Advanced search
Publication Cover
Connective Tissue Research Volume 53, 2012 - Issue 4
Submit an article Journal homepage
413
Views
21
CrossRef citations to date
0
Altmetric
Research Article

Decellularized Human Dermis to Treat Massive Rotator Cuff Tears: In Vitro Evaluations

Milena FiniLaboratory of Preclinical and Surgical Studies, Rizzoli Orthopaedic Institute, Bologna, Italy;Laboratory of Preclinical and Surgical Studies, Rizzoli Orthopaedic Institute, Bologna, ItalyCorrespondence[email protected]
,
Elena BondioliBurn Intensive Care Unit and “Regione Emilia Romagna” Skin Bank, Bufalini Hospital, Cesena, Italy
,
Alessandro CastagnaIRCCS Clinical Institute Humanitas, Rozzano, Milano, Italy
,
Paola TorricelliLaboratory of Preclinical and Surgical Studies, Rizzoli Orthopaedic Institute, Bologna, Italy;Laboratory of Preclinical and Surgical Studies, Rizzoli Orthopaedic Institute, Bologna, Italy
,
Gianluca GiavaresiLaboratory of Preclinical and Surgical Studies, Rizzoli Orthopaedic Institute, Bologna, Italy;Laboratory of Preclinical and Surgical Studies, Rizzoli Orthopaedic Institute, Bologna, Italy
,
Roberto RotiniShoulder and Elbow Surgery Unit, Rizzoli Orthopaedic Institute, Bologna, Italy
,
Alessandro MarinelliShoulder and Elbow Surgery Unit, Rizzoli Orthopaedic Institute, Bologna, Italy
,
Enrico GuerraShoulder and Elbow Surgery Unit, Rizzoli Orthopaedic Institute, Bologna, Italy
,
Catuscia OrlandiBurn Intensive Care Unit and “Regione Emilia Romagna” Skin Bank, Bufalini Hospital, Cesena, Italy
,
Andrea CarboniBurn Intensive Care Unit and “Regione Emilia Romagna” Skin Bank, Bufalini Hospital, Cesena, Italy
,
Annalisa AitiBurn Intensive Care Unit and “Regione Emilia Romagna” Skin Bank, Bufalini Hospital, Cesena, Italy
,
Elisa BenedettiniBurn Intensive Care Unit and “Regione Emilia Romagna” Skin Bank, Bufalini Hospital, Cesena, Italy
,
Roberto GiardinoDepartment Rizzoli-RIT, Laboratory of Biocompatibility, Technological Innovations and Advanced Therapies (BITTA), Bologna, Italy
&
Davide MelandriBurn Intensive Care Unit and “Regione Emilia Romagna” Skin Bank, Bufalini Hospital, Cesena, Italy
 show all
Pages 298-306 | Received 21 Sep 2011, Accepted 09 Dec 2011, Published online: 15 Dec 2011

References

  • Baleani, M., Schrader, S., Veronesi, C.A., Rotini, R., Giardino, R., and Toni, A. (2003). Surgical repair of the rotator cuff: A biomechanical evaluation of different tendon grasping and bone suture fixation techniques. Clin. Biomech. (Bristol, Avon). 18:721–729.
  • Juncosa-Melvin, N., Boivin, G.P., Galloway, M.T., Gooch, C., West, J.R., Sklenka, A., and Butler, D.L. (2005). Effects of cell-to-collagen ratio in mesenchymal stem cell-seeded implants on tendon repair biomechanics and histology. Tissue Eng. 11:448–457.
  • Kummer, F.J., and Iesaka, K. (2005). The role of graft materials in suture augmentation for tendon repairs and reattachment. J. Biomed. Mater. Res. Part B: Appl. Biomater. 74B:789–791.
  • Audenaert, E., Van Nuffel, J., Schepens, A., Verhelst, M., and Verdonk, R. (2006). Reconstruction of massive rotator cuff lesions with a synthetic interposition graft. Knee Surg. Sports Traumatol. Arthrosc. 14:360–364.
  • Robertson, A., Nutton, R.W., and Keating, J.F. (2006). Current trends in the use of tendon allografts in orthopaedic surgery. J. Bone Joint Surg. Br. 88-B:988–992.
  • Cheung, E.V., Silverio, L., and Sperling, J.W. (2010). Strategies in biologic augmentation of rotator cuff repair. Clin. Orthop. Relat. Res. 468:1476–1484.
  • Sclamberg, S.G., Tibone, J.E., Itamura, J.M., and Kasraeian, S. (2004). Six month magnetic resonance imaging follow-up of large and massive rotator cuff repairs reinforced with porcine small intestinal submucosa. J. Shoulder Elbow Surg. 13:538–541.
  • Triantafilloupoulos, I.K., Banes, A.J., Bowman, Jr., K.F., Maloney, M., Garret, Jr., W.E., and Karas, S.G. (2004). Nandrolone decanoate and load increase remodelling and strength in human supraspinatus bioartificial tendons. Am. J. Sports Med. 32:934–943.
  • Cole, B.J., Gomoll, A.H., Yanke, A., Pylawka, T., Lewis, P., MacGillivray, J.D., and Williams, J.M. (2007). Biocompatibility of a polymeric patch for rotator cuff repair. Knee Surg. Sports Traumatol. Arthrosc. 15:632–637.
  • MacGillivray, J.D., Fealy, S., Terry, M.A., Koh, J.L., Nixon, A.J., and Warren, R.F. (2006). Biomechanical evaluation of a rotator cuff defect model augmented with resorbable scaffolds in goats. J. Shoulder Elbow Surg. 15:639–644.
  • Aoki, M., Miyamoto, S., Okamura, K., Yamashita, T., Ikada, Y., and Matsuda, S. (2004). Tensile properties and biological response of poly(L-lactic acid) felt graft: An experimental trial for rotator cuff reconstruction. J. Biomed. Mater. Res. Part B: Appl. Biomater. 71:252–259.
  • Ozaki, J., Fujimoto, S., Masuhara, K., Tamai, S., and Yoshimoto, S. (1986). Reconstruction of chronic massive rotator cuff tears with synthetic materials. Clin. Orthop. 202:173–183.
  • Kimura, A., Okamura, K., Fukushima, S., Ishii, S., and Aoki, M. (2000). Clinical results of rotator cuff reconstruction with PTFE felt augmentation for irreparable massive rotator cuff tears. Shoulder Joint. 24:485–488.
  • Koh, J.L., Szomor, Z., Murrel, G.A.C., and Warner, R.F. (2002). Supplementation of rotator cuff repair with a bioresorbable scaffold. Am. J. Sports Med. 30:410–413.
  • Kimura, A., Aoki, M., Fukushima, S., Ishii, S., and Yamakoshi, K. (2003). Reconstruction of a defect of a rotator cuff with polytetrafluoroethylene felt graft. Recovery of tensile strength and histocompatibility in an animal model. J. Bone Joint Surg. Br. 85:282–287.
  • Hirooka, A., Yoneda, M., Wakaitani, S., Isaka, Y., Hayashida, K., Fukushima, S., and Okamura, K. (2002). Augmentation with a Gore-Tex patch for repair of large rotator cuff tears that cannot be sutured. J. Orthop. Sci. 7:451–456.
  • Qin, T.-W., Yang, Z.-M., Wu, Z.-Z., Xie, H.-Q., Qin, J., and Cai, S.-X. (2005). Adhesion strength of human tenocytes to extracellular matrix component modified poly(DL-lactide-co-glycolide) substrates. Biomaterials. 26:6635–6642.
  • Aurora, A., McCarron, J., Iannotti, J.P., and Derwin, K. (2007). Commercially available extracellular matrix materials for rotator cuff repair: State of the art and future trends. J. Shoulder Elbow Surg. 16:171S–178S.
  • Derwin, K.A., Baker, A.R., Spragg, R.K., Leigh, D.R., and Iannotti, J.P. (2006). Commercial extracellular matrix scaffolds for rotator cuff tendon repair. J. Bone Joint Surg. 88-A:2665–2672.
  • Dejardin, L.M., Arnoczky, S.P., Ewers, B., Haut, R.G., and Clarke, R.B. (2001). Tissue-engineered rotator cuff tendon using porcine small intestine submucosa. Histologic and mechanical evaluation in dogs. Am. J. Sports Med. 29:175–184.
  • Schlegel, T.F., Hawkins, R.J., Lewis, C.W., Motta, T., and Turner, A.S. (2006). The effects of augmentation with swine small intestine submucosa on tendon healing under tension: Histologic and mechanical evaluation in sheep. Am. J. Sports Med. 34:275–280.
  • Zalavras, C.G., Gardocki, R., Huang, E., Stevanovic, M., Hedman, T., and Tibone, J. (2006). Reconstruction of large rotator cuff tendon defects with porcine small intestinal submucosa in an animal model. J. Shoulder Elbow Surg. 15:224–231.
  • Nicholson, G.P., Breuer, G.J., Van Sickle, D., Yao, J.Q., and Blancheard, L.R. (2007). Evaluation of a cross-linked acellular porcine dermal patch for rotator cuff repair augmentation in an ovine model. J. Shoulder Elbow Surg. 16:S184–S190.
  • Perry, S.M., Gupta, R.R., Van Kleunen, J., Ramsey, M.L., Soslowski, L.J., and Glaser, D.L. (2007). Use of small intestine submucosa in a rat model of acute and chronic rotator cuff tear. J. Shoulder Elbow Surg. 16:S179–S183.
  • Malcarney, H.L., Bonar, F., and Murrell, G.A. (2005). Early inflammatory reaction after rotator cuff repair with a porcine small intestine submucosal implant: A report of 4 cases. Am. J. Sports Med. 33:907–911.
  • Iannotti, J.P., Codsi, M.J., Kwon, Y.W., Derwin, K., Ciccone, J., and Brems, J.J. (2006). Porcine small intestine submucosa augmentation of surgical repair of chronic two-tendon rotator cuff tears. J. Bone Joint Surg. Am. 88:1238–1244.
  • Moore, D.R., Cain, E.L., Schwartz, L., and Clancy, W.G. (2006). Allograft reconstruction for massive, irreparable rotator cuff tears. Am. J. Sports Med. 34:392–396.
  • Soler, J.A., Gidwani, S., and Curtis, M.J. (2007). Early complications from the use of porcine dermal collagen implants (Permacol TM) as bridging constructs in the repair of massive rotator cuff tears. A report of four cases. Acta Orthop. Belg. 73:432–436.
  • Walton, J.R., Bowman, N.K., Khatib, Y., Linklater, J., and Murrell, G.A. (2007). Restore orthobiologic implant: Not recommended for augmentation of rotator cuff repairs. J. Bone Joint Surg. Am. 89A:786–791.
  • Badhe, S.P., Lawrence, T.M., Smith, F.D., and Lunn, P.G. (2008). An assessment of porcine dermal xenografts as an augmentation graft in the treatment of extensive rotator cuff tears. J. Shoulder Elbow Surg. 17:35S–39S.
  • Bond, J.L., Dopirak, R.M., Higgins, J., Burns, J., and Snyder, S.J. (2008). Arthroscopic replacement of massive, irreparable rotator cuff tears using a graftjacket allograft: Technique and preliminary results. Arthroscopy. 24:403–409.
  • Snyder, S.J., Arnoczky, S.P., Bond, J.L., and Dopirak, R. (2009). Histologic evaluation of a biopsy specimen obtained 3 months after rotator cuff augmentation with graftjacket matrix. Arthroscopy. 25:329–333.
  • Shea, K.P., McCarthy, M.B., Ledgard, F., Arciero, C., Chowaniec, D., and Mazzocca, A.D. (2010). Human tendon cell response to 7 commercially available extracellular matrix materials: An in vitro study. Arthroscopy. 26:1181–1188.
  • Maffulli, N., Even, S.W.B., Waterson, S.W., Reaper, J., and Barrass, V. (2000). Tenocytes from ruptured and tendinopathic Achilles tendons produce greater quantities of type III collagen than tenocytes from normal Achilles tendons. Am. J. Sports Med. 28:499–505.
  • Gilbert, T.W., Freund, J.M., and Badylak, S.F. (2009). Quantification of DNA in biologic scaffold materials. J. Surg. Res. 152:135–139.
  • Denaro, V., Ruzzini, L., Barnaba, S.A., Longo, U.G., Campi, S., Maffulli, N., and Sgambato, A. (2011). Effects of pulsed electromagnetic fields on huma tenocyte cultures from supraspinatus and quadricips tendons. Am. J. Phys. Med. Rehabil. 90:119–127.
  • Chen, C.H., Tsai, J.L., Wang, Y.H., Lee, C.L., Chen, J.K., and Huang, M.H. (2009). Low-level laser irradiation promotes cell proliferation and mRNA expression of type I collagen and decorin in porcine Achilles tendon fibroblasts in vitro. J. Orthop. Res. 27:646–650.
  • Barber, F.A., Herbert, M.A., and Coons, D.A. (2006). Tendon augmentation: Biomechanical failure loads and failure pattern. Arthroscopy. 22:534–538.
  • Sun, W.Q., and Leung, P. (2008). Calorimetric study of extracellular tissue matrix degradation and instability after gamma irradiation. Acta Biomaterialia. 4:817–826.
  • Gouk, S.S., Lim, T.M., Teoh, S.H., and Sun, W.Q. (2008). Alterations of human acellular tissue matrix by gamma irradiation: Histology, biomechanical property, stability, in vitro cell repopulation, and remodeling. J. Biomed. Mater. Res. Part B: Appl. Biomater. 84B:205–217.
  • Gilbert, T.W., Sellaro, T.L., and Badylak, S.F. (2006). Decellularization of tissues and organs. Biomaterials. 27:3675–3683.
  • Voloshin, I., Gelinas, J., Maloney, M.D., O’Keefe, R.J., Bigliani, L.U., and Blaine, T.A. (2005). Proinflammatory cytokines and metalloproteases are expressed in the subacromial bursa in patients with rotator cuff disease. Arthroscopy. 21:1076.
  • Koshima, H., Kondo, S., Mishima, S., Choi, H.-R., Shimpo, H., Sakai, T., and Ishiguro, N. (2007). Expression of interleukin-1, cycloxygenase-2, and prostaglandin E2 in a rotator cuff tear in rabbits. J. Orthop. Res. 25:92–97.
  • Rotini, R., Fini, M., Giavaresi, G., Marinelli, A., Guerra, E., Antonioli, D., Castagna, A., and Giardino, R. (2008). New perspectives in rotator cuff tendon regeneration: Review of tissue engineered therapies. Chir. Organi. Mov. 91:87–92.
  • Yuan, J., Murrell, G.A., Wei, A.Q., and Wang, M.X. (2002). Apoptosis in rotator cuff tendonopathy. J. Orthop. Res. 20:1372–1379.
  • Machner, A., Baier, A., Wille, A., Drynda, S., Pap, G., Drynda, A., Mawrin, C., Buhling, F., Gay, S., Neumann, W., and Pap, T. (2003). Higher susceptibility to Fas ligand induced apoptosis and altered modulation of cell death by tumor necrosis factor-α in periarticular tenocytes from patients with knee osteoarthritis. Arthritis Res. Ther. 5:R253–R261.
  • Matthews, T.J., Smith, S.R., Peach, C.A., Rees, J.L., Urban, J.P., and Carr, A.J. (2007). In vivo measurements of tissue metabolism in tendons of the rotator cuff: Implications for surgical management. Bone Joint Surg. Br. 89:633–638.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.