Arthroscopic Treatment of Rotator Cuff Rupture in Patients Under 55 years Old versus Patients Older than 65 Years Old

Storti, Thiago Medeiros; Pontes Júnior, Antônio Carlos; Simionatto, João Eduardo; Simionatto, Carolina; Faria, Rafael Salomon Silva; Paniago, Alexandre Firmino

doi:10.1055/s-0041-1741025

Abstract

Objective

To evaluate patients submitted to arthroscopic repair of the rotator cuff (RC) comparing the results of muscle, functional strength, and pain obtained in 2 distinct groups: patients < 55 years old (G55) and patients > 65 years old (G65).

Methods

Data collection was performed with 63 participants (29 < 55 years old and 34 > 65 years old), in 2 moments, analyzing: A) demographic, surgical and RC lesion characteristics; B) functional variables, muscle strength, and pain.

Results

Higher levels of anterior elevation force, lateral, and medial rotation of the operated shoulder were observed in group G55. However, when the difference between these forces of the operated shoulder and of the contralateral shoulder was evaluated, there was no significant difference between the groups. The other variables of function and pain were similar (p> 0.05). There was also no difference between the groups in the University of California at Los Angeles Shoulder Rating Scale (UCLA) (p= 0.56) and Constant-Murley Score (p= 0.99) scores.

Conclusion

Arthroscopic repair of the RC in older, active, selected patients may achieve functional improvement and quality of life similar to that performed in younger patients.

Keywords
rotator cuff break; aged; arthroscopy; pain measurement; muscle strength

Resumo

Objetivo

Avaliar os pacientes submetidos a reparo artroscópico do manguito rotador (MR) comparando os resultados de força muscular, funcionais e de dor obtidos em 2 grupos distintos: de pacientes < 55 anos (G55) e em pacientes > 65 anos (G65).

Métodos

A coleta de dados foi realizada com 63 participantes (29 pacientes < 55 anos e 34 > 65 anos), em 2 momentos, analisando: A) características demográficas, cirúrgicas e das lesões de MR; B) variáveis funcionais, força muscular e dor.

Resultados

Foram observados maiores níveis de na força de elevação anterior, rotação lateral e rotação medial do ombro operado no grupo G55. Porém, quando avaliada a diferença entre estas forças do ombro operado e do ombro contralateral, não se observou diferença significativa entre os grupos. As demais variáveis de função e dor foram similares (p> 0,05). Também não houve diferença entre os grupos nos escores University of California, Los Angeles (UCLA, na sigla em inglês) (p= 0,56) e Constant (p= 0,99).

Conclusão

O reparo artroscópico do MR em pacientes mais velhos, ativos e selecionados pode obter melhora funcional e de qualidade de vida similar ao realizado em pacientes mais jovens.

Palavras-chave
ruptura de manguito rotador; idoso; artroscopia; medição da dor; força muscular

Introduction

The incidence of rotator cuff (RC) lesions increases with the progression of the age of the population. Tempelhof et al.¹1 Tempelhof S, Rupp S, Seil R. Age-related prevalence of rotator cuff tears in asymptomatic shoulders. J Shoulder Elbow Surg 1999; 8 (04) 296-299 reported that the prevalence of complete RC ruptures in asymptomatic patients is of ∼ 13% in individuals between 50 and 59 years old, of 20% in those between 60 and 69 years old, of 37% in those between 70 and 79 years old, and of 51% in those > 80 years old.

Certain prognostic factors for RC repair, such as large lesions, muscle weakness, fatty cuff atrophy and degeneration, and osteoarthrosis, worsen with advancing age,²2 Hattrup SJ. Rotator cuff repair: relevance of patient age. J Shoulder Elbow Surg 1995; 4 (02) 95-100

3 Lafosse L, Brzoska R, Toussaint B, Gobezie R. The outcome and structural integrity of arthroscopic rotator cuff repair with use of the double-row suture anchor technique. Surgical technique. J Bone Joint Surg Am 2008; 90 (Suppl 2 Pt 2): 275-286

4 Ellman H, Hanker G, Bayer M. Repair of the rotator cuff. End-result study of factors influencing reconstruction. J Bone Joint Surg Am 1986; 68 (08) 1136-1144-⁵5 Pai VS, Lawson DA. Rotator cuff repair in a district hospital setting: outcomes and analysis of prognostic factors. J Shoulder Elbow Surg 2001; 10 (03) 236-241 and some authors have reported poor results with repair in older patients.²2 Hattrup SJ. Rotator cuff repair: relevance of patient age. J Shoulder Elbow Surg 1995; 4 (02) 95-100,³3 Lafosse L, Brzoska R, Toussaint B, Gobezie R. The outcome and structural integrity of arthroscopic rotator cuff repair with use of the double-row suture anchor technique. Surgical technique. J Bone Joint Surg Am 2008; 90 (Suppl 2 Pt 2): 275-286,⁶6 Boileau P, Brassart N, Watkinson DJ, Carles M, Hatzidakis AM, Krishnan SG. Arthroscopic repair of full-thickness tears of the supraspinatus: does the tendon really heal?. J Bone Joint Surg Am 2005; 87 (06) 1229-1240 Moreover, some studies have demonstrated a lower healing potential in older patients, with rerupture rates of up to 32% in patients > 70 years old.⁶6 Boileau P, Brassart N, Watkinson DJ, Carles M, Hatzidakis AM, Krishnan SG. Arthroscopic repair of full-thickness tears of the supraspinatus: does the tendon really heal?. J Bone Joint Surg Am 2005; 87 (06) 1229-1240,⁷7 Gazielly DF, Gleyze P, Montagnon C. Functional and anatomical results after rotator cuff repair. Clin Orthop Relat Res 1994; (304) 43-53

On the other hand, the greater healing potential and better muscle conditions encourage the repair of RC lesions in patients < 55 years old. Excellent functional results have been reported after arthroscopic repair in this group of patients.⁸8 Krishnan SG, Harkins DC, Schiffern SC, Pennington SD, Burkhead WZ. Arthroscopic repair of full-thickness tears of the rotator cuff in patients younger than 40 years. Arthroscopy 2008; 24 (03) 324-328

9 Lin EC, Mall NA, Dhawan A. et al. Arthroscopic primary rotator cuff repairs in patients aged younger than 45 years. Arthroscopy 2013; 29 (05) 811-817-¹⁰10 Miyazaki AN, Fregoneze M, Santos PD. et al. Avaliação dos resultados do reparo artroscópico de lesões do manguito rotador em pacientes com até 50 anos de idade. Rev Bras Ortop 2011; 46 (03) 276-280

The aim of our study is to evaluate the functional outcome of arthroscopic RC repair in 2 distinct groups of patients: > 65 (G65) and < 55 years (G55) old. We hypothesize that the group of patients < 55 years old will present better functional results after surgery compared with patients > 65 years old.

Methodology

Study design and participants

This is a retrospective cohort study. From 2011 to 2018, 465 patients underwent arthroscopic RC repair. Patients < 55 and > 65 years old who agreed to participate in the study were included. Patients between 55 and 65 years old, with < 12 months of follow-up, who had extensive lesions, previous surgeries on the operated shoulder, presence of severe osteoarthrosis, incomplete medical records, and those who, for several reasons, were unable to attend or had no interest in participating in the study were excluded. After applying the inclusion and exclusion criteria, 63 patients agreed to participate in the research and to attend to the hospital to be reevaluated.

Analysis outcomes

The primary outcome were the postoperative University of California, Los Angeles (UCLA) and Constant functional scores, and the secondary outcomes were the variables of strength, range of motion (ROM), and postoperative pain.

Methods and instruments

Data collection during the postoperative follow-up was performed in two stages: 1) consultation of medical records to collect demographic, surgical, and RC lesions; and 2) clinical evaluation with collection of functional variables, muscle strength, and pain.

Demographic and characterization data of RC lesion were obtained through analysis of electronic medical records. The following variables were collected: age, gender, dominance and laterality, follow-up time, comorbidities, follow-up pain, type of rupture (complete or partial), tendons approached, type of fixation (single row [SF] or double row [DF]), and number of anchors. The complete lesions were classified, according to the measurement of their largest diameter, as small (< 1 cm), medium (1 to 3 cm), and large (3 to 5 cm),¹¹11 Davidson J, Burkhart SS. The geometric classification of rotator cuff tears: a system linking tear pattern to treatment and prognosis. Arthroscopy 2010; 26 (03) 417-424,¹²12 Andrade RP, Correa Filho MRC, Queiroz BC. Lesões do manguito rotador. Rev Bras Ortop 2004; 39 (11/12): 621-635 and the extensive ones were excluded from the study. The size and classification of the lesions were obtained from preoperative magnetic resonance imaging (MRI) and/or surgical descriptions.

The second moment of evaluation was performed in person, when the strength (Kgf) and amplitude (°) of the movements of elevation, of lateral rotation, and of medial rotation of the shoulder were measured. Strength was measured by digital dynamometry and measured in Kgf, while amplitude was measured by goniometry and measured in degrees. In addition, during this evaluation, the functional capacity scores reported on the University of California at Los Angeles Shoulder Rating Scale (UCLA)¹³13 Amstutz HC, Sew Hoy AL, Clarke IC. UCLA anatomic total shoulder arthroplasty. Clin Orthop Relat Res 1981; (155) 7-20 and Constant-Murley Score (CONSTANT),¹⁴14 Constant CR, Murley AH. A clinical method of functional assessment of the shoulder. Clin Orthop Relat Res 1987; (214) 160-164 were applied, together with the data collected regarding pain, using the visual analogue scale (VAS).¹⁵15 Scott J, Huskisson EC. Graphic representation of pain. Pain 1976; 2 (02) 175-184 The scales mentioned above (UCLA and CONSTANT) were translated into Portuguese and were culturally adapted to the Brazilian population,¹⁶16 Barreto RP, Barbosa ML, Balbinotti MA, Mothes FC, da Rosa LH, Silva MF. The Brazilian version of the Constant-Murley Score (CMS-BR): convergent and construct validity, internal consistency, and unidimensionality. Rev Bras Ortop 2016; 51 (05) 515-520,¹⁷17 Oku EC, Andrade AP, Stadiniky SP, Carrera EF, Tellini GG. Tradução e adaptação cultural do Modified-University of California at Los Angeles Shoulder Rating Scale para a língua portuguesa. Rev Bras Reumatol 2006; 46 (04) 246-252 and are frequently used to assess the function of upper limbs in patients with RC injuries.¹⁸18 Carbonel I, Martinez AA, Calvo A, Ripalda J, Herrera A. Single-row versus double-row arthroscopic repair in the treatment of rotator cuff tears: a prospective randomized clinical study. Int Orthop 2012; 36 (09) 1877-1883

19 Godinho GG, França FdeO, Freitas JM. et al. Result from arthroscopic surgical treatment of renewed tearing of the rotator cuff of the shoulder. Rev Bras Ortop 2015; 50 (01) 89-93-²⁰20 Miyazaki AN, da Silva LA, Santos PD, Checchia SL, Cohen C, Giora TS. Evaluation of the results from arthroscopic surgical treatment of rotator cuff injuries in patients aged 65 years and over. Rev Bras Ortop 2015; 50 (03) 305-311

After tabulation of the data, the individuals were divided into 2 groups, based on age at the time of the surgical procedure: < 55 (G55) and > 65 years (G65) old.

Surgical procedure

The surgeries were performed by three specialist surgeons with extensive experience in the subject. The SF fixation technique performed was that described by Burkhart, in which the tendon is tied to the anchors arranged in a single row.²¹21 Gilotra M, O'Brien MJ, Savoie 3rd. FH. Arthroscopic Rotator Cuff Repair: Indication and Technique. Instr Course Lect 2016; 65: 83-92 The technique of DF fixation performed was that described by Lo et al.,²²22 Lo IK, Burkhart SS. Double-row arthroscopic rotator cuff repair: re-establishing the footprint of the rotator cuff. Arthroscopy 2003; 19 (09) 1035-1042 which consists of a medial row of anchors tied with "U" points and another lateral row of anchors tied with single points.

Postoperative rehabilitation

All patients followed the same standardized protocol. Movement of the elbow, of the wrist, and of the hand was stimulated from the immediate postoperative period. The patients remained immobilized with a sling for 6 weeks, gradually starting, after this period, the gain of the shoulder ROM. Muscle strengthening was started only after the 12^th week.

Ethical approvals

All patients signed the Informed Consent Form. The present study was submitted to the evaluation and approval of the Ethics and Research Committee with Human Beings, under the opinion number 2,444,726, CAAE: 80401317.3.0000.0023.

Statistics

The descriptive analysis presented in the form of tables the observed data, expressed by the measures of central tendency and dispersion appropriate for numerical data and by the frequency and percentage for categorical data.

The inferential analysis for comparison between groups (G55 and G65) was composed by the Mann-Whitney test for numerical variables and by the chi-squares (χ2) or the Fisher exact test for categorical data.

The normality in the distribution of the variables was evaluated by the Shapiro-Wilk test and graphical analysis of histograms. Statistical analysis was processed by IBM SPSS Statistics for Windows, version 26 (IBM Corp., Armonk, NY, USA).

Results

Demographic and Surgical Characteristics among Groups

From 2011 to 2018, 465 patients underwent arthroscopic RC repair. Of these, 147 were excluded because they had other pathologies in the operated shoulder or had undergone other procedures during surgery, 8 died, 182 had incomplete data in the medical records, refused to participate, or contact was not possible, and 65 were between 55 and 65 years old at the time of the procedure.

The sample consisted of 63 shoulders. Of these, 29 (46%) correspond to the cases of patients < 55 years old and 34 (54%) of patients > 65 years old. The mean follow-up time was 46.5 months, and there was no statistically significant difference between groups G55 and G65. When the demographic characteristics and the surgical profile were compared between the groups, there was no statistically significant difference for the operated shoulder (right or left), dominance, or comorbidities (►Tables 1 and 2).

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Table 1
Demographic and surgical characteristics between groups

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Table 2
Demographic and surgical characteristics between groups

Characteristics of Rotator Cuff Injuries between Groups

Regarding the type of lesion, both groups presented predominance of cases of complete ruptures (G55: 58.6 versus G65: 91.2%), but group G55 presented a proportion of complete lesions (p= 0.002) significantly lower than group G65. Regarding the number of anchors used in the procedure, group G55 presented a significantly lower median number of anchors compared with group G65 (p= 0.009). The full description of the data is shown in ►Tables 1 and 2.

Comparison of Muscle Strength, Functional and Pain Variables between Groups

A statistically significant difference was observed in the anterior elevation force (p= 0.0006), lateral rotation (p= 0.015), and medial rotation (p= 0.007) of the operated shoulder between the groups. When comparing both groups, we observed the following differences in anterior elevation (G55: 8 kg versus G65: 4.8kg), in lateral rotation (G55: 5 kg versus G65: 4kg), and in medial rotation (G55: 8.5 kg versus G65: 5 kg). When the difference in anterior elevation force, in lateral rotation, and in medial rotation in relation to the contralateral shoulder (relative delta) was evaluated, the results were similar (p> 0.05) (►Table 3). In addition, there were no significant differences between the groups in the elevation range (p= 0.16), in the lateral rotation (p= 0.71), nor in the medial rotation (p= 0.23).

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Table 3
Measurements of range of motion and strength according to each group

In addition to functional results and muscle strength, pain at follow-up was an evaluated clinical outcome. There were no statistically significant differences between the groups regarding the preoperative (p= 0.64) and the postoperative (p= 0.11) level of pain., nor in the evolution of pain with the procedure (p= 0.52) (►Table 2).

Comparison of Functional Scores between Groups

According to the UCLA score, we obtained 96.6% of satisfactory results in group G55 and 94.1% in the G65 group. In relation to the Constant score, 89.6% of the patients had satisfactory results in the G55 group, against 88.2% in the G65 group. It was observed that there is no statistically significant difference, at the level of 5%, in the results of the UCLA (p= 0.56) and of the Constant (p= 0.99) scores between the groups (►Table 4).

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Table 4
UCLA and Constant scores according to group

Discussion

The most important finding of the present study was the absence of significant differences in clinical and functional outcomes between groups of patients < 55 years and > 65 years old after arthroscopic RC repair for, supposedly, not bringing adequate benefits to the patient. Some researchers showed no correlation between RC repair results and the age of the patients,²2 Hattrup SJ. Rotator cuff repair: relevance of patient age. J Shoulder Elbow Surg 1995; 4 (02) 95-100,²³23 Grondel RJ, Savoie 3rd. FH, Field LD. Rotator cuff repairs in patients 62 years of age or older. J Shoulder Elbow Surg 2001; 10 (02) 97-99,²⁴24 Rebuzzi E, Coletti N, Schiavetti S, Giusto F. Arthroscopic rotator cuff repair in patients older than 60 years. Arthroscopy 2005; 21 (01) 48-54 while others demonstrated poor results in older patients.²2 Hattrup SJ. Rotator cuff repair: relevance of patient age. J Shoulder Elbow Surg 1995; 4 (02) 95-100,²⁵25 Romeo AA, Hang DW, Bach Jr BR, Shott S. Repair of full thickness rotator cuff tears. Gender, age, and other factors affecting outcome. Clin Orthop Relat Res 1999; (367) 243-255

The correlation between age and RC repair results was studied by Osti et al.,²⁶26 Osti L, Papalia R, Del Buono A, Denaro V, Maffulli N. Comparison of arthroscopic rotator cuff repair in healthy patients over and under 65 years of age. Knee Surg Sports Traumatol Arthrosc 2010; 18 (12) 1700-1706 in 28 patients > 65 years old and in 28 patients < 65 years old. They evaluated motion range, the UCLA score, and the SF36 questionnaire and showed no statistical differences between groups. Moraiti et al.²⁷27 Moraiti C, Valle P, Maqdes A. et al. Comparison of functional gains after arthroscopic rotator cuff repair in patients over 70 years of age versus patients under 50 years of age: a prospective multicenter study. Arthroscopy 2015; 31 (02) 184-190 conducted a prospective multicenter study in which they evaluated the findings of arthroscopic RC repair in 40 patients < 50 years old and in another 40 patients > 70 years old, comparing them. They concluded that the group of older patients showed greater retraction of lesions and greater fatty infiltration in the preoperative evaluation, in addition to a lower rate of healing of the lesions in the postoperative period. However, there was no difference in functional outcome between groups. In our study, according to the UCLA score, we obtained 96.6% of satisfactory results in group G55 and 94.1% in the G65 group, showing no significant difference. Regarding the Constant score, we obtained 89.6% of satisfactory results in group G55 and 88.2% in the G65 group, also with no significant difference (►Table 4). Other studies show similar results in patients with complete RC lesions, such as the study conducted by Miyazaki et al.,²⁰20 Miyazaki AN, da Silva LA, Santos PD, Checchia SL, Cohen C, Giora TS. Evaluation of the results from arthroscopic surgical treatment of rotator cuff injuries in patients aged 65 years and over. Rev Bras Ortop 2015; 50 (03) 305-311 who evaluated 163 patients > 65 years old who showed complete RC lesions submitted to arthroscopic repair, presenting 96.4% of good and excellent results, in addition to another study, in which De Castro Veado et al.²⁸28 De Castro Veado MA, Prata EF, Gomes DC. Lesão do manguito rotador em pacientes maiores de 65 anos: avaliação da função, integridade e força. Rev Bras Ortop 2015; 50 (03) 318-323 evaluated 28 patients ≥ 65 years old, with 89.28% of good and excellent results.

We also evaluated the anterior elevation force, the lateral rotation, and the medial rotation of the patients. In group G55, we obtained a median of 8, 5 and 8.5 KgF, respectively. In group G65, the values were 4.8, 4 and 5 KgF, respectively. All these values were significantly higher in group G55 (►Table 3). However, when the difference between the operated shoulder and the contralateral shoulder was evaluated, there was no significant difference between the groups. Older patients have lower strength values due to progressive loss of muscle mass in both the operated and contralateral shoulder, which justifies these findings. Osti et al.²⁶26 Osti L, Papalia R, Del Buono A, Denaro V, Maffulli N. Comparison of arthroscopic rotator cuff repair in healthy patients over and under 65 years of age. Knee Surg Sports Traumatol Arthrosc 2010; 18 (12) 1700-1706 showed significant improvement in muscle strength between the preoperative evaluation and the last postoperative evaluation in both groups and showed no differences between groups of patients < 65 years old. They also did not obtain significant differences between these groups in relation to the ROM. In our study, the medians of the anterior elevation arch, of the lateral rotation, and of the medial rotation in group G55 were 172°, 64°, and 72°, respectively. In The G65, these values were 165°, 63°, and 64°, respectively, with no statistically significant difference between the groups (►Table 3).

Due to the higher prevalence of extensive RC lesions in older patients²2 Hattrup SJ. Rotator cuff repair: relevance of patient age. J Shoulder Elbow Surg 1995; 4 (02) 95-100 and to the lower surgical results of this type of lesion when compared to smaller lesions,⁴4 Ellman H, Hanker G, Bayer M. Repair of the rotator cuff. End-result study of factors influencing reconstruction. J Bone Joint Surg Am 1986; 68 (08) 1136-1144,⁵5 Pai VS, Lawson DA. Rotator cuff repair in a district hospital setting: outcomes and analysis of prognostic factors. J Shoulder Elbow Surg 2001; 10 (03) 236-241 we chose to exclude them from the present study, avoiding this type of bias in the results. In the group of patients < 55 years old, 44.8% of the lesions were partial, 41.4% were complete < 3 cm, and 13.8% measured between 3 and 5 cm. In the group of patients > 65 years old, 8.8% of the lesions were partial, 61.8% were complete < 3 cm, and 29.4% measured between 3 and 5 cm (►Table 1). This higher prevalence of complete lesions in the G65 group is due to the natural history of RC pathology, in which lesions tend to progress with advancing age and chronic involvement, resulting in progression from partial to complete lesions and in a higher rate of complete lesions in the older population.²⁹29 Millar NL, Wu X, Tantau R, Silverstone E, Murrell GA. Open versus two forms of arthroscopic rotator cuff repair. Clin Orthop Relat Res 2009; 467 (04) 966-978 Due to the higher number of complete lesions in patients in group G65, the median number of anchors in this group (3.5) was significantly higher compared with group G55 (3) (►Table 3).

Biomechanical studies emphasize the potential increase in the contact area in footprint and maximization of repair forces in DF, which can decrease the rate of anatomical failure.²⁷27 Moraiti C, Valle P, Maqdes A. et al. Comparison of functional gains after arthroscopic rotator cuff repair in patients over 70 years of age versus patients under 50 years of age: a prospective multicenter study. Arthroscopy 2015; 31 (02) 184-190,²⁸28 De Castro Veado MA, Prata EF, Gomes DC. Lesão do manguito rotador em pacientes maiores de 65 anos: avaliação da função, integridade e força. Rev Bras Ortop 2015; 50 (03) 318-323 However, in an analysis of clinical outcomes, controversies persist.³⁰30 DeHaan AM, Axelrad TW, Kaye E, Silvestri L, Puskas B, Foster TE. Does double-row rotator cuff repair improve functional outcome of patients compared with single-row technique? A systematic review. Am J Sports Med 2012; 40 (05) 1176-1185,³¹31 Chen M, Xu W, Dong Q, Huang Q, Xie Z, Mao Y. Outcomes of single-row versus double-row arthroscopic rotator cuff repair: a systematic review and meta-analysis of current evidence. Arthroscopy 2013; 29 (08) 1437-1449 In the present study, SF fixation was the most used in both groups, with no significant difference between them (►Table 2). We also did not find differences between the groups regarding comorbidities and the percentage of traumatic injuries.

Among the limitations of the present study is its retrospective and observational study design, which, therefore, does not allow us to conclude on the superiority of one group or of the other, but rather to raise hypotheses that should be confirmed through clinical trials. Another limitation refers to the nonevaluation of prognostic factors in the preoperative period, such as muscle trophism and the degree of fatty infiltration, as well as the absence of evaluation of postoperative imaging tests.

Conclusion

Arthroscopic repair shows satisfactory results for the treatment of RC ruptures, both in patients < 55 and > 65 years old, without major functional differences between the 2 groups. Older, active, selected patients can achieve functional improvement and quality of life similar to those of younger patients.

Financial Support

There was no financial support from public, commercial, or not-for-profit sources.
Work developed at the Instituto do Ombro de Brasília, Brasília, DF and the Centro Universitário de Brasília, Brasília, DF, Brazil.

References

¹
Tempelhof S, Rupp S, Seil R. Age-related prevalence of rotator cuff tears in asymptomatic shoulders. J Shoulder Elbow Surg 1999; 8 (04) 296-299
²
Hattrup SJ. Rotator cuff repair: relevance of patient age. J Shoulder Elbow Surg 1995; 4 (02) 95-100
³
Lafosse L, Brzoska R, Toussaint B, Gobezie R. The outcome and structural integrity of arthroscopic rotator cuff repair with use of the double-row suture anchor technique. Surgical technique. J Bone Joint Surg Am 2008; 90 (Suppl 2 Pt 2): 275-286
⁴
Ellman H, Hanker G, Bayer M. Repair of the rotator cuff. End-result study of factors influencing reconstruction. J Bone Joint Surg Am 1986; 68 (08) 1136-1144
⁵
Pai VS, Lawson DA. Rotator cuff repair in a district hospital setting: outcomes and analysis of prognostic factors. J Shoulder Elbow Surg 2001; 10 (03) 236-241
⁶
Boileau P, Brassart N, Watkinson DJ, Carles M, Hatzidakis AM, Krishnan SG. Arthroscopic repair of full-thickness tears of the supraspinatus: does the tendon really heal?. J Bone Joint Surg Am 2005; 87 (06) 1229-1240
⁷
Gazielly DF, Gleyze P, Montagnon C. Functional and anatomical results after rotator cuff repair. Clin Orthop Relat Res 1994; (304) 43-53
⁸
Krishnan SG, Harkins DC, Schiffern SC, Pennington SD, Burkhead WZ. Arthroscopic repair of full-thickness tears of the rotator cuff in patients younger than 40 years. Arthroscopy 2008; 24 (03) 324-328
⁹
Lin EC, Mall NA, Dhawan A. et al. Arthroscopic primary rotator cuff repairs in patients aged younger than 45 years. Arthroscopy 2013; 29 (05) 811-817
¹⁰
Miyazaki AN, Fregoneze M, Santos PD. et al. Avaliação dos resultados do reparo artroscópico de lesões do manguito rotador em pacientes com até 50 anos de idade. Rev Bras Ortop 2011; 46 (03) 276-280
¹¹
Davidson J, Burkhart SS. The geometric classification of rotator cuff tears: a system linking tear pattern to treatment and prognosis. Arthroscopy 2010; 26 (03) 417-424
¹²
Andrade RP, Correa Filho MRC, Queiroz BC. Lesões do manguito rotador. Rev Bras Ortop 2004; 39 (11/12): 621-635
¹³
Amstutz HC, Sew Hoy AL, Clarke IC. UCLA anatomic total shoulder arthroplasty. Clin Orthop Relat Res 1981; (155) 7-20
¹⁴
Constant CR, Murley AH. A clinical method of functional assessment of the shoulder. Clin Orthop Relat Res 1987; (214) 160-164
¹⁵
Scott J, Huskisson EC. Graphic representation of pain. Pain 1976; 2 (02) 175-184
¹⁶
Barreto RP, Barbosa ML, Balbinotti MA, Mothes FC, da Rosa LH, Silva MF. The Brazilian version of the Constant-Murley Score (CMS-BR): convergent and construct validity, internal consistency, and unidimensionality. Rev Bras Ortop 2016; 51 (05) 515-520
¹⁷
Oku EC, Andrade AP, Stadiniky SP, Carrera EF, Tellini GG. Tradução e adaptação cultural do Modified-University of California at Los Angeles Shoulder Rating Scale para a língua portuguesa. Rev Bras Reumatol 2006; 46 (04) 246-252
¹⁸
Carbonel I, Martinez AA, Calvo A, Ripalda J, Herrera A. Single-row versus double-row arthroscopic repair in the treatment of rotator cuff tears: a prospective randomized clinical study. Int Orthop 2012; 36 (09) 1877-1883
¹⁹
Godinho GG, França FdeO, Freitas JM. et al. Result from arthroscopic surgical treatment of renewed tearing of the rotator cuff of the shoulder. Rev Bras Ortop 2015; 50 (01) 89-93
²⁰
Miyazaki AN, da Silva LA, Santos PD, Checchia SL, Cohen C, Giora TS. Evaluation of the results from arthroscopic surgical treatment of rotator cuff injuries in patients aged 65 years and over. Rev Bras Ortop 2015; 50 (03) 305-311
²¹
Gilotra M, O'Brien MJ, Savoie 3rd. FH. Arthroscopic Rotator Cuff Repair: Indication and Technique. Instr Course Lect 2016; 65: 83-92
²²
Lo IK, Burkhart SS. Double-row arthroscopic rotator cuff repair: re-establishing the footprint of the rotator cuff. Arthroscopy 2003; 19 (09) 1035-1042
²³
Grondel RJ, Savoie 3rd. FH, Field LD. Rotator cuff repairs in patients 62 years of age or older. J Shoulder Elbow Surg 2001; 10 (02) 97-99
²⁴
Rebuzzi E, Coletti N, Schiavetti S, Giusto F. Arthroscopic rotator cuff repair in patients older than 60 years. Arthroscopy 2005; 21 (01) 48-54
²⁵
Romeo AA, Hang DW, Bach Jr BR, Shott S. Repair of full thickness rotator cuff tears. Gender, age, and other factors affecting outcome. Clin Orthop Relat Res 1999; (367) 243-255
²⁶
Osti L, Papalia R, Del Buono A, Denaro V, Maffulli N. Comparison of arthroscopic rotator cuff repair in healthy patients over and under 65 years of age. Knee Surg Sports Traumatol Arthrosc 2010; 18 (12) 1700-1706
²⁷
Moraiti C, Valle P, Maqdes A. et al. Comparison of functional gains after arthroscopic rotator cuff repair in patients over 70 years of age versus patients under 50 years of age: a prospective multicenter study. Arthroscopy 2015; 31 (02) 184-190
²⁸
De Castro Veado MA, Prata EF, Gomes DC. Lesão do manguito rotador em pacientes maiores de 65 anos: avaliação da função, integridade e força. Rev Bras Ortop 2015; 50 (03) 318-323
²⁹
Millar NL, Wu X, Tantau R, Silverstone E, Murrell GA. Open versus two forms of arthroscopic rotator cuff repair. Clin Orthop Relat Res 2009; 467 (04) 966-978
³⁰
DeHaan AM, Axelrad TW, Kaye E, Silvestri L, Puskas B, Foster TE. Does double-row rotator cuff repair improve functional outcome of patients compared with single-row technique? A systematic review. Am J Sports Med 2012; 40 (05) 1176-1185
³¹
Chen M, Xu W, Dong Q, Huang Q, Xie Z, Mao Y. Outcomes of single-row versus double-row arthroscopic rotator cuff repair: a systematic review and meta-analysis of current evidence. Arthroscopy 2013; 29 (08) 1437-1449

Publication Dates

Publication in this collection
02 Sept 2022
Date of issue
Jul-Aug 2022

History

Received
08 June 2021
Accepted
09 Sept 2021
Published
09 Feb 2022

This is an Open Access article distributed under the terms of the Creative Commons AttributionNoncommercial No Derivative License, which permits unrestricted noncommercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

[1] Financial Support

There was no financial support from public, commercial, or not-for-profit sources.

[2] Work developed at the Instituto do Ombro de Brasília, Brasília, DF and the Centro Universitário de Brasília, Brasília, DF, Brazil.

Variable	G55		G65		p-value
Variable	n	%	n	%	p-value
Operated shoulder
Right	19	65.5	17	50.0	0.21
Left	10	34.5	17	50.0	0.21
Dominant member
Right	27	93.1	30	88.2	0.42
Left	2	6.9	4	11.8	0.42
Injury size
Complete	17	58.6	31	91.2	0.002
Partial	12	41.4	3	8.8	0.002
Subscapular tendon
Yes	12	44.4	15	44.1	0.83
No	17	58.6	19	55.9	0.83
Supraspinal tendon
Yes	27	93.1	33	97.1	0.44
No	2	6.9	1	2.9	0.44
Infraspinal tendon
Yes	6	20.7	9	26.5	0.59
No	23	79.3	25	73.5	0.59
Lesion classification
Partial	13	44.8	3	8.8	0.004
Small + medium	12	41.4	21	61.8
Large	4	13.8	10	29.4

Variable	G55		G65		p-value
Variable	n	%	n	%	p-value
Type of fixation
Double row	13	44.8	10	29.4	0.21
Single row	16	55.2	24	70.6	0.21
Type of lesion
Degenerative	16	55.2	22	64.7	0.44
Traumatic	13	44.8	12	35.3	0.44
Number of anchors
1 or 2	12	41.4	3	8.8	0.009
3	9	31.0	14	41.2
4, 5 or 6	8	27.6	17	50.0
Comorbidities
Yes	5	17.2	12	35.3	0.10
No	24	82.8	22	64.7	0.10
Pain before surgery
No pain	4	13.8	2	5.9	0.64
Mild	3	10.3	5	14.7
Moderate	6	20.7	5	14.7
Intense	16	55.2	22	64.7
Pain after surgery
No pain	19	65.5	16	47.1	0.11
Mild	3	10.3	12	35.3
Moderate	5	17.2	5	14.7
Intense	2	6.9	1	2.9
Pain evolution
With satisfactory improvement	21	72.4	27	79.4	0.52
Without satisfactory improvement	8	27.6	7	20.6	0.52

Variable	G55				G65				p-value
Variable	Median	IIQ			Median	IIQ			p-value
Clinical
Age (years old)	51	47	-	54	70	67	-	72	NSA
Number of anchors	3	2	-	4	3.5	3	-	4	0.021
Operated shoulder
Elevation ROM°	172	135	-	180	165	150	-	176	0.16
Lateral rotation ROM°	64	46	-	83	63	49	-	71	0.71
Medial rotation ROM°	72	50	-	80	64	50	-	80	0.23
High strength (KgF)	8	4.8	-	10	4.8	2.8	-	5.3	0.0006
Lateral rotation strength (KgF)	5	3.8	-	9	4	2.5	-	6.3	0.015
Medial rotation strength (KgF)	8.5	5	-	12	5	3.9	-	8	0.007
Contralateral shoulder
Elevation ROM°	180	165	-	180	170	160	-	180	0.18
Lateral rotation ROM°	78	58	-	90	70.5	56	-	80	0.46
Medial rotation ROM°	75	60	-	80	69	48	-	80	0.22
High strength (KgF)	7.5	5.5	-	11.5	5	3.9	-	7	0.0009
Lateral rotation strength (KgF)	7	4.8	-	8.8	4.8	3.0	-	7.0	0.010
Medial rotation strength (KgF)	8	6.3	-	12	5	3.5	-	7.3	0.001
Relative Delta (%)
Elevation ROM°	0	-9.6	-	0	0	-6	-	0	0.45
Lateral rotation ROM°	-6.3	-25	-	0	-9.3	-26	-	10	0.97
Medial rotation ROM°	-5.9	-15	-	0	0	-13	-	1	0.28
High strength (KgF)	-9.1	-23	-	0	-9.6	-31	-	11	0.85
Lateral rotation strength (KgF)	-8.3	-30	-	3	-9.5	-20	-	0	0.87
Medial rotation strength (KgF)	0	-17	-	4	0	-8	-	9	0.43

Brasil

Brasil

Arthroscopic Treatment of Rotator Cuff Rupture in Patients Under 55 years Old versus Patients Older than 65 Years Old

Abstract

Objective

Methods

Results

Conclusion

Resumo

Objetivo

Métodos

Resultados

Conclusão

Introduction

Methodology

Study design and participants

Analysis outcomes

Methods and instruments

Surgical procedure

Postoperative rehabilitation

Ethical approvals

Statistics

Results

Demographic and Surgical Characteristics among Groups

Characteristics of Rotator Cuff Injuries between Groups

Comparison of Muscle Strength, Functional and Pain Variables between Groups

Comparison of Functional Scores between Groups

Discussion

Conclusion

References

Publication Dates

History

Variable	G55		G65		p-value
Variable	n	%	n	%	p-value
UCLA
Satisfactory	28	96.6	32	94.1	0.56
Unsatisfactory	1	3.4	2	5.9	0.56
Constant
Excellent	21	72.4	25	73.5	0.99
Satisfactory	5	17.2	5	14.7
Bad	3	10.3	4	11.8