Artículos de revistas
Periosteal Donor Site Regeneration In Rats
Registro en:
Journal Of Submicroscopic Cytology And Pathology. , v. 34, n. 2, p. 187 - 190, 2002.
11229497
2-s2.0-0036527532
Autor
Vieira Da Silva R.
Camilli J.A.
Institución
Resumen
Periosteal regeneration was investigated in two periosteal donor sites of the femur. The periosteum was taken from the femur epiphyses and diaphyses of 32 rats. The animals were sacrificed 1, 2, 3, 4 and 8 weeks after periosteal stripping. Intense cell proliferation occurred in the first week. After two weeks, a thick tissue layer formed by osteoblasts and undifferentiated cells was seen at the two donor sites. Eight weeks after, the periosteum had the same aspect as that from the right femur, which was used as control. Histomorphometric analysis showed that periosteal regeneration was significantly different between epiphyses and diaphyses. Periosteal regeneration at donor site located in epiphyses presented greater proliferation and better osteogenic activity than that observed in diaphyses. 34 2 187 190 Alhopuro, S., Premature fusion of facial suture with free periosteal grafts (1978) Scan. J. Plast. Reconstr. Surg. Suppl., 17, pp. 1-68 Azzolini, A., Riberti, C., Rosseli, D., Standoli, L., Tibial periosteal graft in repair of cleft lip and palate (1982) Ann. Plast. Surg., 9 (2), pp. 105-112 Basset, C.A.L., Current concepts of bone formation (1962) J. Bone Joint. Surg., 44 (A), pp. 1217-1244 Doi, K., Sakai, K., Vascularized periosteal bone graft from the supracondilar region of the femur (1994) Microsurgery, 15, pp. 305-315 Feik, S.A., Storey, E., Ellender, G., Stress induced periosteal changes (1987) Br. J. Exp. Pathol., 68, pp. 803-813 Garcés, G.L., Hermano, J.A.H., Bone growth after periosteal stripping in rats (1991) Int. Orthop., 15, pp. 49-52 Ham, A.V., Cormack, D.H., (1987) Ham's Histology, , J.B. Lippincott Company, Toronto, Canada Ham, A.V., Harris, W.R., Repair and transplantation of bone (1971) The Biochemistry and Physiology of Bone, 3, pp. 337-339. , Bourne C.H. ed., Academic Press, New York, chapter 10 Korkala, O., Kuokkanen, H., Autogenous osteoperiosteal grafts in the reconstruction of full-thickness joint surface defects (1991) Int. Orthop., 15 (3), pp. 233-237 Kuijpers-Jagtman, A.M., Bex, J.H.M., Daggers, J.G., Longitudinal growth of the rabbit femur after vascular and periosteal interference (1988) Anat. Anz. Jena, 167, pp. 349-358 Lupo, G., Ronchi, P., Long term results in cleft and palate repair with modified periosteal flap technique (1987) Scand. J. Plast. Reconstr., 21, pp. 115-117 Lynch, M.C., Taylor, J.F., Periosteal division and longitudinal growth in the tibia of the rat (1987) J. Bone Joints Surg., 69 (5), pp. 812-816 Montes, G.S., Junqueira, L.C.U., The use of the picrosirius-polarizarion method for the study of the biopathology of collagen (1991) Mem. Inst. Oswaldo Cruz, 86 (3), pp. 1-11 Poussa, M., Rubak, J., Ritsilä, V., Differentiation of the osteochondrogenic cells of the periosteum in chondrotrophic environment (1981) Acta Orthop. Scand., 52, pp. 235-239 Ries, W.L., Gong, J.K., Sholley, M.M., A comparative study of osteoblasts: In situ versus isolated specimens (1985) Am. J. Anat., 172, pp. 57-73 Sakai, K., Doi, K., Kawai, S., Free vascularized thin corticoperiosteal graft (1991) Plast. Reconstr. Surg., 87 (2), pp. 290-298 Sasano, Y., Kamakura, S., Homma, H., Suzuki, O., Mizoguchi, I., Kagayama, M., Implanted osteocalcium phosphate (OCP) stimulates osteogenesis by osteoblastic cells and/or committed osteoprogenitors in rat calvarial periosteum (1999) Anat. Rec., 256, pp. 1-6 Satoh, T., Tsuchiya, M., Harii, K., A vascularized iliac musculoperiosteal free flap transfer: A case report (1983) Br. J. Plast. Surg., 36, pp. 109-112 Smith, D.M., Johnston, C.C., Severson, A.R., Studies of the metabolism of separated bone cells. I. Techniques of separation and identification (1973) Calcif. Tissue Res., 11, pp. 56-69 Stock, W., Hiener, R., Dielert, E., Stotz, R., Manninger, J., Wolf, K., The iliac crest region: Donor site for vascularized bone periosteal and soft tissue flaps (1991) Ann. Plast. Surg., 26 (1), pp. 105-109 Uddstromer, L., The osteogenic capacity of tubular and membranous bone periosteum. A qualitative and quantitative experimental study in growing rabbits (1978) Scand. J. Plast. Reconstr. Surg., 12, pp. 195-205 Uddstromer, L., Ritisila, V., Osteogenic capacity of periosteal grafts (1978) Scand. J. Plast. Reconstr. Surg., 12, pp. 207-214 Van Den Wildenberg, F.A.J.M., Goris, R.J.A., Boetes, C., Revascularized periosteum transplantation (1983) Eur. Surg. Res., 15, pp. 110-113 Van Den Wildenberg, F.A.J.M., Goris, R.J.A., Tutein Nolthenius-Puylaert, M.B.J.E., Free revascularized periosteum transplantation: An experimental study (1984) Br. J. Plast. Surg., 37, pp. 226-235