68
Views
73
CrossRef citations to date
0
Altmetric
Research Article

Enhanced Bone Regeneration Using Porcine Small Intestinal Submucosa

, , &
Pages 277-287 | Published online: 09 Jul 2009

REFERENCES

  • Enneking WF, Burchardt H, Puhl JJ, Piotrowski G. Physi-cal and biological aspects of repair in dog cortical bone transplants. J Bone Joint Surg. 1975;57-A:237-252.
  • Tuli SM. Bridging of bone defects by massive bone grafts in tumorous conditions and in osteomyelitis. Clin Orthop. 1972;87:60–73.
  • Glowacki J, Kaban IB, Murray JE, Folkman J, Mulliken JB. Application of the biological principle of induced os-teogenesis for craniofacial defects. Lancet. 1981;1:956–962.
  • Kenley RA, Yim K, Abrams J, Ron E, Turek T, Marden LJ, Hollinger JO. Biotechnology and bone graft substitutes. Pharm Res. 1993;10:1393–1401.
  • Summers BN, Eisenstein SM. Donor site pain from the ilium. A complication of lumbar spine fusion. J Bone Joint Surg. 1989;71:677–680.
  • Younger EM, Chapman MW. Morbidity at the bone graft donor sites. J Orthop Trauma. 1989;3:192–195.
  • Guyuron B, Shafron M, Columbi B. Managemen t of extensive and diffcult cranial defects. J Neurosurg. 1988;69:210–212.
  • Mulliken JB, Glowacki J, Kaban LB, Folkman J, Murray JE. Use of demineralized allogeneic bone implants for the correction of maxillocraniofacial deformities. Ann Surg. 1981;194:366–372.
  • Einhorn TA, Lane JM, Burstein AH, Kopman CR, Vigorita VJ. The healing of segmental bone defects induced by demineralized bone matrix. J Bone Joint Surg. 1984;66-A:274-279.
  • Jarcho M. Calcium phosphate ceramics as hard tissue prosthetics. Clin Orthop. 1981;157:259–278.
  • Solheim E, Pinholt EM, Andersen R, Bang G, Sudmann E. The effect of a composite of polyorthoester on the healing of large segmental defects of the radius in rats. J Bone Joint Surg. 1992;74-A:1456-1463.
  • Solheim E, Pinholt EM, Bang G, Sudmann E. Regeneration of calvarial defects by a composite of bioerodible poly-orthoester and demineralized bone in rats. J Neurosurg. 1992;76:275–279.
  • Holmes R, Mooney V, Bucholz R, Tencer A. A coralline hydroxyapatite bone graft substitute. Clin Orthop. 1984; 188:252–262.
  • Suominen E, Aho AJ, Vedel E, Kangasniemi I, Uusipaikka E, Yli-Urpo A. Subchondral bone and cartilage repair with bioactive glasses, hydroxyapatite, and hydroxyapatite-glass composite. J Biomed Mater Res. 1996;32:543–551.
  • Schwarz N, Schlag G, Thurnher M, Eschberger J, Dinges HP, Reddi H. Fresh autogenic, frozen allogeneic and de-calcifed allogeneic bone grafts in dogs. J Bone Joint Surg. 1991;73-B:787-790.
  • Knapp PM, Lingeman JE, Siegel YI, Badylak SF, Demeter RJ. Biocompatibility of small intestinal submucosa in urinary tract as augmentation cystoplasty graft and injectable sus-pension. J Endourol. 1994;8:125–134.
  • Prevel CD, Eppley BL, Summerlin DJ, Jackson JR, McCarty M, Badylak SF. Small intestina submucosa: Utilization for repair of rodent abdominal wall defects. Ann Plast Surg. 1995;35:374–386.
  • Badylak SF, Tullius R, Kokini K, Shelbourne KD, Klootwyk T, Voytik SL, Kraine MR, Simmons C. The use of xeno-geneic small intestinal submucosa as a biomaterial for Achilles tendon repair in a dog model. J Biomed Mat Res. 1995;29:977–985.
  • Aiken SW, Badylak SF, Toombs JP, Shelbourne KD, Hiles MC, Lantz GC, VanSickle D. Small intestinal submucosa as an intra-articular ligamentous graft material: A pilot study in dogs. VCOT. 1994;7:124–136.
  • Voytik-Harbin SL, Badylak SF. Induction of osteogenic ac-tivity by small intestinal submucosa in rat calvaria non-union defects. In: Keystone Symposia: Tissue Engineering. Taos, NM, January 1996.
  • Lantz GC, Badylak SF, Hiles MC, Coffey AC, Geddes LA, Kokini K, Sandusky GE, Morff RJ. Small intestinal submucosa as a vascular graft: A review. J Invest Surg. 1993;6:297–310.
  • Badylak SF, Lantz G, Coffey A, Geddes LA. Small intestinal submucosa as a large diameter vascular graft in the dog. J Surg Res. 1989;47:74–80.
  • Lantz GC, Badylak SF, Coffey AC, Geddes LA, Blevins WE. Small intestinal submucosa as a small diameter arterial graft in the dog. J Invest Surg. 1990;3:217–227.
  • Lantz GC, Badylak SF, Coffey AC, Geddes LA, Sandusky GE. Small intestine submucosa as a cranial (superior) vena cava graft in the dog. J Surg Res. 1992;53:175–181.
  • Sandusky GE, Badylak SF, Morff RJ, Johson WD, Lantz GC. Histologic fndings after in vivo placement of small intes-tine submucosal vascular grafts and saphenous vein grafts in the carotid artery in dogs. Am J Pathol. 1992;140:317–324.
  • Sandusky GE, Macon ND, Badylak SF, Morff RJ, Lantz GC. Assessment of vascular grafts after in vivo place-ment of small intestine submucosal (SIS) grafts and polyte-trafluoroethylene (PTFE) grafts in a carotid artery in dogs. Proc Association for the Advancement of Medical Instru-mentation, Cardiovascular Science and Technology Conf. 1991:125.
  • Cobb MA, Badylak SF, Janas W, Boop FA. Histology af-ter dural grafting with small intestinal submucosa. Surg Neurol. 1996;46:389–393.
  • Clarke KM, Lantz GC, Salisbury SK, Badylak SF, Hiles MC, Voytik SL. Intestine submucosa and polypropylene mesh for abdominal wall repair in dogs. J Surg Res. 1996;60:107–114.
  • Hiles MC, Badylak SF, Lantz GC, Kokini K, Geddes LA, Morff RJ. Mechanical properties of xenogeneic small-intestinal submucosa when used as an aortic graft in the dog. J Biomed Mater Res. 1995;29:883–891.
  • Badylak SF, Coffey AC, Lantz GC, Tacker WA, Geddes LA. Comparison of the resistance to infection of intesti-nal submucosa arterial autografts versus polytetrafluo-roethylene arterial prostheses in a dog model. J Vasc Surg. 1994;19:465–472.
  • Hodde JP, Badylak SF, Brightman AO, Voytik-Harbin SL. Glycosaminoglycan content of small intestinal submu-cosa: A bioscaffold for tissue replacement. Tissue Engi-neer. 1996;2:209–217.
  • Sandusky GE, Lantz GC, Badylak SF. Healing compari-son of small intestine submucosa and ePTFE grafts in the canine carotid artery. J Surg Res. 1995;58:415–420.
  • Bolander ME. Regulation of fracture repair by growth fac-tors. Proc Soc Exp Biol Med. 1992;200:165–170.
  • Joyce ME, Jingushi S, Bolander ME. Transforming growth factor-B in the regulation of fracture repair. Orthop Clin North Am. 1990;21:199–209.
  • Sunderkkotter C, Steinbrink K, Gobeler M, Bhardwaj R, Sorg C. Macrophages and angiogenesis. J Leukocyte Biol. 1994;55:410–422.
  • Beck LS, Deguzman L, Lee WP, Xu Y, McFatridge LA, Gilett NA, Amento EP. TGF-B1 induces bone closure of skull de-fects. J Bone Min Res. 1991;6:1257–1265.
  • Noda M, Camiliere JJ. In vivo stimulation of bone forma-tion by TGF-B. Endocrinology. 1989;124:2991–2994.
  • Voytik-Harbin SL, Brightman AO, Kraine MR, Waisner B, Badylak SF. Identifcation of extractable growth factors from small intestinal submucosa. J Cell Biochem., 1997; 478–491.
  • Yayon A, Klagsbrun M, Esko JD, Leder P, Ornitz DM. Cell surface, heparin-like molecules are required for binding of basic fbroblast growth factor to its high affnity receptor. Cell. 1991;64:841–848.
  • Begley CT, Doherty MJ, Hankey DP, Wilson DJ. The culture of human osteoblasts upon bone graft substitutes. Bone. 1993;14:661–666.
  • Brunette DM. The effects of implant surface topography on the behaviour of cells. Int J Oral Maxillofac Implants. 1988;3:231–246.

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:

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:

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.