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Review Article

Acromioplasty in the surgical operations of partial-thickness rotator cuff tears

A comprehensive review

Eraghi, Amir Sobhani1,

Author Information

1Department of Orthopedics, Rasoul Akram Hospital, Iran University of Medical Sciences, Tehran, Iran

Address for correspondence: Dr. Amir Sobhani Eraghi, Department of Orthopedics, Rasoul Akram Hospital, Iran University of Medical Sciences, Tehran, Iran. E-mail: [email protected]

Received October 09, 2019

Received in revised form December 31, 2019

Accepted January 08, 2020

Journal of Family Medicine and Primary Care: February 2020 - Volume 9 - Issue 2 - p 520-525
doi: 10.4103/jfmpc.jfmpc_870_19
  • Open

Abstract

Introduction

After lower back pain, shoulder pain is well-known as the second prevalent musculoskeletal disorder, which resulted from the rotator cuff disorders.[1] Rotator cuff tears (RCTs) are divided into two groups partial-thickness rotator cuff tears (PTRCTs) and full-thickness rotator cuff tears (FTRCTs). A partial-thickness tear goes only part of the way into the tendon[2] [Figure 1]. In fact, PTRCT is considered a prevalent pathology that can remarkably affect a range of patients such as athletes, workers, and sedentary individuals.[3] Despite the high outbreak of PTRCTs, most of the researches conducted on the treatment of RCT have centralized on FTRCTs.[4] Accordingly, PTRCT has been disregarded and, thus, its therapy remains controversial in the field of the tears of the rotator cuff.

F1-14
Figure 1:
Diagram indicating how the symptoms of rotator cuff tears categorize as A and B. A group contains stage I and stage II as partial-thickness tears. B group contains stage III as full-thickness tears. Reprinted with permission[2]

So far, a number of researches have been carried out on the conservative management and the etiology of PTRCTs, and some on surgical techniques.[56] However, there is no review on the application of acromioplasty in the setting of PTRCTs. As mentioned above, this review was aimed at the assessment of the current state of knowledge regarding the application of acromioplasty in the setting of PTRCTs.

Partial-Thickness Rotator Cuff Tears (PTRCTs)

The most clinical algorithms and classification systems of how to treat PTRCTs are according to Clark and Harryman,[3] although the accurate anatomy of the RCTs continues to be developed. They indicated that the rotator cuff comprises five discrete histologic layers. The tendinous fibers can be observed in the second and third layers, whereas the remaining layers loose connective tissue and contain arterioles [Figure 2].

F2-14
Figure 2:
Diagram indicating five distinct histologic layers for rotator cuff insertion. IS = infraspinatus, SP = supraspinatus, Chl = coracohumeral ligament. Reprinted with permission[5]

The results from imaging and cadaveric research revealed that the prevalence of PTRCTs ranges from 14% to 33%, which strongly correlated to age in patients.[2] Sher et al.[7] in an MRI study on symptomless subjects averagely estimated the prevalence of PTRCTs as 21%. The authors represented the prevalence of 26% for subjects over 60 years old, and the prevalence of 4% for subjects under 60 years old. The age-related prevalence was also stated by a study on rotator-cuff changes in symptomless subjects that found a prevalence of PTRCTs of 80% in patients aged 70 years or older, and 10% in patients aged 40–60.[8] The authors showed a linear growth in the prevalence of RCT in subjects aged over 50 years old.

The pathogenesis and etiology of PTRCTs suggest that an individual's rotator cuff lesion is affected by both extrinsic and intrinsic factors. Intrinsic factors comprising the declined tissue vascularity and age-related microscopic shifts (granulation tissue, fascicular thinning, and hypocellularity) can make susceptible a tendon to degenerative tearing.[910] Extrinsic factors comprising internal impingement, glenohumeral instability, and subacromial impingement result in a continuing pathology of PTRCTs.[511] Furthermore, traumatic accidents contribute to elastic overload and fiber failure of the RC. It assumes that PTRCTs usually augment in size over time because of the boosted tendon strain due to a tear.

The clinical appearance of PTRCTs is different extensively, although pain is considered as the most prevalent symptom. The ordinary appearances observed at patients comprise positive impingement signs, weakness, as well as the painful arc of motion.[12] Furthermore, it was documented that strains with overhead sports or activities are common in terms of PTRCTs.[10] It is notably the relation between imaging research and clinical outcome is crucial because of the high prevalence of asymptomatic PTRCTs in patients. PTRCTs can be discovered by ultrasonography and MRI, with similar efficacy. This finding has been supported by arthroscopy studies.[13] Despite development in imaging methods, arthroscopy yet remains the routine procedure for diagnosing PTRCTs.[5]

Treatments for PTRCTs includes nonoperative treatment and operative treatment. Surgical treatment is usually used in young subjects with a traumatic injury and in subjects with failure of nonoperative treatment for an average 4.5 months.[14] In surgical treatment, arthroscopic debridement can be combined with or without acromioplasty and carried out in patients that involve <50% of the tendon thickness.[14] The surgical treatments are described based on four procedures: completion and repair, repair in situ, subacromial decompression, and debridement. So far, appreciative findings have been achieved with conversion to full-thickness tears with repair,[1516] repair in situ,[1718] debridement and decompression,[1819] and debridement.[2021] However, operative treatment is mostly limited to tear debridement along acromioplasty or without this technique [Table 1].

T1-14
Table 1:
The surgical outcomes of partial-thickness rotator cuff tears (PTRCTs) reported by previous studies

Acromioplasty in the setting of PTRCTs

Acromioplasty is known as an arthroscopic surgical procedure of acromion, in which the subacromial space is decompressed and thereby the impingement of repaired structures is prevented [Figure 3]. In the open repair of the rotator cuff, the mechanical pressure on the rotator cuff was relieved by using the procedure of reshaping the acromion with acromioplasty. Ellman[27] first described the capability to carry out an arthroscopic acromioplasty. Since then, researchers have focused on determining the benefits and risks of open acromioplasty in contrast to the arthroscopic methodology.[28] The main benefit of the open procedure is easy to perform technically and low need for surgeon expertise.[28]

F3-14
Figure 3:
Acromioplasty. (a) removing the detrimental acromion morphology. (b) smoothing and reshaping the acromion, and removing the pressure placed on the rotator cuff. Reprinted with permission[29]

The growing evidence on RCTs revealed that the incidence of acromioplasty has dramatically elevated in a few decades ago.[30] Yu et al.[31] also found a 575% increment for the incidence of acromioplasty between 1980 and 2005 that reflects the widespread popularity of acromioplasty. Despite prevalent uses of acromioplasty, the function of the acromion was questioned in the pathogenesis of rotator cuff.[3233] In regards, Tibone et al.[34] showed that acromioplasty cannot improve the pain in athletes with RCTs. Furthermore, acromioplasty with coracoacromial (CA) ligament release has been shown that may increase the instability in superior glenohumeral ligaments.[353637] Reviews on the effect of acromioplasty for rotator cuff signs demonstrated the failure rates of 15–20%, and the findings were not as good as expected.[3338] In fact, these researches questioned not only the function of the acromion in the pathogenesis of rotator cuff but also the meaning of RCT,[3940] so that most of these researches propose that rotator cuff is a multifactorial disease, which resulted from both extrinsic and intrinsic causes.[1241]

In the effort toward comparing the outcomes of the arthroscopic procedure with and without acromioplasty, similar results have been reported for PTRCT debridement along with and without acromioplasty. For instance, Ellman[42] reported the same reoperation rate for patients treated by debridement with and without acromioplasty. Itoi and Tabata[43] in a study on treatment a total of 38 shoulders with PTRCT by open repair and completion for 5 years indicated that the good outcomes were retained in 83%, with no diversities in repair technique with or without acromioplasty. Cordasco et al.[14] observed the same and poor findings in patients with 3–6 mm tear when treated by debridement with and without acromioplasty.

However, some studies revealed the different results for the outcomes of the arthroscopic procedure with and without acromioplasty. For instance, Liem et al.[19] in an effort on assessment the RCTs in 46 patients revealed that 20 patients with Ellman grade 2 tear were remedied with debridement combined with acromioplasty, whereas 26 subjects with Ellman grade 1 tear were remedied with acromioplasty alone. However, Neer[44] stated that acromioplasty must be carefully supplied for subjects with mechanical impingement. The author also suggested that acromioplasty must be carried out at least 1 year after nonoperative treatment, and only for subjects with reasonable life expectancy. Weber's in a study on 32 patients treated by arthroscopic acromioplasty found the satisfactory outcome in 45%, but 94% in 33 subjects treated by mini-open repair and acromioplasty.[23]

Hyvönen et al.[45] elucidated the result after acromioplasty with a mean follow-up of 10 years. Their findings discovered that the early outcome was good, but 12% of their subjects worsen after 5 years. The authors suggested that the tendon may tear even after removing the subacromial impingement. Similarly, Kartus et al.[25] recorded the higher progression of rotator cuff disease after debridement and acromioplasty in patients with partial-thickness Ellman grade 2 tear. The authors followed up 26 of 33 subjects for 5 years after debridement and acromioplasty by physical assessment and ultrasound. They observed a total of nine shoulders developed to FTRCT. Overall, for surgery of PTRCT, the repair along with acromioplasty appear to give satisfactory outcomes, such as 84–94 47%.[6172343444647]

Meanwhile, some researchers have suggested specific conditions for repair and acromioplasty success in treating the partial-thickness tears and have stated that it is impossible to comment on the usefulness of the surgical procedure combined with and without acromioplasty. For instance, Wright and Cofield[6] recommended cuff repair and open acromioplasty of PTRCTs that failed the conservative remedy. They observed that the satisfactory outcome may be expected after applying repair and acromioplasty for PTRCTs that embrace at least 50% of the cuff thickness. Weber[23] also suggested that if the tear includes more than 50% of tendon, debridement, and acromioplasty of PTRCTs would fail. They proposed that lesions repaired through a mini-open method own good outcomes than those that underwent debridement without repair, and suggested that this level of PTRCTs should be repaired. Fukuda et al.[1748] believe that the open methodologies along with acromioplasty after excision of the diseased portion give some benefits, such as 1) the operation on the tendon is carried out with minimal risk and the same exposure; 2) concomitant intra-tendinous lamination is treated; 3) the tear progression is hindered by a suitable repair; 4) tissue repair is improved by cutting out of diseased tissue; 5) hidden lesions are uncovered through mobilization, palpation inspection, and exploration of tendon; 6) decompression is reinforced through tenorrhaphy; 7) beneficial repair of tendon is accomplished.

In total, our review revealed no discrepancy in short-term clinical outcomes between PTRCTs patients treated with and without acromioplasty procedure. In fact, our findings were according to the American Academy of Orthopaedic Surgeons (AAOS),[49] which suggested acromioplasty at a moderately advice for the rotator cuff treatment. On the findings resulted from a number of research,[5051] acromioplasty was appeared not required for repairing RCTs. Despite theoretic advantages of acromioplasty in the setting of PTRCTs, it has reported little or no efficacy on outcomes of postoperative patients. In addition, one meta-analysis on patients undergoing arthroscopic repair of rotator cuff found no difference between patients treated with subacromial decompression and those treated without this procedure.[38]

It is notable that performing studies on rotator cuff disease and interpreting their outcomes are challenged with some difficulties. First, the pain origin in RCTs has not been well-known, making operation practical. Second, the rotator cuff disease includes a wide range of abnormalities. The patients who have a PTRCT or FTRCT may be a totally distinct from patient with impingement pain without any rotator cuff malformation at the time of arthroscopy. Similarly, the treatment may be dependent on the degree of partial tear as a critical factor.[52]

Conclusion

There are an increasing number of documents on assessment and the importance of acromioplasty in the rotator cuff treatment. Regardless of acromion morphology, the similar outcomes have been showed at intermediate and short-term follow-up of PTRCTs, either with or without acromioplasty.[53] As a result, these results do not defend the common application of acromioplasty as a supplement to arthroscopic for treatment of PTRCTs.[54] Nonetheless, our knowledge on the treatment of PTRCTs has been limited through the incapacity to know precisely what generates a satisfactory outcome with surgery of rotator cuff, and the unknown pathophysiology of disease of rotator cuff in patients. As mentioned above, more research is required to assay the important of acromioplasty alone in the PTRCTs treatment.[14]

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.

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    Keywords:

    Acromioplasty; partial-thickness rotator cuff tear; shoulder pain; surgical operation

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