Cardiovascular imaging in clinical practice: what does late gadolinium enhance? Gupta DK, Kwong RY, Pfeffer MA (2013) JAMA 309: 929-30 MiRNA inhibition in tissue engineering and regenerative medicine. Beavers KR, Nelson CE, Duvall CL (2015) Adv Drug Deliv Rev 88: 123-37 Molecular insights into renal interstitial fibrosis. Eddy AA (1996) J Am Soc Nephrol 7: 2495-508 Integrin alpha2beta1 is required for regulation of murine wound angiogenesis but is dispensable for reepithelialization. Zweers MC, Davidson JM, Pozzi A, Hallinger R, Janz K, Quondamatteo F, Leutgeb B, Krieg T, Eckes B (2007) J Invest Dermatol 127: 467-78 Squamous carcinoma of the cervix complicating pregnancy: recurrence in episiotomy after vaginal delivery. Gordon AN, Jensen R, Jones HW (1989) Obstet Gynecol 73: 850-2 TIGR is upregulated in the chronic glial scar in response to central nervous system injury and inhibits neurite outgrowth. Jurynec MJ, Riley CP, Gupta DK, Nguyen TD, McKeon RJ, Buck CR (2003) Mol Cell Neurosci 23: 69-80 Functional and mechanistic investigation of Shikonin in scarring. Xie Y, Fan C, Dong Y, Lynam E, Leavesley DI, Li K, Su Y, Yang Y, Upton Z (2015) Chem Biol Interact 228: 18-27 Prostaglandin E2 differentially modulates human fetal and adult dermal fibroblast migration and contraction: implication for wound healing. Sandulache VC, Parekh A, Li-Korotky HS, Dohar JE, Hebda PA (2006) Wound Repair Regen 14: 633-43 Scar formation and lack of regeneration in adult and neonatal liver after stromal injury. Masuzaki R, Zhao SR, Csizmadia E, Yannas I, Karp SJ (2013) Wound Repair Regen 21: 122-30 Chemokine and chemokine receptor expression in keloid and normal fibroblasts. Nirodi CS, Devalaraja R, Nanney LB, Arrindell S, Russell S, Trupin J, Richmond A (2000) Wound Repair Regen 8: 371-82 Role of adenosine A2B receptor signaling in contribution of cardiac mesenchymal stem-like cells to myocardial scar formation. Ryzhov S, Sung BH, Zhang Q, Weaver A, Gumina RJ, Biaggioni I, Feoktistov I (2014) Purinergic Signal 10: 477-86 In vivo analysis of laser preconditioning in incisional wound healing of wild-type and HSP70 knockout mice with Raman spectroscopy. Makowski AJ, Davidson JM, Mahadevan-Jansen A, Jansen ED (2012) Lasers Surg Med 44: 233-44 Characterization of vocal fold scarring in a canine model. Rousseau B, Hirano S, Scheidt TD, Welham NV, Thibeault SL, Chan RW, Bless DM (2003) Laryngoscope 113: 620-7 Hyaluronan levels in acute vocal fold scar. Thibeault SL, Rousseau B, Welham NV, Hirano S, Bless DM (2004) Laryngoscope 114: 760-4 Fibronectin and adhesion molecules on canine scarred vocal folds. Hirano S, Bless DM, Rousseau B, Welham N, Scheidt T, Ford CN (2003) Laryngoscope 113: 966-72 Characterization of chronic vocal fold scarring in a rabbit model. Rousseau B, Hirano S, Chan RW, Welham NV, Thibeault SL, Ford CN, Bless DM (2004) J Voice 18: 116-24 Hyaluronan receptor expression increases in fetal excisional skin wounds and correlates with fibroplasia. Lovvorn HN, Cass DL, Sylvester KG, Yang EY, Crombleholme TM, Adzick NS, Savani RC (1998) J Pediatr Surg 33: 1062-9; discussion 1069-70 Extracellular matrix gene expression after vocal fold injury in a rabbit model. Rousseau B, Ge PJ, Ohno T, French LC, Thibeault SL (2008) Ann Otol Rhinol Laryngol 117: 598-603 Functional outcomes of reduced hyaluronan in acute vocal fold scar. Rousseau B, Sohn J, Montequin DW, Tateya I, Bless DM (2004) Ann Otol Rhinol Laryngol 113: 767-76 Treatment of acute vocal fold scar with local injection of basic fibroblast growth factor: a canine study. Suehiro A, Hirano S, Kishimoto Y, Rousseau B, Nakamura T, Ito J (2010) Acta Otolaryngol 130: 844-50
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