Treatment of Irreparable Rotator Cuff Tears: Superior Capsular Reconstruction with Fascia Lata Allograft

Beraldo, Rodrigo Alves; Gracitelli, Mauro Emilio Conforto; Malavolta, Eduardo Angeli; Assunção, Jorge Henrique; Silva, Fernando Brandão de Andrade e; Ferreira Neto, Arnaldo Amado

doi:10.1055/s-0041-1732389

Abstract

Objective

The objective of the present study was to evaluate the efficacy and safety of superior capsular reconstruction (SCR) using fascia lata allograft.

Methods

A prospective case series of 15 patients with irreparable supraspinatus tear who underwent SCR using fascia lata allograft. The American Shoulder and Elbow Surgeons (ASES) scale at 12 months after surgery was the primary outcome. The University of California Los Angeles (UCLA), Constant-Murley, and Single Assessment Numeric Evaluation (SANE) scales, in addition to the range of motion, were secondary outcomes. Radiological parameters were also evaluated by simple radiographs and magnetic resonance imaging (MRI).

Results

Fifteen patients completed 12 months of postoperative follow-up. The ASES score increased from 34.0 to 73.0 (p= 0.005). The UCLA, Constant-Murley, and SANE scales also showed statistically significant differences (p= 0.001; p= 0.005; and p= 0.046). In the evaluation of range of motion, there was improvement in elevation and in external rotation (95 to 140°, p= 0.003; 30 to 60°, p= 0.007). Six patients (40%) had complete graft healing. The clinical outcomes were significantly higher in the patients who presented graft healing.

Conclusions

Superior capsular reconstruction using a fascia lata allograft is a safe and effective procedure in short follow-up. Level of Evidence IV; Therapeutic Study; Case Series.

Keywords
rotator cuff injuries/surgery; shoulder joint; joint capsule; fascia lata/transplantation; treatment outcome

Resumo

Objetivo

O objetivo do presente estudo foi avaliar a eficácia e a segurança da reconstrução capsular superior (RCS) com a utilização do aloenxerto de fáscia lata.

Métodos

Uma série de casos prospectivos de 15 pacientes com ruptura irreparável do supraespinhal foi submetida a RCS com aloenxerto de fáscia lata, sendo adotada como desfecho primário a escala American Shoulder and Elbow Surgeons (ASES, na sigla em inglês) aos 12 meses do pós-operatório. Como desfechos secundários, foram adotadas as escalas da University of California Los Angeles (UCLA, na sigla em inglês), Constant-Murley, e Single Assessment Numeric Evaluation (SANE, na sigla em inglês), além da amplitude de movimento. Os parâmetros radiológicos também foram avaliados por radiografias simples e ressonância magnética (RM).

Resultados

Quinze pacientes completaram 12 meses de acompanhamento pós-operatório. O escore ASES aumentou de 34,0 para 73,0 (p= 0,005). As escalas UCLA, Constant-Murley e SANE também apresentaram diferenças estatisticamente significativas (p= 0,001; p= 0,005; e p= 0,046). Na avaliação da amplitude de movimento, houve melhora na elevação e rotação externa (95 a 140°, p= 0,003; 30 a 60°, p= 0,007). Seis pacientes (40%) tiveram cicatrização completa do enxerto. Os desfechos clínicos foram significativamente maiores nos pacientes que apresentaram cicatrização do enxerto.

Conclusões

A RCS com aloenxerto de fáscia lata é um procedimento seguro e eficaz com um curto acompanhamento de tempo. Nível de evidência IV; Estudo Terapêutico; Série de casos.

Palavras-chave
lesões do manguito rotador/cirurgia; articulação do ombro; cápsula articular; fáscia lata/transplante; resultado do tratamento

Introduction

Rotator cuff tear is a common condition, affecting ∼ 20% of the population.¹1 Yamamoto A, Takagishi K, Osawa T, et al. Prevalence and risk factors of a rotator cuff tear in the general population. J Shoulder Elbow Surg 2010;19(01):116-120 The surgical treatment for this lesion usually has significant clinical improvement.²2 Burks RT, Crim J, Brown N, Fink B, Greis PE. A prospective randomized clinical trial comparing arthroscopic single- and double-row rotator cuff repair: magnetic resonance imaging and early clinical evaluation. Am J Sports Med 2009;37(04):674-682 However, healing failures are frequent, with retears in 27% of the cases.³3 McElvany MD, McGoldrick E, Gee AO, Neradilek MB, Matsen FA 3rd. Rotator cuff repair: published evidence on factors associated with repair integrity and clinical outcome.Am J Sports Med 2015; 43(02):491-500 The treatment of massive rotator cuff tears is particularly challenging, because the repair and its consequent healing are hampered by tendon retraction, muscle atrophy, and fatty degeneration.³3 McElvany MD, McGoldrick E, Gee AO, Neradilek MB, Matsen FA 3rd. Rotator cuff repair: published evidence on factors associated with repair integrity and clinical outcome.Am J Sports Med 2015; 43(02):491-500 There is still no consensus for the treatment of irreparable supraspinatus tears, especially in young patients.

Mihata et al.⁴4 Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470,⁵5 Mihata T, McGarry MH, Pirolo JM, Kinoshita M, Lee TQ. Superior capsule reconstruction to restore superior stability in irreparable rotator cuff tears: a biomechanical cadaveric study. Am J Sports Med 2012;40(10):2248-2255 described a procedure for superior capsular reconstruction (SCR) in patients with massive supraspinatus tears that aimed at restoring the upper stability of the glenohumeral joint and, thus, re-establishing the function of the remaining rotator cuff. Originally, the technique used autologous fascia lata for the graft.⁴4 Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470 To reduce patient morbidity and surgical time, decellularized human dermis has gained popularity in SCR surgeries.⁶6 Tokish JM, Beicker C. Superior capsule reconstruction technique using an acellular dermal allograft. Arthrosc Tech 2015;4(06): e833-e839 To date, no clinical study has used the fascia lata allograft for SCR. Using this graft would have some advantages, including decreased patient morbidity, shorter surgical time, and adequate graft resistance.⁷7 Mihata T, Bui CNH, Akeda M, et al. A biomechanical cadaveric study comparing superior capsule reconstruction using fascia lata allograft with human dermal allograft for irreparable rotator cuff tear. J Shoulder Elbow Surg 2017;26(12):2158-2166

The aim of the present study is to evaluate the clinical results and healing of SCR. Our hypothesis is that SCR with fascia lata allograft has good clinical results, especially when there is graft healing.

Materials and Methods

Study Design and Population Studied

Fifteen patients underwent SCR in a prospective cohort study. All patients were treated in the same institution and agreed to sign the informed consent form (CAAE-62105616.4.0000.0068).

We included patients with symptoms of pain or functional deficit and with a diagnosis of massive tear of the supraspinatus tendon, classified as grade 2, 3 or 4 of fatty degeneration, according to Goutallier et al.⁸8 Goutallier D, Postel JM, Bernageau J, Lavau L, Voisin MC. Fatty muscle degeneration in cuff ruptures. Pre- and postoperative evaluation by CT scan. Clin Orthop Relat Res 1994; (304):78-83 In addition, all patients had active external rotation > 0°.

Patients with full-thickness subscapularis tear with type 3 or 4 fatty degeneration, patients with rotator cuff arthropathy classified as Hamada et al.⁹9 Hamada K, Fukuda H, Mikasa M, Kobayashi Y. Roentgenographic findings in massive rotator cuff tears. A long-term observation. Clin Orthop Relat Res 1990;(254):92-96 grade 5, and patients with previous shoulder injuries, such as brachial plexus injuries, proximal fractures of the humerus, and treated for active infection, were not included. Cases in which repair of the supraspinatus tendon was possible or cases in which repair of the subscapularis tendon was not possible were excluded.

Intervention

The surgeries were performed by the same shoulder and elbow surgeon with 11 years of experience [blinded]. Fascia lata allografts from the tissue bank were used, according to the standard collection protocol of the institution.

The procedure followed the steps described by Mihata et al.,⁴4 Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470,¹⁰10 Mihata T, McGarry MH, Kahn T, Goldberg I, Neo M, Lee TQ. Biomechanical Effects of Acromioplasty on Superior Capsule Reconstruction for Irreparable Supraspinatus Tendon Tears. Am J Sports Med 2016;44(01):191-197 but with a single-row fixation technique, previously described by the authors [blinded]. All cases were operated using an arthroscopic technique with the patient positioned in lateral decubitus with the arm abducted at 30°. Biceps tenotomy, bursectomy and acromioplasty were done in all cases. Subscapular tears were repaired when there was any partial or complete tear. Patients in whom the supraspinatus tendon was repairable were excluded from the study.

The first step of the SCR consisted of preparing the upper region of the glenoid and greater tuberosity and creating the accessory portals. Two portals, anterosuperior and posterosuperior, were made for the insertion of the anchors into the greater tubercle. The Neviaser portal, which allows the insertion of the posterior anchor into the glenoid and permits graft traction via a double pulley system, was also made. The anterior anchor of the glenoid was introduced through the anterior portal. All the anchors used were 5 mm, metallic, and double-loaded.

Next, a graft of the appropriate size was prepared, having to be folded 3 to 4 times to reach a thickness of 6 to 8 mm (►Fig. 1). The distances between the anchors were used to determine the location of the graft stitches (►Fig. 2).

Fig. 1
Fascia lata allograft 8 mm in thickness.

Fig. 2
Fascia lata allograft with temporary sutures according to the measurements taken arthroscopically.

The subsequent step consisted of fixation of the graft to the glenoid by performing an outside-in double pulley suture, in which the graft was pulled by the anchor threads through the medial Neviaser portal. After medial and lateral fixation of the graft, simple sutures were performed between the graft and the infraspinatus tendon¹¹11 Gracitelli MEC, Beraldo RA, Malavolta EA, Assunção JH, Oliveira DRO, Ferreira Neto AA. Superior capsular reconstruction with fascia lata allograft for irreparable supraspinatus tendon tears. Rev Bras Ortop (Sao Paulo) 2019;54(05):591-596 (►Fig. 3).

Fig. 3
Final aspect of the superior capsular reconstruction with fascia lata allograft.

Postoperative Follow-up

Rehabilitation followed the same protocol as that of rotator cuff repair. Patients were instructed to use an abduction pillow sling for 6 weeks. After 4 weeks, the patients underwent passive movement therapy, and active movement therapy was started after the 6^th week. Twelve weeks after surgery, exercises to strengthen the rotator cuff and the stabilizing musculature of the scapula were started.

Outcomes

The ASES scale applied 12 months after surgery was adopted as the primary outcome. The secondary outcomes adopted were the Constant-Murley, UCLA, and SANE scales; active range of motion was assessed with the patient in the standing position. Elevation, external, and internal rotation were evaluated. All measurements were performed with a goniometer, except internal rotation, which was assessed according to the position of the hand of the patient in relation to the vertebral spinous processes and subsequently converted to continuous numbers using a scale from 1 to 19 (T1 to T12 = 1 to 12; L1 to L5 = 13 to 17; sacrum = 18; and greater trochanter = 19). The distance between the acromion and the head of the humerus was evaluated by the Ellman¹²12 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 method; assessment of the healing of the graft was performed through MRI 6 months after the procedure; as well as complications and reoperations. The graft was considered “unhealed” when it showed signs of discontinuity in two or more T1- and T2 continuous oblique coronal cuts. The scales and range of motion were assessed by an independent evaluator, and the MRIs were evaluated by a musculoskeletal radiologist.

Statistical Analysis

We subjected the continuous variables to the evaluation of normality through the Kolmogorov-Smirnov test and of homogeneity through the Levene test. The continuous data were expressed as mean, median, standard deviation (SD) and interquartile range. The categorical variables were expressed as absolute value and percentage. The comparison between the different variables before and after treatment was performed using the chi-squared or the Fisher exact test for categorical variables and the Wilcoxon test for continuous variables. We used IBM SPSS Statistics for Windows version 21.0 (IBM Corp., Armonk, NU, USA) for data analysis, with a significance level of 5%.

Results

Twenty patients were initially included for SCR using fascia lata allograft between March 2017 and February 2018. During surgery, 5 patients were excluded from the study after complete rotator cuff repair. No patients were lost to follow-up. Thus, 15 patients received the surgical treatment proposed. The general characteristics of the sample are shown in ►Table 1.

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Table 1
Distribution of the absolute and relative frequencies of the variables intrinsic to the patient

The median for the ASES scale increased from a preoperative value of 34.0 to 73.0 at 12 months (p= 0.005). The UCLA scale increase from 11.0 to 27.0, the Constant-Murley from 41.0 to 73.0, and the SANE from 50.0 to 70.0 (p= 0.001, p= 0.005, and p= 0.046, respectively). The values are shown in ►Table 2.

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Table 2
Clinical evaluation results according to the ASES, UCLA, Constant-Murley, and SANE scales

The patients presented a statistically significant difference for active range of motion in both elevation (p= 0.003) and external rotation (p= 0.007). The values are shown in ►Table 3.

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Table 3
Active range of motion evaluation

There was an increase in the average acromioumeral distance from 3.62 mm (SD = 1.4) to 7.04 mm (SD = 1.6).

Graft healing occurred in 6 patients (40%) at the 6-month postoperative MRI. Among the patients without healing, there was predominance of Hamada 3 and 4 (66.7%), while among those with healing, there was a predominance of Hamada 1 and 2 (83.3%). ►Table 4 shows the distribution of the patients comparing the preoperative Hamada classification and graft healing.

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Table 4
Relationship between graft healing and Hamada classification¹⁶16 Burkhart SS, Hartzler RU. Superior capsular reconstruction reverses profound pseudoparalysis in patients with irreparable rotator cuff tears and minimal or no glenohumeral arthritis. Arthroscopy 2019;35(01):22-28

The subgroup analysis comparing cases with and without graft healing showed that cases with healing presented better functional results according to the ASES, UCLA and Constant-Murley scales, and the highest active elevation and internal rotation. The values are presented in ►Table 5 and ►Table 6.

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Table 5
Subgroup analysis for ASES, UCLA, Constant-Murley, and SANE scales according to graft healing

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Table 6
Active range of motion evaluation according to graft healing

No superficial or deep infections, neurological lesions, hematomas, or joint stiffness were reported.

Discussion

Regarding the clinical outcomes, there was a statistically significant improvement in the ASES scale, with a median preoperative score of 34.0 and a 12-month score of 73.0 (p= 0.003). Although all studies show statistically significant improvements, there are some differences in the ASES scale values when compared with the others. Mihata et al.,⁴4 Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470 using autografts, obtained excellent results with the mean ASES scale score increasing from 23.5 to 92.9 in their first published clinical study. In addition, the same authors reported similar results in other subsequently published studies.¹³13 Mihata T, Lee TQ. Clinical Outcomes of Superior Capsule Reconstruction for Irreparable Rotator Cuff Tears without Osteoarthritis in the Glenohumeral Joint. Journal of Shoulder and Elbow Surgery 2015;24(04):e107-e109,¹⁴14 Mihata T, Lee TQ, Fukunishi K, et al. Return to sports and physical work after arthroscopic superior capsule reconstruction among patients with irreparable rotator cuff tears. Am J Sports Med 2018;46(05):1077-1083 However, Pennington et al.¹⁵15 Pennington WT, Bartz BA, Pauli JM, Walker CE, Schmidt W. Arthroscopic superior capsular reconstruction with acellular dermal allograft for the treatment of massive irreparable rotator cuff tears: short-term clinical outcomes and the radiographic parameter of superior capsular distance. Arthroscopy 2018;34(06):1764-1773 and Burkhart et al.¹⁶16 Burkhart SS, Hartzler RU. Superior capsular reconstruction reverses profound pseudoparalysis in patients with irreparable rotator cuff tears and minimal or no glenohumeral arthritis. Arthroscopy 2019;35(01):22-28 published promising results using decellularized human dermis, but without achieving a mean ASES scale score > 90 points (82 and 89, respectively). Similarly to our study, both Denard et al.¹⁷17 Denard PJ, Brady PC, Adams CR, Tokish JM, Burkhart SS. Preliminary results of arthroscopic superior capsule reconstruction with dermal allograft. Arthroscopy 2018;34(01):93-99 and Hirahara et al.¹⁸18 Hirahara AM, Andersen WJ, Panero AJ. Superior capsular reconstruction: clinical outcomes after minimum 2-year follow-up. Am J Orthop (Belle Mead NJ) 2017;46(06):266-278 achieved statistically significant results with ASES scale values < 80 points (77.5 and 70.7, respectively) using dermal grafts. Improvement in all clinical scores corroborates the results presented in four recently published literature reviews.¹⁹19 Catapano M, de Sa D, Ekhtiari S, Lin A, Bedi A, Lesniak BP. Arthroscopic superior capsular reconstruction for massive, irreparable rotator cuff tears: a systematic review ofmodern literature. Arthroscopy 2019;35(04):1243-1253

20 Sochacki KR, McCulloch PC, Lintner DM, Harris JD. Superior capsular reconstruction for massive rotator cuff tear leads to significant improvement in range of motion and clinical outcomes: a systematic review. Arthroscopy 2019;35(04):1269-1277

21 Ekhtiari S, Adili AF, Memon M, et al. Sources, quality, and reported outcomes of superior capsular reconstruction: a systematic review. Curr Rev Musculoskelet Med 2019;12(02):173-180-²²22 Galvin JW, Kenney R, Curry EJ, et al. Superior capsular reconstruction for massive rotator cuff tears: a critical analysis review. JBJS Rev 2019;7(06):e1;1-11

In the active range of motion assessment, there were improvements both in elevation, which increased from 95 to 140° (p= 0.003), and in external rotation, which increased from 30 to 60° (p= 0.007). Our results are in line with what has already been published regarding range of motion after SCR, both in studies that used autografts ⁴4 Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470,¹³13 Mihata T, Lee TQ. Clinical Outcomes of Superior Capsule Reconstruction for Irreparable Rotator Cuff Tears without Osteoarthritis in the Glenohumeral Joint. Journal of Shoulder and Elbow Surgery 2015;24(04):e107-e109,²³23 Mihata T, Lee TQ, Hasegawa A, et al. Arthroscopic superior capsule reconstruction can eliminate pseudoparalysis in patients with irreparable rotator cuff tears. Am J Sports Med 2018;46(11):2707-2716 and in studies that used decellularized human dermis grafts.¹⁵15 Pennington WT, Bartz BA, Pauli JM, Walker CE, Schmidt W. Arthroscopic superior capsular reconstruction with acellular dermal allograft for the treatment of massive irreparable rotator cuff tears: short-term clinical outcomes and the radiographic parameter of superior capsular distance. Arthroscopy 2018;34(06):1764-1773

16 Burkhart SS, Hartzler RU. Superior capsular reconstruction reverses profound pseudoparalysis in patients with irreparable rotator cuff tears and minimal or no glenohumeral arthritis. Arthroscopy 2019;35(01):22-28

17 Denard PJ, Brady PC, Adams CR, Tokish JM, Burkhart SS. Preliminary results of arthroscopic superior capsule reconstruction with dermal allograft. Arthroscopy 2018;34(01):93-99-¹⁸18 Hirahara AM, Andersen WJ, Panero AJ. Superior capsular reconstruction: clinical outcomes after minimum 2-year follow-up. Am J Orthop (Belle Mead NJ) 2017;46(06):266-278

Regarding the acromiohumeral distance, we observed a mean of 3.62 mm preoperatively and of 7.04 mm postoperatively. This finding is similar to that demonstrated in previous publications with gains that range from 2.6 to 5 mm after surgery.⁴4 Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470,¹⁵15 Pennington WT, Bartz BA, Pauli JM, Walker CE, Schmidt W. Arthroscopic superior capsular reconstruction with acellular dermal allograft for the treatment of massive irreparable rotator cuff tears: short-term clinical outcomes and the radiographic parameter of superior capsular distance. Arthroscopy 2018;34(06):1764-1773,¹⁸18 Hirahara AM, Andersen WJ, Panero AJ. Superior capsular reconstruction: clinical outcomes after minimum 2-year follow-up. Am J Orthop (Belle Mead NJ) 2017;46(06):266-278

In the evaluation of graft healing after 6 months of follow-up, 6 patients (40%) presented complete healing, and 9 patients (60%) showed signs of non-healing. Similarly, in 2018, Denard et al.¹⁷17 Denard PJ, Brady PC, Adams CR, Tokish JM, Burkhart SS. Preliminary results of arthroscopic superior capsule reconstruction with dermal allograft. Arthroscopy 2018;34(01):93-99 published a 45% healing rate, while AlRamadhan et al.²⁴24 Al Ramadhan H, Sungjoon L, In-Ho J. Early MRI findings of arthroscopic superior capsule reconstruction (ASCR): how to prevent early failure. Arthroscopy 2017;33(06 Suppl):e21 and Lee et al.²⁵25 Lee SJ, Min YK. Can inadequate acromiohumeral distance improvement and poor posterior remnant tissue be the predictive factors of re-tear? Preliminary outcomes of arthroscopic superior capsular reconstruction. Knee Surg Sports Traumatol Arthrosc 2018;26(07):2205-2213 reported rates of 69.3 and 63.8%, respectively. However, Mihata et al.⁴4 Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470,¹³13 Mihata T, Lee TQ. Clinical Outcomes of Superior Capsule Reconstruction for Irreparable Rotator Cuff Tears without Osteoarthritis in the Glenohumeral Joint. Journal of Shoulder and Elbow Surgery 2015;24(04):e107-e109 observed higher rates following SCR, with levels of 83.3 and 93% in studies published in 2013 and 2015. After a systematic review that evaluated a total of 350 cases, Catapano et al.¹⁹19 Catapano M, de Sa D, Ekhtiari S, Lin A, Bedi A, Lesniak BP. Arthroscopic superior capsular reconstruction for massive, irreparable rotator cuff tears: a systematic review ofmodern literature. Arthroscopy 2019;35(04):1243-1253 reported a graft healing rate of 87.5%, a finding similar to the rate of 85.8% published by Sochacki et al.,²⁰20 Sochacki KR, McCulloch PC, Lintner DM, Harris JD. Superior capsular reconstruction for massive rotator cuff tear leads to significant improvement in range of motion and clinical outcomes: a systematic review. Arthroscopy 2019;35(04):1269-1277 also in a systematic review.

When we correlated the graft healing rate with the preoperative Hamada classification, we observed that of the 9 non-healing patients, 6 (66.7%) were classified as Hamada 3 or 4, while 83.3% of the healing patients were classified as Hamada 1 or 2. Although our sample was small, which diminishes the power of the results, our data corroborate with Denard et al.,¹⁷17 Denard PJ, Brady PC, Adams CR, Tokish JM, Burkhart SS. Preliminary results of arthroscopic superior capsule reconstruction with dermal allograft. Arthroscopy 2018;34(01):93-99 who published a healing rate of 75% in Hamada 1 and 2 patients and of only 44% in patients classified as Hamada 3 or 4. These data may help us understand the high healing rates published by Mihata et al. (83.3%),⁴4 Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470 given that only 2 patients in his series of 24 cases were classified as Hamada 3 or 4.

When we evaluated the clinical scores by “healing” and “non-healing” subgroups, we observed that they did not present any preoperative statistical difference. However, at the 12-month follow-up, all scores were statistically higher in the healing group, except for the SANE scale. Similar to the findings described by Denard et al.,¹⁷17 Denard PJ, Brady PC, Adams CR, Tokish JM, Burkhart SS. Preliminary results of arthroscopic superior capsule reconstruction with dermal allograft. Arthroscopy 2018;34(01):93-99 who published an ASES mean score of 90.0 in patients with graft healing versus 66.5 in non-healing cases (p= 0.027). We also observed a statistically significant difference in the evaluation of active elevation, with a median of 175° in the healed subgroup versus 133° in the unhealed subgroup (p= 0.020), a finding similar to that published by Mihata et al.¹³13 Mihata T, Lee TQ. Clinical Outcomes of Superior Capsule Reconstruction for Irreparable Rotator Cuff Tears without Osteoarthritis in the Glenohumeral Joint. Journal of Shoulder and Elbow Surgery 2015;24(04):e107-e109 These data suggest that the preoperative Hamada classification may assist in the prognosis and indication of the SCR procedure. Frank et al.,²⁶26 Frank RM, Cvetanovich G, Savin D, Romeo AA. Superior capsular reconstruction: indications, techniques, and clinical outcomes. JBJS Rev 2018;6(07):e10; 1-8 in a literature review, suggested that only patients classified as Hamada 1 and 2 are candidates for SCR, and our study corroborates this suggestion.

As limitations, we can highlight the fact that the present study was noncomparative, with a relatively small sample and short follow-up. However, the sample size is within the average range of the other studies,⁴4 Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470,¹⁶16 Burkhart SS, Hartzler RU. Superior capsular reconstruction reverses profound pseudoparalysis in patients with irreparable rotator cuff tears and minimal or no glenohumeral arthritis. Arthroscopy 2019;35(01):22-28,¹⁸18 Hirahara AM, Andersen WJ, Panero AJ. Superior capsular reconstruction: clinical outcomes after minimum 2-year follow-up. Am J Orthop (Belle Mead NJ) 2017;46(06):266-278 and the follow-up time was similar to that published in earlier studies.¹⁵15 Pennington WT, Bartz BA, Pauli JM, Walker CE, Schmidt W. Arthroscopic superior capsular reconstruction with acellular dermal allograft for the treatment of massive irreparable rotator cuff tears: short-term clinical outcomes and the radiographic parameter of superior capsular distance. Arthroscopy 2018;34(06):1764-1773

16 Burkhart SS, Hartzler RU. Superior capsular reconstruction reverses profound pseudoparalysis in patients with irreparable rotator cuff tears and minimal or no glenohumeral arthritis. Arthroscopy 2019;35(01):22-28

17 Denard PJ, Brady PC, Adams CR, Tokish JM, Burkhart SS. Preliminary results of arthroscopic superior capsule reconstruction with dermal allograft. Arthroscopy 2018;34(01):93-99-¹⁸18 Hirahara AM, Andersen WJ, Panero AJ. Superior capsular reconstruction: clinical outcomes after minimum 2-year follow-up. Am J Orthop (Belle Mead NJ) 2017;46(06):266-278,²⁴24 Al Ramadhan H, Sungjoon L, In-Ho J. Early MRI findings of arthroscopic superior capsule reconstruction (ASCR): how to prevent early failure. Arthroscopy 2017;33(06 Suppl):e21 In addition, another limitation was the lateral fixation of the graft performed with the single-row technique. However, good results were achieved with the single-row technique, especially in patients with Hamada classification 1 or 2.²⁴24 Al Ramadhan H, Sungjoon L, In-Ho J. Early MRI findings of arthroscopic superior capsule reconstruction (ASCR): how to prevent early failure. Arthroscopy 2017;33(06 Suppl):e21,²⁵25 Lee SJ, Min YK. Can inadequate acromiohumeral distance improvement and poor posterior remnant tissue be the predictive factors of re-tear? Preliminary outcomes of arthroscopic superior capsular reconstruction. Knee Surg Sports Traumatol Arthrosc 2018;26(07):2205-2213

Even though it has shown satisfactory initial results, SCR is a relatively recent procedure. Further clinical studies are needed to confirm its long-term effectiveness and define the type of patient for this surgery. In addition, the ideal graft and its fixation method also need to be defined.

Conclusion

Superior capsular reconstruction with allograft fascia lata is a safe procedure that provides clinical improvement to patients. Better results are shown in cases where complete healing of the graft occurs.

Work developed in the Shoulder and Elbow Group of the Institute of Orthopedics and Traumatology, Hospital das Clínicas, Faculty of Medicine, University of São Paulo, São Paulo, SP, Brazil.

References

¹
Yamamoto A, Takagishi K, Osawa T, et al. Prevalence and risk factors of a rotator cuff tear in the general population. J Shoulder Elbow Surg 2010;19(01):116-120
²
Burks RT, Crim J, Brown N, Fink B, Greis PE. A prospective randomized clinical trial comparing arthroscopic single- and double-row rotator cuff repair: magnetic resonance imaging and early clinical evaluation. Am J Sports Med 2009;37(04):674-682
³
McElvany MD, McGoldrick E, Gee AO, Neradilek MB, Matsen FA 3rd. Rotator cuff repair: published evidence on factors associated with repair integrity and clinical outcome.Am J Sports Med 2015; 43(02):491-500
⁴
Mihata T, Lee TQ,Watanabe C, et al. Clinical results of arthroscopic superior capsule reconstruction for irreparable rotator cuff tears. Arthroscopy 2013;29(03):459-470
⁵
Mihata T, McGarry MH, Pirolo JM, Kinoshita M, Lee TQ. Superior capsule reconstruction to restore superior stability in irreparable rotator cuff tears: a biomechanical cadaveric study. Am J Sports Med 2012;40(10):2248-2255
⁶
Tokish JM, Beicker C. Superior capsule reconstruction technique using an acellular dermal allograft. Arthrosc Tech 2015;4(06): e833-e839
⁷
Mihata T, Bui CNH, Akeda M, et al. A biomechanical cadaveric study comparing superior capsule reconstruction using fascia lata allograft with human dermal allograft for irreparable rotator cuff tear. J Shoulder Elbow Surg 2017;26(12):2158-2166
⁸
Goutallier D, Postel JM, Bernageau J, Lavau L, Voisin MC. Fatty muscle degeneration in cuff ruptures. Pre- and postoperative evaluation by CT scan. Clin Orthop Relat Res 1994; (304):78-83
⁹
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Publication Dates

Publication in this collection
21 Nov 2022
Date of issue
Sep-Oct 2022

History

Received
21 Oct 2020
Accepted
11 Feb 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution-Noncommercial 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] Work developed in the Shoulder and Elbow Group of the Institute of Orthopedics and Traumatology, Hospital das Clínicas, Faculty of Medicine, University of São Paulo, São Paulo, SP, Brazil.

	Cases
Gender, n (%)
Male	8 (53.3)
Female	7 (46.7)
Age (years old)
Mean (SD)	60.6 (8.56)
Smoker, n (%)
Yes	1 (6.7)
Ex-smoker	4 (26.7)
No	11 (66.6)
Diabetes, n (%)
Yes	4 (26.7)
No	11 (73.3)
Side affected, n (%)
Right	13 (86.7)
Left	2 (13.3)
Dominant side affected, n (%)
Yes	15 (100)
No	0 (0)
Previous surgery, n (%)
Yes	3 (20)
No	12 (80)

	Median	p-value
Elevation
Initial	95.0
6 months	140.0	0.044
12 months	140.0	0.003
External rotation
Initial	30.0
6 months	40.0	0.076
12 months	60.0	0.007
Internal rotation
Initial	10.0
6 months	10.0	0.398
12 months	10.0	0.624

	Not healed		Healed
	n	%	n	%
HAMADA
1 + 2	3	37.5	5	62.5
3	2	66.7	1	33.3
4	4	100.0	0	0.0

Healing	NO		YES
Healing	Mean	Median	Mean	Median	p-value
ASES
Initial	36.1	37.0	39.0	31.5	0.906
6 months	48.1	43.0	86.5	90.0	0.003
12 months	58.0	55.0	87.3	90.0	0.013
UCLA
Initial	10.5	10.0	13.8	14.5	0.238
6 months	16.1	15.0	29.3	30.0	0.011
12 months	19.7	25.0	30.6	30.0	0.013
Constant-Murley
Initial	38.0	38.0	54.3	60.5	0.195
6 months	44.7	37.0	74.8	80.0	0.007
12 months	53.3	65.0	75.1	78.5	0.011
SANE
Initial	57.7	50.0	38.3	35.0	0.210
6 months	53.3	50.0	80.0	80.0	0.023
12 months	66.6	70.0	81.6	85.0	0.188

	Not healed	Healed	p-value
Elevation (median °)
Initial	90	148	0.288
12 months	133	175	0.020
External rotation (median °)
Initial	20	47.5	0.121
12 months	60	67.5	0.159
Internal rotation (median °)
Initial	12	8.5	0.184
12 months	13	7	0.001

Brasil

Brasil

Treatment of Irreparable Rotator Cuff Tears: Superior Capsular Reconstruction with Fascia Lata Allograft

Abstract

Objective

Methods

Results

Conclusions

Resumo

Objetivo

Métodos

Resultados

Conclusões

Introduction

Materials and Methods

Study Design and Population Studied

Intervention

Postoperative Follow-up

Outcomes

Statistical Analysis

Results

Discussion

Conclusion

References

Publication Dates

History