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REFERENCES

  • 1
    Yamamoto A, Takagishi K, Osawa T, et al. 2010. Prevalence and risk factors of a rotator cuff tear in the general population. J Shoulder Elbow Surg 19:116120.
  • 2
    Tempelhof S, Rupp S, Seil R. 1999. Age-related prevalence of rotator cuff tears in asymptomatic shoulders. J Shoulder Elbow Surg 8:296299.
  • 3
    Worland RL, Lee D, Orozco CG, et al. 2003. Correlation of age, acromial morphology, and rotator cuff tear pathology diagnosed by ultrasound in asymptomatic patients. J South Orthop Assoc 12:2326.
  • 4
    Gomoll AH, Katz JN, Warner JJ, et al. 2004. Rotator cuff disorders: recognition and management among patients with shoulder pain. Arthritis Rheum 50:37513761.
  • 5
    Prevention CfDCa. 2008. National diabetes fact sheet: general information and national estimates on diabetes in the United States, 2007. Atlanta, GA: Department of Health and Human Services CfDCaP.
  • 6
    Ma H, Li SY, Xu P, et al. 2009. Advanced glycation endproduct (AGE) accumulation and AGE receptor (RAGE) up-regulation contribute to the onset of diabetic cardiomyopathy. J Cell Mol Med 13:17511764.
  • 7
    Monnier VM, Mustata GT, Biemel KL, et al. 2005. Cross-linking of the extracellular matrix by the maillard reaction in aging and diabetes: an update on “a puzzle nearing resolution”. Ann NY Acad Sci 1043:533544.
  • 8
    Avery NC, Bailey AJ. 2006. The effects of the Maillard reaction on the physical properties and cell interactions of collagen. Pathol Biol (Paris) 54:387395.
  • 9
    Goh SY, Cooper ME. 2008. Clinical review: the role of advanced glycation end products in progression and complications of diabetes. J Clin Endocrinol Metab 93:11431152.
  • 10
    Schmidt AM, Yan SD, Yan SF, et al. 2001. The multiligand receptor RAGE as a progression factor amplifying immune and inflammatory responses. J Clin Invest 108:949955.
  • 11
    Reddy GK. 2004. Cross-linking in collagen by nonenzymatic glycation increases the matrix stiffness in rabbit achilles tendon. Exp Diab Res 5:143153.
  • 12
    Viikari-Juntura E, Shiri R, Solovieva S, et al. 2008. Risk factors of atherosclerosis and shoulder pain—is there an association? A systematic review. Eur J Pain 12:412426.
  • 13
    Fox AJ, Bedi A, Deng XH, et al. 2011. Diabetes mellitus alters the mechanical properties of the native tendon in an experimental rat model. J Orthop Res 29:880885.
  • 14
    Sarver JJ, Peltz CD, Dourte L, et al. 2008. After rotator cuff repair, stiffness—but not the loss in range of motion—increased transiently for immobilized shoulders in a rat model. J Shoulder Elbow Surg 17:108S113S.
  • 15
    Dourte LM, Perry SM, Getz CL, et al. Tendon properties remain altered in a chronic rat rotator cuff model. Clin Orthop 468:14851492.
  • 16
    Fedorczyk JM, Barr AE, Rani S, et al. Exposure-dependent increases in IL-1beta, substance P, CTGF, and tendinosis in flexor digitorum tendons with upper extremity repetitive strain injury. J Orthop Res 28:298307.
  • 17
    Candido R, Forbes JM, Thomas MC, et al. 2003. A breaker of advanced glycation end products attenuates diabetes-induced myocardial structural changes. Circ Res 92:785792.
  • 18
    Yan SF, D'Agati V, Schmidt AM, et al. 2007. Receptor for advanced glycation endproducts (RAGE): a formidable force in the pathogenesis of the cardiovascular complications of diabetes & aging. Curr Mol Med 7:699710.
  • 19
    Bedi A, Fox AJ, Harris PE, et al. 2010. Diabetes mellitus impairs tendon-bone healing after rotator cuff repair. J Shoulder Elbow Surg 19:978988.
  • 20
    Cinar M, Akpinar S, Derincek A, et al. 2010. Comparison of arthroscopic capsular release in diabetic and idiopathic frozen shoulder patients. Arch Orthop Trauma Surg 130:401406.
  • 21
    Balci N, Balci MK, Tuzuner S. 1999. Shoulder adhesive capsulitis and shoulder range of motion in type II diabetes mellitus: association with diabetic complications. J Diabetes Complications 13:135140.
  • 22
    Rodeo SA, Hannafin JA, Tom J, et al. 1997. Immunolocalization of cytokines and their receptors in adhesive capsulitis of the shoulder. J Orthop Res 15:427436.
  • 23
    Reddy GK. 2003. Glucose-mediated in vitro glycation modulates biomechanical integrity of the soft tissues but not hard tissues. J Orthop Res 21:738743.
  • 24
    Soslowsky LJ, Thomopoulos S, Tun S, et al. 2000. Neer Award 1999. Overuse activity injures the supraspinatus tendon in an animal model: a histologic and biomechanical study. J Shoulder Elbow Surg 9:7984.
  • 25
    Thomas SJ, Reuther KE, Tucker JJ, et al. 2013. Biceps detachment decreases joint damage in a rotator cuff tear rat model. Clin Orthop 472:24042412.
  • 26
    Ceriello A, Motz E. 2004. Is oxidative stress the pathogenic mechanism underlying insulin resistance, diabetes, and cardiovascular disease? The common soil hypothesis revisited. Arterioscler Thromb Vasc Biol 24:816823.
  • 27
    Goren I, Muller E, Schiefelbein D, et al. 2007. Systemic anti-TNFalpha treatment restores diabetes-impaired skin repair in ob/ob mice by inactivation of macrophages. J Invest Dermatol 127:22592267.
  • 28
    Wendt T, Bucciarelli L, Qu W, et al. 2002. Receptor for advanced glycation endproducts (RAGE) and vascular inflammation: insights into the pathogenesis of macrovascular complications in diabetes. Curr Atheroscler Rep 4:228237.
  • 29
    Alblowi J, Kayal RA, Siqueira M, et al. 2009. High levels of tumor necrosis factor-alpha contribute to accelerated loss of cartilage in diabetic fracture healing. Am J Pathol 175:15741585.
  • 30
    Huang YP, Fann CY, Chiu YH, et al. 2013. Association of diabetes mellitus with the risk of developing adhesive capsulitis of the shoulder: a longitudinal population-based followup study. Arthritis Care Res 65:11971202.
  • 31
    Tighe CB, Oakley WS Jr. 2008. The prevalence of a diabetic condition and adhesive capsulitis of the shoulder. South Med J 101:591595.
  • 32
    Hsu JE, Anakwenze OA, Warrender WJ, et al. 2011. Current review of adhesive capsulitis. J Shoulder Elbow Surg 20:502514.
  • 33
    Soslowsky LJ, Carpenter JE, DeBano CM, et al. 1996. Development and use of an animal model for investigations on rotator cuff disease. J Shoulder Elbow Surg 5:383392.