Glenohumeral joint motion after subscapularis tendon repair: an analysis of cadaver shoulder models

Sano, Teiichi; Aoki, Mitsuhiro; Tanaka, Yoshitaka; Izumi, Tomoki; Fujimiya, Mineko; Yamashita, Toshihiko

doi:10.1186/1749-799x-9-41

Cited by 4 publications

(3 citation statements)

References 21 publications

(45 reference statements)

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“…The skin and the superficial musculature were removed, while maintaining the integrity of the RC muscles and the joint capsule, and the clavicle was disarticulated at the acromioclavicular joint [ 14 ]. The remaining tissue was kept moist with physiologic 0.9% saline throughout testing [ 30 , 31 ]. The RC muscles were elevated off of the scapula, and sutures were placed through the free ends between two layers of a nylon belt using a locking Krackow stitch.…”

Section: Methodsmentioning

confidence: 99%

Effect of intraarticular pressure on glenohumeral kinematics during a simulated abduction motion: a cadaveric study

Williamson

Momenzadeh

Hanna

et al. 2023

BMC Musculoskelet Disord

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Background The current understanding of glenohumeral joint stability is defined by active restrictions and passive stabilizers including naturally-occurring negative intraarticular pressure. Cadaveric specimens have been used to evaluate the role of intraarticular pressure on joint stability, although, while the shoulder’s negative intraarticular pressure is universally acknowledged, it has been inconsistently accounted for. Hypothesis During continuous, passive humeral abduction, releasing the native intraarticular pressure increases joint translation, and restoring this pressure decreases joint translations. Study design Descriptive Laboratory Study. Methods A validated shoulder testing system was used to passively abduct the humerus in the scapular plane and measure joint translations for seven (n = 7) cadaveric specimens. The pressure within the glenohumeral joint was measured via a 25-gauge needle during passive abduction of the arm, which was released and subsequently restored. During motion, the rotator cuff muscles were loaded using stepper motors in a force feedback loop and electromagnetic sensors were used to continuously measure the position of the humerus and scapula. Joint translation was defined according to the instant center of rotation of the glenohumeral head according to the recommendations by the International Society of Biomechanics. Results Area under the translation versus abduction angle curve suggests that releasing the pressure within the capsule results in significantly less posterior translation of the glenohumeral head as compared to intact (85–90˚, p < 0.05). Posterior and superior translations were reduced after 70˚ of abduction when the pressure within the joint was restored. Conclusion With our testing system employing a smooth continuous passive motion, we were able to show that releasing intraarticular pressure does not have a major effect on the path of humeral head motion during glenohumeral abduction. However, both violating the capsule and restoring intraarticular pressure after releasing alter glenohumeral translations. Future studies should study the effect of simultaneous external rotation and abduction on the relationship between joint motion and IAP, especially in higher degrees of abduction. Clinical relevance Thoroughly simulating the glenohumeral joint environment in the cadaveric setting may strengthen the conclusions that can be translated from this setting to the clinic.

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Section: Methodsmentioning

confidence: 99%

Effect of intraarticular pressure on glenohumeral kinematics during a simulated abduction motion: a cadaveric study

Williamson

Momenzadeh

Hanna

et al. 2023

BMC Musculoskelet Disord

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“…El primero en describir este movimiento fue Inman y colaboradores en 1944 [3]. Posteriormente muchos investigadores han medido RH tanto para hombros normales como con patologías [4][5][6][7][8]. Se puede apreciar que para pacientes con patologías es relevante la detección de las pequeñas variaciones en los movimientos, por lo que se necesita de un procedimiento preciso; ello permitiría establecer la influencia del tratamiento en la recuperación.…”

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Análisis e influencia de los sistemas de referencia en la cinemática del hombro

Gutiérrez

Ortega

Iznaga

et al. 2017

Revista Internacional de Métodos Numéricos para Cálculo y Diseñ

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The shoulder is one of the most complex systems in the human body. To know how its work is essential to understand the biomechanics of the body. The purpose of this study was to analyze the influence of Local Coordinate Systems in the kinematic analysis of GlenoHumeral joint. The motion tracking was performed using passive sensors attached to pins. Trabecular pins were placed on the shoulder and scapula. The data processing was performed using the free open software pyFormex. The joint displacements were determined by two different variants of Coordinate Systems, being detected a difference from 2 to12 degrees

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“…Biomechanically, an increase in the size of a subscapularis tendon tear led to decreased passive range of external rotation after the repair. 49 Considering the frequent occurrence of subscapularis tears with massive tears, which is known to range from 24% to 69%, it is assumed that clinical outcomes after repair of massive tears may be affected by the presence or size of subscapularis tears. 3,19,30,35,44 Nevertheless, most previous studies on massive rotator cuff tears have focused on covering supraspinatus and infraspinatus rotator cuff defects with remnant tissues or allograft patches without addressing the outcomes of tears extending to the subscapularis tendon.…”

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confidence: 99%

Combined Subscapularis Tears in Massive Posterosuperior Rotator Cuff Tears

Park¹,

Chung

Lee

et al. 2015

Am J Sports Med

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The arthroscopic repair of massive tears results in substantial improvements in shoulder function, regardless of the presence of combined subscapularis tears. However, this study showed a trend toward a high failure rate for the repair of massive posterosuperior rotator cuff tears extending over half of the subscapularis tendon. Therefore, other treatment options should also be considered for this type of rotator cuff tear.

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Glenohumeral joint motion after subscapularis tendon repair: an analysis of cadaver shoulder models

Cited by 4 publications

References 21 publications

Effect of intraarticular pressure on glenohumeral kinematics during a simulated abduction motion: a cadaveric study

Effect of intraarticular pressure on glenohumeral kinematics during a simulated abduction motion: a cadaveric study

Análisis e influencia de los sistemas de referencia en la cinemática del hombro

Combined Subscapularis Tears in Massive Posterosuperior Rotator Cuff Tears

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