Show simple item record

VASCULAR AND STRUCTURAL PULP CHANGES INDUCED BY ORTHODONTIC FORCES: A REVIEW

dc.contributor.authorDelgado C., Ludwing J.spa
dc.contributor.authorOjeda C., Carlos Albertospa
dc.contributor.authorFerreira A., Humbertospa
dc.contributor.authorOrdóñez M., Eugeniospa
dc.date2018-03-14spa
dc.identifierhttp://revistas.ustabuca.edu.co/index.php/USTASALUD_ODONTOLOGIA/article/view/1915spa
dc.identifier10.15332/us.v4i1.1915spa
dc.descriptionIt is thought that, in occasions, the orthodontic forces produce alterations in the angiogenesis, structures and capillary pulpar flow. Nevertheless, it can be found reports of stimulation of the angiogenesis through the growth factors; structural changes due to fibrosis, apoptosis, pulpar degenerations and necrosis; vascular changes by a reduction in the sanguineous flow to pulpar, and changes in the trustworthiness of the sensitivity tests. The purpose of this article is to raise several questions on the structural and vascular pulpar changes induced by orthodontic forces.eng
dc.descriptionSe ha sugerido que, en ocasiones, las fuerzas ortodónticas producen alteraciones en la angiogénesis, estructura y flujo sanguíneo pulpar. Sin embargo, en la literatura se encuentran reportes de estimulación de la angiogénesis a través de los factores de crecimiento; cambios estructurales debidos a fibrosis, apoptosis, degeneraciones pulpares y necrosis; cambios vasculares por una reducción en el flujo sanguíneo pulpar, y cambios en la confiabilidad de las pruebas de sensibilidad. El propósito de esta revisión es plantear varios cuestionamientos sobre los cambios pulpares vasculares y estructurales inducidos por fuerzas ortodónticas.[Delgado L, Ojeda CA, Ferreira H, Ordoñez E. Cambios pulpares vasculares y estructurales inducidos por fuerzas ortodónticas: Una revisión. Ustasalud Odontología 2005: 4: 44 – 47]spa
dc.format.mimetypeapplication/pdfspa
dc.language.isospaspa
dc.publisherUniversidad Santo Tomás Seccional Bucaramangaspa
dc.relationhttp://revistas.ustabuca.edu.co/index.php/USTASALUD_ODONTOLOGIA/article/view/1915/1491spa
dc.relation/*ref*/Roberts-Clark DJ. Smith AJ. Angiogenic growth factors in human dentin matrix. Arch Oral Biol 2000; 45; 1013 - 1016.spa
dc.relation/*ref*/Derringer KA, Jaggers DJ, Linden RWA. Angiogenesis in human dental pulp following orthodontic tooth movement. J Dent Res 1996; 75: 1761 - 1766.spa
dc.relation/*ref*/Stenvik A, Mjör IA. Pulp and dentin reaction to experimental tooth intrusion. A histologic study of the initial changes. Am J Orthod 1970; 57: 370 - 385.spa
dc.relation/*ref*/McDonald F, Pittford TR. Blood flow changes in permanent maxillary canines during retractions. Eur J Orthod 1994; 16: 1 - 9.spa
dc.relation/*ref*/Rowe AHR, Pittford TR. The assessment of pulpal vitality. Int Endod J 1990; 23: 77 - 83.spa
dc.relation/*ref*/Baume LJ. 1980. The biology of the pulp and dentine. En: Myers HM. Monographs in oral science. Basel: Karger; 1980.spa
dc.relation/*ref*/Yoshida S, Ohshima H. Distribution and organization of peripheral capillaries in dental pulp and their relationship to odontoblasts. Anat Rec 1996; 245: 313 - 326.spa
dc.relation/*ref*/Lesot H, Begue-Kim C, Kubler MD, Meyer JM, Smith AJ, Cassidy N, Ruch JV. Experimental induction of odontoblast differentiation. Cell Mater 1993; 3: 201 - 217.spa
dc.relation/*ref*/Jin H, Thomas HF, Chen J. Wound healing and revascularization: a histologic observation of experimental tooth root fracture. Oral Surg Oral Med Oral Path Oral Rad Endod 1996; 81: 26 - 30.spa
dc.relation/*ref*/Folkman J, Klagsbrun M. A family of angiogenic peptides. Nature 1987; 329: 671 - 672.spa
dc.relation/*ref*/Folkman J, Klagsbrun M. Angiogenic factors. Science 1987; 235: 442 - 457.spa
dc.relation/*ref*/Harik SI, Hritz MA, LaManna JC. Hypoxia induced brain angiogenesis in the adult rat. J Physiol 1995; 485: 525 - 530.spa
dc.relation/*ref*/Rygh P, Bowling K, Hovlandsdal L, Williams S. Activation of the vascular system: a main mediator of periodontal fiber remodeling in orthodontic tooth movement. Am J Orthod 1986; 89: 453 - 468.spa
dc.relation/*ref*/Mostaza YA. Iskander K, el-Mangoury NH. Iatrogenic pulpal reactions to orthodontic extrusion. Am J Ortho Dentofac Orthop 1991; 99: 30 - 34.spa
dc.relation/*ref*/Derringer KA, Jaggers DJ. Linden RWA. Angiogenesis in human dental pulp following orthodontic tooth movement. J Dent Res 1996; 75: 1761 - 1766.spa
dc.relation/*ref*/Davidovitch Z. Cell biology associated with orthodontic tooth movement. En: Berkovitz BKB, Moxham BJ, Newman HN. The periodontal in health and disease. 2nd ed. Orlando: Mosby Yearbook; 1995. p. 259 - 277.spa
dc.relation/*ref*/Rygh P. Bowling K. Hovlandsdal L, Williams S. Activation of the vascular system: a main mediator of periodontal remodeling in orthodontic tooth movement. Am J Orthod 1986; 89: 453 -468.spa
dc.relation/*ref*/Roberts WE, Ferguson D. Cell Kinetics of the periodontal ligament. En: Norton and Burstone, editors. The biology of tooth movement. London: CRC Press; 1989. p. 55 - 71.spa
dc.relation/*ref*/Hamersky P, Weimar A, Taintor J. The effect of orthodontic force application on the pulpal tissue respiration rate in human premolar. Am J Orthod 1980; 77: 368 - 378.spa
dc.relation/*ref*/Aisenberg MS. The tissues and changes involved in orthodontic tooth movements. Am J Orthod 1948; 34: 854 - 859.spa
dc.relation/*ref*/Anstendig HS, Kronman JH. A histological study of pulpal reaction to orthodontic tooth movement in dogs. Angle Orthod 1972; 42: 50 - 55.spa
dc.relation/*ref*/Guevara MH, McClugage SG. Effects of intrusive forces upon the microvasculature of the dental pulp. Angle Orthod 1980; 50: 129 - 134.spa
dc.relation/*ref*/Nixon CE, Saviano JA, King GJ, Keeling SD. Histomorphometric study of dental pulp during orthodontic tooth movement. J Endod 1993; 17: 13 - 16.spa
dc.relation/*ref*/Profitt WR, Fields HW. Contemporary orthodontics. St Louis: Mosby - year Book, 1993: 266 -281.spa
dc.relation/*ref*/Mostafa YA, Iskander KG, El-Mangoury NH. Iatrogenic pulpar reactions to orthodontic extrusion. Am J Orthod Dentofac Orthop 1991; 99: 30 - 34.spa
dc.relation/*ref*/Turley PK, Joiner MW, Helistrom S. The effect of orthodontic extrusion on traumatically intruded teeth. Am J Orthod 1984; 85: 47 - 56.spa
dc.relation/*ref*/Moss JP, Timms DJ. A histological investigation into the effects of rapid maxillary expansion on the teeth and their supporting tissues. Trans Eur Orthod Soc 1971: 263 - 271.spa
dc.relation/*ref*/Hamilton RS, Gutmann JL. Endodontic - orthodontic relationships: a review of integrated treatment planning challenges. Int Endod J 1999; 32: 343 - 360.spa
dc.relation/*ref*/Oppenheim A. Biologic orthodontic therapy and reality. Angle Orthod 1936; 6: 5 - 38.spa
dc.relation/*ref*/Labart WA, Taintor JF, Diyer JK, Weimer AD. The effect of orthodontic forces on pulp respiration in the rat incisor. J Endod 1980; 6: 724 - 727.spa
dc.relation/*ref*/Seltzer S, Bender IB. The dental pulp. 3rd edition. Philadelphia: J.B. Lippincot Company. 1984: 210 -211.spa
dc.relation/*ref*/Bunner M, Johnson D. Quantitative assessment intrapulpar axon response to orthodontic movement. Am J Orthod 1982: 77: 368 - 378.spa
dc.rightsCopyright (c) 2018 UstaSaludspa
dc.sourceUstaSalud; Vol. 4, Núm. 1 (2005); 44-47spa
dc.source1692-5106spa
dc.source10.15332/us.v4i1spa
dc.titleCAMBIOS PULPARES VASCULARES Y ESTRUCTURALES INDUCIDOS POR FUERZAS ORTODÓNTICAS: UNA REVISIÓNspa
dc.titleVASCULAR AND STRUCTURAL PULP CHANGES INDUCED BY ORTHODONTIC FORCES: A REVIEWeng
dc.typeinfo:eu-repo/semantics/articlespa
dc.typeinfo:eu-repo/semantics/publishedVersionspa
dc.typeArtículo revisado por paresspa
dc.subject.proposalAngiogénesis; movimiento dental; flujo pulpar; vitalidad pulparspa
dc.subject.proposalAngiogenesis; Tooth movement; Pulpar flow; Pulpar vitalityeng


Files in this item

FilesSizeFormatView

There are no files associated with this item.

This item appears in the following Collection(s)

Show simple item record

Indexado por: