalas de UCLA e de Constant-Murley apresentaram uma correlação significativa (p=0,0480 e p=0,0110, respectivamente). Os demais parâmetros radiográficos não demonstraram correlação com os resultados clínicos. CONCLUSÃO: A migração superior do úmero está relacionada a uma piora dos indicadores funcionais. Nível de Evidência IV, Série de Casos.

Osteoartrose; Articulação glenoumeral; Artroplastia

ORIGINAL ARTICLE

Shoulder arthroplasty in osteoarthritis: correlation between function and radiographic parameters

Mauro Emilio Conforto Gracitelli; Fernando Aires Duarte; Rogerio Padovani Toffoli; João Henrique Burnato; Eduardo Angeli Malavolta; Arnaldo Amado Ferreira Neto

Institute of Orthopedics and Traumatology, Hospital das Clínicas, Faculdade de Medicina da Universidade de São Paulo, São Paulo, SP, Brazil

Mailing address

ABSTRACT

OBJECTIVES: To evaluate the correlation between radiographic parameters and functional assessments of patients with osteoarthritis of the shoulder who underwent shoulder arthroplasty and to describe the functional outcomes of this procedure in our institution.

METHODS: We evaluated 21 patients (22 shoulders) who underwent shoulder arthroplasty between 1998 and 2010 and with a minimum follow-up of 12 months. Clinical evaluation was performed using the Constant-Murley scale, UCLA, EVA and by measuring the active motion. We analysed preoperative (distance between the top of the head and the humerus and the acromion, superior migration, neck angulation, medial "offset", subluxation, glenoid erosion) and postoperative radiographic parameters (rod inclination, migration of components and loosening).

RESULTS: Patients showed significant improvement in all parameters: flexion (p = 0.0083), abduction (p = 0.0266), external rotation (p = 0.0062), Constant-Murley (p = 0.0001 ), UCLA (p <0.0001) and VAS (p = 0.0002). The superior migration of the humerus showed a significant correlation with UCLA and Constant-Murley scores (p = 0.0480 and p = 0.0110, respectively). The other radiographic parameters showed no correlation with the clinical outcomes.

CONCLUSION: The superior migration of the humerus is related to worse clinical scores. Level of Evidence IV, Case Series.

Keywords: Osteoarthritis. Glenohumeral joint. Arthroplasty.

INTRODUCTION

The shoulder arthroplasty is used in the treatment of inflammatory or degenerative lesions of the glenohumeral joint, including osteoarthritis (OA), avascular necrosis, rheumatoid arthritis and post traumatic osteoarthritis.¹ In advanced OA, arthroplasty is the procedure of choice in cases where nonoperative treatment is unsuccessful, providing good results, with improved function and decreased pain.^1,2

Evaluation of preoperative radiographic parameters is paramount in planning arthroplasty,^{3, 4} and aims to assist the reproduction of normal anatomy and correct anatomical secondary abnormalities to OA.⁵ Postoperative radiographic parameters are critical to the evaluation of predictions criteria and signs of arthroplasty loosening.³ The correlation between radiographic parameters and functional outcome is rarely reported. Signs of loosening have direct correlation with the long term functional outcome.^6-8Other parameters of the positioning of the prosthesis also correlate with the result: tilt neck (head shaft angle), diameter and thickness of the humeral head, distance between the top edge of the head and the greater tuberosity of the humerus, humeral head retroversion, distance from the head of the humerus and the acromion, and medial and posterior offsets.^3,9

The primary objective of this study is to evaluate the correlation between radiographic parameters and functional assessments of OA patients undergoing shoulder arthroplasty. The secondary objective is to describe the functional outcomes of shoulder arthroplasty at our institution.

METHODS

Between 1998 and 2010, 66 shoulder arthroplasty, for the treatment of glenohumeral OA, were performed at Institute of Orthopedics and Traumatology, Faculdade de Medicina, USP. These patients were convened between August 2010 and August 2011, having attended for review 21 patients (22 shoulders). Patients who did not attend the revaluation or those with clinical follow-up in less than 12 months were not included in the analysis.

Intervention

The procedures were performed under general anesthesia associated with interscalene block. Antimicrobial prophylaxis with second generation cephalosporin for 24 hours was used. The approach used was delto-chest, with detachment of the subscapularis tendon. Vacuum drain was used in all patients and maintained for 24 to 48 hours.

In the postoperative period, patients were kept in a sling for four weeks. Active movements for the elbow, wrist and fingers were initiated in the immediate postoperative period. Passive movement to the shoulder was started on the 10^th postoperative day, limited to 20 degrees external rotation. After the 4^th week, assisted and free active movements were initiated.

Outcomes

Patients were clinically assessed by the Constant-Murley and UCLA (University of California at Los Angeles) functional scales. The active range of motion and Visual Analogue Scale (VAS) for pain were also measured. The preoperative clinical data were obtained from hospital case notes.

To the radiographic study, anteroposterior, scapular plane profile and axillary profile views obtained from medical records and from a new series documented at the time of the patient's interview were used.

The following parameters were measured pre-and postoperatively:

a) Distance between the top of the head and the greater tubercle of the humerus (Figure 1A);

b) Distance between the top of the humeral head and the acromion (Figure 1B);

c) Higher migration of the humeral head, measured through the Gothic arch (Figure 2);

d) Slope of the humeral neck (head-shaft angle) (Figure 3);

e) Offset of the humeral head (Figure 4);

f) Subluxation of the humeral head (axillary radiograph in lateral view) (Figure 5);

g) Presence of erosion in the glenoid cavity.

On postoperative the following parameters were evaluated:

h) Slope of the humeral stem (varus, valgus, or neutral);

i) Migration of the components of the humerus and the glenoid cavity;

j) Presence of signs of loosening of the components (signs of radiolucency greater than 1mm).

STATISTICAL ANALYSIS

Data normality was tested by the Shapiro Wilk test. The values of the functional scales and values of quantitative radiographic measurements were presented as mean and standard deviation. Categorical variables were presented as absolute values and percentages. The Wilcoxon test has been used for comparison between two quantitative variables related and the Mann-Whitney "U" test for comparison between two quantitative unpaired variables. To relate qualitative variables we used the Spearman correlation. In all cases a significance level of 5% (a = 0,05) was used. The statistical softwares Stata^® version 10.0 and the GraphPad Prism version 2.01^® were used.

RESULTS

The age of patients ranged from 44 to 81 years, 64,63 ± 10,41 years on average. There was a predominance of females, with 14 cases (66.6%). The dominant limb was affected in 13 patients (59.1%).

The average follow-up time was 45,33 ± 42,20 months (minimum of 12 and maximum of 150 months).

Twenty Impol^® brand prostheses were used (90.91%) one full Exactec^® prosthesis (4.55%) and a partial DePuy [Johnson and Johnson]^® prosthesis (4.55%).

Fourteen partial arthroplasties (66.3%) were carried out, three of them cemented (21.4%) and eight total arthroplasties, all of them cemented (36.4%).

Primary OA was the most common etiology, as shown in Table 1. The arch of motion improved significantly when comparing the pre-and postoperative status, according to Table 2. The results of pre and postoperative evaluations (Constant, UCLA and VAS) can be seen in Table 2.

Thumbnail

Improvement was observed in all evaluations (p <0.001). Correlation was observed between the etiology of osteoarthritis (primary and secondary) and functional outcomes of UCLA and Constant scales (p = 0.0401 and p = 0.0273, respectively).

The description and statistical analysis of quantitative radiological parameters (distance between the top of the head and greater tubercle of the humerus, the distance between the top of the humeral head and the acromion, cervicodiaphyseal and offset medial) can be observed in Tables 3 and 4. There were no significant radiographic changes from pre to post-operatory, and when related to clinical scales as well, no significant difference was shown.

Thumbnail

The subluxation of the humeral head greater than or equal to 25% was observed in both shoulders (9.09%) in the preoperative period and in two other shoulders postoperatively. In either period, this parameter correlated with postoperative functional evaluations.

Regarding the slope of the humeral stem, the neutral position was present in nine shoulders (40.91%), valgus in nine shoulders (40.91%) and varus in four shoulders (18.18%), with no significant influence to the final functional outcome.

The erosion of the glenoid cavity was found in eight shoulders (36.36%) in the preoperative radiographs, and in four of them (50%) total arthroplasty was performed, while in the remaining four partial arthroplasty was done, with no statistical correlation with the final result.

The superior migration of the humerus occurred in seven shoulders (31.82%) in the postoperative period. The scales of UCLA and Constant were significantly different (p = 0.0480 and p = 0.0110, respectively) between the groups with and without this finding.

Radiographic signs indicating the risk of loosening of the prosthesis were found in three shoulders (13.64%). The mean follow-up of these patients was 103.18 months and no association was found with the cementing of the prosthesis or not.

In the comparative study between partial and total arthroplastyno significant difference regarding the scales Constant, UCLA and VAS (p> 0.5).

DISCUSSION

The shoulder arthroplasty for patients with severe OA shows satisfactory results, with lasting and reproducible improvement on functional and pain scales. Our study showed significant functional improvement after arthroplasties. Similar results are found in the literature.^4,5,7,10

The superior migration of the humeral component is associated with a worse functional outcome of the pacientes.¹¹ The standard measurement of this migration can be made through the height of the subacromial space³ or by breakdown of the so called "Gothic arch".¹² Our study found no correlation between the first measurement and functional outcomes. However, the superior migration evaluated by breaking of the Gothic arch positively correlated with a worse clinical outcome. Although contradictory, the presence of correlation between superior migration of the humeral head and the absence of correlation between the height of the subacromial space can be explained by several factors. The evaluation of the subacromial space is influenced by the patient positioning, the slope of the scapula, the arm rotation, retroversion of the prosthesis and the slope of the acromion or the presence of subacromial osteophytes. However, the top of the head migration, evaluated by breaking of the Gothic arch¹² has less dependence on the radiographic technique, and possibly has greater sensitivity to assess the superior migration of the prosthesis head.

The rotator cuff tear is a common cause of superior migration of the humerus and is directly related to worse outcomes in shoulder arthroplasty.^11,13 It is also a risk factor for loosening of the glenoid.^6,14 Other factors that can decrease the space are incorrect positioning of the humeral shaft, high-cut osteotomy of the humerous head, the eccentricity of the humeral head and large humeral head or long neck use.

The greater tuberosity of the humerus is positioned generally between 2 to 5mm below the top of the head. When the humeral component is positioned below the edge of the greater tuberosity, the joint rotation center descends relatively to the humerus, resulting in subacromial impingement due to the relatively higher position of the greater tuberosity. Acho que ficaria melhor: On the other hand, a high positioned head causes increased tension in the rotator cuff and also increased chances of polyethylene wear or erosion of the glenoid cavity.⁹ The supraspinatus tendon lying above the prosthesis head can cause later tendinopathy.^9,15 In this situation increased tension in the capsule bottom also occurs, according to Nyffeler et al.¹⁶ There was no statistically significant correlations of this parameter with functional assessments.

Singh et al.¹⁰ found worse function in partial arthroplasty, but found no difference regarding to pain and state that both types of substitution (partial and total) improved the quality of life of patients with OA. In our study it was not possible to correlate the results for each type of arthroplasty due to the small number of patients.

In primary OA, there is usually eccentric posterior erosion of the glenoid cavity, which may cause posterior subluxation of the humeral head. These changes are associated with pain and loss of function.^4,17 In our study, we did not find significant correlation between these function indicators and pain and subluxation. The alteration of the medial offset relates to the displacement of the center of rotation and shows increase if the humeral head is bigger.¹⁸ A thicker glenoid component does not imply in an increased medial offset, because there is probably compensation by the use of a smaller humeral prosthesis head, adjusting the balance of tensions in the tissues.4 There was no correlation between this parameter and functional evaluations in our study.

The neck-shaft angle is on average 135º ± 5º, and prosthesis present, in general, a 130º to 135º angle.³ We found similar values in the pre-and postoperatively situations. (Table 3)

Regarding the slope of the humeral component, Matsen et al.¹⁹found signs of radiolucency significantly lower in neutral position bolted prostheses. There was no correlation between the position of the rod and the final outcome.

Although we found no correlation between the risk of loosening and cementing or not the humeral component, Litchfield et al.²⁰ provided evidence that strength, range of motion and quality of life are better with the cemented fixation than with the uncemented one.

Most studied radiographic parameters showed no significant correlation with the outcome of functional scales. However, this can be due to a type II error (false negative). We believe that the small size of the patient sample is the main limitation of our study.

Our study draws attention to the need for standardized radiographic evaluation pre- and postoperatively. This assessment should be a routine procedure for surgeons and the normal anatomy, determined by various radiographic parameters described, should be preserved and rebuilt in shoulder arthroplasty.

CONCLUSION

The superior migration of the humerus is related to worsening of functional indicators.

REFERENCES

1. Walch G, Boileau P, Noël E. Shoulder arthroplasty: evolving techniques and indications. Joint Bone Spine. 2010;77(6):5015.
2. Bradley Edwards T, Kadakia NR, Boulahia A, Kempf J-F, Boileau P, Némoz C, et al. A comparison of hemiarthroplasty and total shoulder arthroplasty in the treatment of primary glenohumeral osteoarthritis: results of a multicenter study. J Shoulder Elbow Surg. 2003;12(3):20713.
3. Merolla G, Di Pietto F, Romano S, Paladini P, Campi F, Porcellini G. Radiographic analysis of shoulder anatomical arthroplasty. Eur J Radiol. 2008;68(1):15969.
4. Orfaly RM, Rockwood CA, Esenyel CZ, Wirth MA. A prospective functional outcome study of shoulder arthroplasty for osteoarthritis with an intact rotator cuff. J Shoulder Elbow Surg. 2003;12(3):21421.
5. Lo IKY, Litchfield RB, Griffin S, Faber K, Patterson SD, Kirkley A. Quality-of-life outcome following hemiarthroplasty or total shoulder arthroplasty in patients with osteoarthritis. A prospective, randomized trial. J Bone Joint Surg Am. 2005;87(10):217885.
6. Melis B, Bonnevialle N, Neyton L, Lévigne C, Favard L, Walch G, et al. Glenoid loosening and failure in anatomical total shoulder arthroplasty: is revision with a reverse shoulder arthroplasty a reliable option? J Shoulder Elbow Surg. 2012;21(3):3429.
7. Cil A, Veillette CJ, Sanchez-Sotelo J, Sperling JW, Schleck CD, Cofield RH. Survivorship of the humeral component in shoulder arthroplasty. J Shoulder Elbow Surg. 2010;19(1):14350.
8. Farng E, Zingmond D, Krenek L, Soohoo NF. Factors predicting complication rates after primary shoulder arthroplasty. J Shoulder Elbow Surg. 2011;20(4):55763.
9. Bohsali KI, Wirth MA, Rockwood CA. Complications of total shoulder arthroplasty. J Bone Joint Surg Am. 2006;88(10):227992.
10. Singh JA, Sperling J, Buchbinder R, McMaken K. Surgery for shoulder osteoarthritis: a Cochrane systematic review. J Rheumatol. 2011;38(4):598605.
11. Young AA, Walch G, Pape G, Gohlke F, Favard L. Secondary rotator cuff dysfunction following total shoulder arthroplasty for primary glenohumeral osteoarthritis: results of a multicenter study with more than five years of followup. J Bone Joint Surg. 2012;94(8):68593.
12. Krishnan SG, Bennion PW, Reineck JR, Burkhead WZ. Hemiarthroplasty for proximal humeral fracture: restoration of the Gothic arch. Orthop Clin North Am. 2008;39(4):44150.
13. Boyd AD, Aliabadi P, Thornhill TS. Postoperative proximal migration in total shoulder arthroplasty. Incidence and significance. J Arthroplasty. 1991;6(1):317.
14. Walch G, Young AA, Boileau P, Loew M, Gazielly D, Molé D. Patterns of loosening of polyethylene keeled glenoid components after shoulder arthroplasty for primary osteoarthritis: results of a multicenter study with more than five years of follow-up. J Bone Joint Surg. 2012;94(2):14550.
15. Terrier A, Ramondetti S, Merlini F, Pioletti DD, Farron A. Biomechanical consequences of humeral component malpositioning after anatomical total shoulder arthroplasty. J Shoulder Elbow Surg. 2010;19(8):118490.
16. Nyffeler RW, Sheikh R, Jacob HAC, Gerber C. Influence of humeral prosthesis height on biomechanics of glenohumeral abduction. An in vitro study. J Bone Joint Surg Am. 2004;86(3):57580.
17. Iannotti JP, Norris TR. Influence of preoperative factors on outcome of shoulder arthroplasty for glenohumeral osteoarthritis. J Bone Joint Surg Am. 2003;85(2):2518.
18. Pearl ML, Kurutz S. Geometric analysis of commonly used prosthetic systems for proximal humeral replacement. J Bone Joint Surg Am. 1999;81(5):66071.
19. Matsen FA, Iannotti JP, Rockwood CA. Humeral fixation by press-fitting of a tapered metaphyseal stem: a prospective radiographic study. J Bone Joint Surg Am. 2003;85(2):3048.
20. Litchfield RB, McKee MD, Balyk R, Mandel S, Holtby R, Hollinshead R, et al. Cemented versus uncemented fixation of humeral components in total shoulder arthroplasty for osteoarthritis of the shoulder: a prospective, randomized, double-blind clinical trial-A JOINTs Canada Project. J Shoulder Elbow Surg. 2011;20(4):52936.

Correspondência:

Arnaldo Amado Ferreira Neto

Rua Ovídio Pires de Campos, 333

Instituto de Ortopedia e Traumatologia - Diretoria Clínica

São Paulo, SP, Brasil

Email:

aafneto1@gmail.com

Publication Dates

Publication in this collection
14 June 2013
Date of issue
Apr 2013

History

Received
11 July 2012
Accepted
29 Aug 2012

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Walch G, Boileau P, Noël E. Shoulder arthroplasty: evolving techniques and indications. Joint Bone Spine. 2010;77(6):5015.

[2] 2. Bradley Edwards T, Kadakia NR, Boulahia A, Kempf J-F, Boileau P, Némoz C, et al. A comparison of hemiarthroplasty and total shoulder arthroplasty in the treatment of primary glenohumeral osteoarthritis: results of a multicenter study. J Shoulder Elbow Surg. 2003;12(3):20713.

[3] 3. Merolla G, Di Pietto F, Romano S, Paladini P, Campi F, Porcellini G. Radiographic analysis of shoulder anatomical arthroplasty. Eur J Radiol. 2008;68(1):15969.

[4] 4. Orfaly RM, Rockwood CA, Esenyel CZ, Wirth MA. A prospective functional outcome study of shoulder arthroplasty for osteoarthritis with an intact rotator cuff. J Shoulder Elbow Surg. 2003;12(3):21421.

[5] 5. Lo IKY, Litchfield RB, Griffin S, Faber K, Patterson SD, Kirkley A. Quality-of-life outcome following hemiarthroplasty or total shoulder arthroplasty in patients with osteoarthritis. A prospective, randomized trial. J Bone Joint Surg Am. 2005;87(10):217885.

[6] 6. Melis B, Bonnevialle N, Neyton L, Lévigne C, Favard L, Walch G, et al. Glenoid loosening and failure in anatomical total shoulder arthroplasty: is revision with a reverse shoulder arthroplasty a reliable option? J Shoulder Elbow Surg. 2012;21(3):3429.

[7] 7. Cil A, Veillette CJ, Sanchez-Sotelo J, Sperling JW, Schleck CD, Cofield RH. Survivorship of the humeral component in shoulder arthroplasty. J Shoulder Elbow Surg. 2010;19(1):14350.

[8] 8. Farng E, Zingmond D, Krenek L, Soohoo NF. Factors predicting complication rates after primary shoulder arthroplasty. J Shoulder Elbow Surg. 2011;20(4):55763.

[9] 9. Bohsali KI, Wirth MA, Rockwood CA. Complications of total shoulder arthroplasty. J Bone Joint Surg Am. 2006;88(10):227992.

[10] 10. Singh JA, Sperling J, Buchbinder R, McMaken K. Surgery for shoulder osteoarthritis: a Cochrane systematic review. J Rheumatol. 2011;38(4):598605.

[11] 11. Young AA, Walch G, Pape G, Gohlke F, Favard L. Secondary rotator cuff dysfunction following total shoulder arthroplasty for primary glenohumeral osteoarthritis: results of a multicenter study with more than five years of followup. J Bone Joint Surg. 2012;94(8):68593.

[12] 12. Krishnan SG, Bennion PW, Reineck JR, Burkhead WZ. Hemiarthroplasty for proximal humeral fracture: restoration of the Gothic arch. Orthop Clin North Am. 2008;39(4):44150.

[13] 13. Boyd AD, Aliabadi P, Thornhill TS. Postoperative proximal migration in total shoulder arthroplasty. Incidence and significance. J Arthroplasty. 1991;6(1):317.

[14] 14. Walch G, Young AA, Boileau P, Loew M, Gazielly D, Molé D. Patterns of loosening of polyethylene keeled glenoid components after shoulder arthroplasty for primary osteoarthritis: results of a multicenter study with more than five years of follow-up. J Bone Joint Surg. 2012;94(2):14550.

[15] 15. Terrier A, Ramondetti S, Merlini F, Pioletti DD, Farron A. Biomechanical consequences of humeral component malpositioning after anatomical total shoulder arthroplasty. J Shoulder Elbow Surg. 2010;19(8):118490.

[16] 16. Nyffeler RW, Sheikh R, Jacob HAC, Gerber C. Influence of humeral prosthesis height on biomechanics of glenohumeral abduction. An in vitro study. J Bone Joint Surg Am. 2004;86(3):57580.

[17] 17. Iannotti JP, Norris TR. Influence of preoperative factors on outcome of shoulder arthroplasty for glenohumeral osteoarthritis. J Bone Joint Surg Am. 2003;85(2):2518.

[18] 18. Pearl ML, Kurutz S. Geometric analysis of commonly used prosthetic systems for proximal humeral replacement. J Bone Joint Surg Am. 1999;81(5):66071.

[19] 19. Matsen FA, Iannotti JP, Rockwood CA. Humeral fixation by press-fitting of a tapered metaphyseal stem: a prospective radiographic study. J Bone Joint Surg Am. 2003;85(2):3048.

[20] 20. Litchfield RB, McKee MD, Balyk R, Mandel S, Holtby R, Hollinshead R, et al. Cemented versus uncemented fixation of humeral components in total shoulder arthroplasty for osteoarthritis of the shoulder: a prospective, randomized, double-blind clinical trial-A JOINTs Canada Project. J Shoulder Elbow Surg. 2011;20(4):52936.