Mechanisms and substances involved in clastic activity of root resorptions – literature review

Luciano Barreto Silva; Guilherme Marinho  Sampaio; Rodolfo Scavuzzi Carneiro Cunha; Felipe Leonardo de Melo Almeida  Fonseca; Paulo  Melo Júnior; Sandra Sayão  Maia; Alexandrino Pereira dos  Santos Neto; Ailton Coelho de  Ataíde Filho

doi:10.33448/rsd-v11i1.21017

Autores/as

Luciano Barreto Silva Faculdade de Odontologia do Recife https://orcid.org/0000-0002-1508-4812
Guilherme Marinho Sampaio Faculdade de Odontologia do Recife https://orcid.org/0000-0003-4441-7601
Rodolfo Scavuzzi Carneiro Cunha Faculdade de Odontologia do Recife https://orcid.org/0000-0001-7110-848X
Felipe Leonardo de Melo Almeida Fonseca Faculdade de Odontologia do Recife https://orcid.org/0000-0001-7967-0215
Paulo Melo Júnior Faculdade de Odontologia do Recife https://orcid.org/0000-0001-9926-5348
Sandra Sayão Maia Faculdade de Odontologia do Recife https://orcid.org/0000-0001-6808-9775
Alexandrino Pereira dos Santos Neto Faculdade de Odontologia do Recife https://orcid.org/0000-0001-8250-5763
Ailton Coelho de Ataíde Filho Faculdade de Odontologia do Recife https://orcid.org/0000-0002-8105-4259

DOI:

https://doi.org/10.33448/rsd-v11i1.21017

Palabras clave:

Alergia e inmunología; Reabsorción dental; Reabsorción de raíces; Células Asesinas Inducidas por Citosinas.

Resumen

Objetivo: investigar, a través de una revisión de la literatura, los mecanismos involucrados en el establecimiento de reabsorciones radiculares. En esta revisión se estudiaron mediadores como las interleucinas, las prostaglandinas, el óxido nítrico disponible y el calcio sistémico. Métodos: Las búsquedas en línea se realizaron examinando la base de datos disponible en PUBMED Central, BVS / BIREME. También se utilizaron Web of Science, Science Direct, Portal Periódico de CAPES, así como The Cochrane Library y PROSPERO. Los criterios de inclusión fueron artículos que describieran la actividad osteoclástica que involucraba los tejidos dentales duros (cemento, dentina y esmalte). La búsqueda adquirió 35 artículos y excluyó otros 30. Los artículos adquiridos variaron desde 1976 hasta 2017. Resultados: los resultados mostraron que la combinación de mediadores inmunológicos investigados anteriormente serán los factores determinantes en el establecimiento de reabsorciones radiculares. Conclusiones: Las prostaglandinas, las interleucinas y también el calcio sistémico disponible son algunos de los factores más importantes para el establecimiento de resorciones radiculares. Su resultado final, sin embargo, depende directamente de la calidad de la lesión infligida en el grupo de dientes, o diente único, involucrado.

Citas

Arsenault, A. L., & Robinson, B. W. (1999) The dento-enamel junction: a structural and microanalytical study of early mineralization. Calcif Tissue Int. 111.

Banick, P. D., Chen, Q. P., Xu, Y. A., & Thom, S. R. (1997). Nitric oxide inhibits neutrophil b2 integrin function by inhibiting membrane-associated cyclic GMP synthesis. J Cell Physiol 172: 12-24.

Bankers-Fulbright, J. L., Kalli, K. R., & McKean, D. J. (1996). "Interleukin-1 signal transduction". Life Sciences. 59 (2): 61–83. 10.1016/0024-3205(96)00135-X. PMID 8699924.

Basedovsky, H.; Del Rey, A.; Sorkin & E. et al. (1986) Immunoregulatory feedback between interleukin-1 and glucocorticoid hormones. Science 233, 652-654.

Baynes, J. W.; Marek, H., & Dominiczak (2005). Medical Biochemistry 2nd. Edition. Elsevier Mosby. 555.

Beckman J, Koppenol W (1996). Nitric oxide, superoxide, and peroxynitrite: the good, the bad, and the ugly. Am J Physiol 271: C1424-C1437.

Bishop, M. A. (1992.) Extracellular fluid movement in the pulp; the pulp/dentin permeability barrier. Proc Finn Dent Soc 88, 331-335.

Borish, L. C., & Streinke, J. W. (2003) Cytokines and chemokines. Allergy and Clinc. Immunol., 111, 2.

Boyce, B. F., Li, P., Yao, Z. et al. (2005) TNF-alpha and pathologic bone resorption. Keio J Med 54, 127-131.

Brocker, C., et al. (2010). Evolutionary divergence and functions of the human interleukin (IL) gene family. Human Genomics 5 (1): 30–55.

Cağlaroğlu, M., & Erdem, A. (2012) Histopathologic investigation of the effects of prostaglandin E2 administered by different methods on toothmovement and bone metabolism. Korean J Orthod. 42: 118-128.

Chaplin, D. D. (2003) Overview of the immunologic response. Allergy and Clinic. Immunol., 111(2).

Clancy, R., Leszczynska-Piziak, J., & Abramson, S. (1992). Nitric oxide, and endothelial cell relaxation factor, inhibits neutrophil superoxide anion production via a direct action on the NADPH oxidase. J Clin Invest 90: 1116-1121.

Davies, N. M., Roseth, A. G., Appleyard, C. B., McKnight, W., Del Soldato, P., Calignano, A., Cirino, G., Wallace, J. L. (1997). NO-naproxen vs naproxen: ulcerogenic, analgesic and anti-inflammatory effects. Aliment Pharmacol Ther 11: 69-79.

Dinarello, C. A. (1997). "Induction of interleukin-1 and interleukin-1 receptor antagonist". Seminars in Oncology. 24(3): S9–81–S9–93.

Fearon, D. T., & Locksley, R. M. (1996) The instructive role of innate immunity in the acquired immune response. Science 272, 50-53.

Felix R, & Fleisch H. (1976) The role of matrix vesicles in nucleation. Fed Proc; 35, 169.

Haddad, J. J., Saade, N. E., & Safieh-Garabedian, (2002) B. Cytokines and neuro-immune-endocrine interactions: a role for the hypothalamic-pituitary-adrenal revolving axis. J Neuroimmunol 133, 1-19.

Kalajzic, Z., Peluso, E. B., Utreja, A., Dyment, N., Nihara, J., Xu, M., et al. (2014) Effect of cyclical forces on the periodontal ligament and alveolar bone remodeling during orthodontic toothmovement. Angle Orthod; 84: 297-303.

Kehoe, M. J., Cohen, S. M., Zarrinnia, K., & Cowan, A. (1996) The effect of acetaminophen, ibuprofen, and misoprostol on prostaglandin E2 synthesis and the degree and rate of orthodontic tooth movement. Angle Orthod; 66: 339-349.

Kurzrock, R.; & Lieb, C. C. (1930). "Biochemical Studies of Human Semen. II. The Action of Semen on the Human Uterus". Proceedings of the Society for Experimental Biology and Medicine. 28 (3): 268. doi:10.3181/00379727-28-5265.

Limeback, H. (1996) Molecular mechanisms in dental hards tissue mineralization. Curr Opin Dent.;1:826.

Mayahara K, Yamaguchi A, Takenouchi H, Kariya T, Taguchi H, & Shimizu N. (2012) Osteoblasts stimulate osteoclastogenesis via RANKL expression more strongly than periodontal ligament cells do in response to PGE(2). Arch Oral Biol ; 57: 1377-1384.

Moreno, J. J. (2017). "Eicosanoid receptors: Targets for the treatment of disrupted intestinal epithelial homeostasis". European Journal of Pharmacology. 796: 7–19.

Pohl Y, Filippi A, & Kirschner H. (2005) Results after replantation of avulsed permanent teeth: Endodontic considerations. Dent Traumatol.; 21: 80-92.

Reitan K, & Rygh P (1994) Biomechanical principles and reactions. In: Graber T M, Vanarsdall R L (eds) Orthodontics: Current principles and techniques. Mosby, Philadelphia, 96-192.

Saito M, Saito S, Ngan P. W, Shanfeld J, & Davidovitch Z. (1991) Interleukin 1 beta and prostaglandin E are involved in the response of periodontal cells to mechanical stress in vivo and in vitro. Am J Orthod Dentofacial Orthop; 99: 226-240.

Sandy J. R, Farndale R W, Meikle M. C. (1993) Recent advances in understanding mechanically induced bone remodeling and their relevance to orthodontic therapy d practice. Am. J. Orthod. Dentofacial Orthop., 103(3), 212-222.

Santos, S. H., & Morosolli A. R. C. (2007). Considerations about external root resorption. SOTAUR Virtual Odontol. 1:2-7.

Shanfeld, J, Jones, J, Laster L, & Davidovitch Z. (1986) Biochemical aspects of orthodontic tooth movement I. Cyclic nucleotide and prostaglandin concentrations in tissues surrounding orthodontically treated teeth in vivo. Am J Orthod and Dentofac Orthop; 90: 139-148.

Shioi A, Ross F. P, & Teitelbaum S. L. (1994) Enrichment of generated murine osteoclasts. Calcif. Tissue Int., 55(5), 387-394.

Shiraishi C, Hara Y, Abe Y, Ukai T, & Kato I (2001) A histopathological study of the role of periodontal ligament tissue in root resorption in the rat. Archives of Oral Biology 46: 99-107.

Soma S, Iwamoto M, Higuchi Y, & Kurisu K (1999) Effects of continuous infusion of PTH on experimental tooth movement in rats. Journal of Bone and Mineral Research 14: 546-554;

Yamasaki K, Miura F, & Suda T. (1980) Prostaglandin as a mediator of bone resorption induced by experimental tooth movement in rats. J Dent Res; 59: 1635-1642

Mecanismos y sustancias que participan en la actividad clásica de las resorciones de raíces - revisión de la literatura

Autores/as

DOI:

Palabras clave:

Resumen

Citas

Descargas

Publicado

Cómo citar

Número

Sección

Licencia

JOURNAL METRICS

Idioma

Enviar un artículo