THE EFFECTS OF COMMONLY USED DRUGS ON ORTHODONTIC TOOTH MOVEMENT : A SYSTEMATIC REVIEW

Authors

  • BATMARAJ Saveetha Dental College
  • PROF.UMASHANKAR

Abstract

Objective: The objective of this review of literature is to evaluate the effect of different types of drugs being used in orthodontic. This review will brief out the different views by various authors regarding the group of drug that effect orthodontic tooth movement.

Method: The electronic database of PubMed, Wiley online library, and Science Direct were used. The search strategies are presented in Appendix 1. The period of electronic search was from January 1970 to November 2012. A single author conducted the electronic search independently based on the inclusion criteria.

 

Results: The search revealed a total of 189 articles and abstracts found through Pub med, Wiley online library and science direct. After reading the title and abstract 75 was excluded from the review of literature. Application of inclusion criteria resulted in 48 articles used for data extraction and subsequent review

 

Conclusion: As more and more chemical analogues are being used in the form of new drugs to avoid resistance, today's clinicians should mandatorily update his knowledge on the clinical efficacy of the new drugs as well as the beneficial and harmful effects on human tissues .  It is always advisable for a dentist to confirm with the family physician or the concerned physician for fitness of the patients who undergo orthodontics treatment involving tooth movement.

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References

Reitan K. Biomechanical principles and reactions. In: Graber TM, Swain BF, editors. Current orthodontic concepts and techniques. 3rd ed. Philadelphia: WB Saunders Co; 1985.

Terranova VP, Nishimura F: Periodontal ligament cells are chemotactic to fibroblast collagenase. J Dent Res 1996;75:993-1001

Meikle MC. The tissue, cellular, and molecular regulation of orthodontic tooth movement: 100 years after Carl Sandstedt. Eur J Orthod 2006;28:221-40.

Masella RS, Meister M. Current concepts in the biology of orthodontic tooth movement. Am J Orthod Dentofacial Orthop 2006;129:458-468.

Krishnan V, Davidovitch Z. Cellular, molecular, and tissue-level reactions to orthodontic force. Am J Orthod Dentofacial Orthop 2006;129:469.e1-32.

Rossi M, Whitcomb S, Lindemann R, Interleukin-1 beta and tumor necrosis factor-alpha production by human monocytes cultured with L-thyroxine and thyrocalcitonin' relation to severe root shortening. Am J Orthod Dentofacial Orthop 1996;110:399-404.

Sandy JR, Famdale RW, Meikle MC, Reeent advances in understanding mechanically induced bone remodeling and their relevance to orthodontic theory and practice. Am J Orthod Dentofacial Orthop 1993;103:212-222.

Davidovitch Z, Finkelson MD, Steigman S, Shanfeld JL, Montgomery PC, Korostoff E. electric currents ,bone remodeling and orthodontic tooth movement Am J Orthod Dentofacial Orthop 1980;77(1):33-47.

Yamasaki K, Shibata Y, Imai S, Tani Y, Shibasaki Y, Fukuhara T. Clinical application of prostaglandin E1 (PGE1) upon orthodontic tooth movement. Am J Orthod 1984;85:508-510.

Klein D. C, Raisz L.G. Prostaglandins: stimulation of bone resorption in tissue culture. Endocrinology 1970;86:1436–1440.

Raisz, L. G, Sandberg A. L, Goodson J. M, Simmons H. A, Mergenhagen S. E, Complement-dependent stimulation of prostaglandin synthesis and bone resorption. Science 1974;185:789–791.

Dowsett M, Eastman A. R, Easty D. M, Easty G. C, Powles T. J, Neville A. M. Prostaglandin mediation of collagenase induced bone resorption. Nature 1976;263: 72–74.

Goldhaber P, Rabadjija L, Beyer W. R, Kornhauser A. Bone resorption in tissue culture and its relevance to periodontal disease. J Am Dent Assoc 1973;87:1027–1033.

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

Yamasaki K, Shibata Y, Fukuhara T. The effect of prostaglandins on experimental tooth movement in monkeys (Macaca fuscata). J Dent Res 1982;61:1444–1446.

Lee W. Effect of prostaglandins on tooth movement. Am J Orthod Dentofac Orthop;1990: 98:231–241.

Spielmann T, Wieslander L, Hefti AF. Beschleunigung einer orthodontisch induzierten zahnbewegung durch lokale application von prostaglandin (PGE1). Schweiz Monatsschr Zahnmed 1989;99:162-5.

Bhalajhi, S. I. and Shetty, V. S., The effect of prostaglandin E2 on tooth movement in young rabbits. J Indian Orthod Soc 1996;27:85–92.

Sandy JR, Famdale RW, Meikle MC, Recent advances in understanding mechanically induced bone remodeling and their relevance to orthodontic theory and practice. Am J Orthod Dentofacial Orthop 1993;103:212-222.

Mohammed AH, Tatakis DN, Dziak R. Leukotrienes in orthodontic tooth movement. Am J Orthod Dentofacial Orthop 1989;95:231-7.

Jones G, Hogan DB. Yendt E. Hanley DA. Prevention and management of osteoporosis: Consensus statements from the Scientific Advisory Board of the Osteoporosis Society of Canada. Vitamin D metabolites and analogs in the treatment of osteoporosis. Can Med Assoc J 1996;155:955-961.

Dechant KL, Goa KL. Calcitriol. A review of its use in the treatment of postmenopausal osteoporosis and its potential in corticosteroid-induced osteoporosis. Drugs Aging 1994;5:300-317.

MK Collins et al. The local use of vitamin D to increase the rate of orthodontic tooth movement Am J Orthod Dentofacial Orthop 1988;94:278-84.

Moffett D E, Moffett S, Schauf C L. Human physiology. Foundations and Frontiers. 2nd ed. St Louis: Mosby, 1993. p. 96-135.

Neupert 3rd EA, Lee JW, Philput CB, Gordon JR: Evaluation of dexamethasone for reduction of postsurgical sequelae of third molar removal. J Oral Maxillofac Surg 1992;50: 1177-1182, discussion 1182-1173.

Kalia S, Melsen B, Verma C. Tissue reaction to orthodontic tooth movement in acute and chronic corticosteroid treatment. Orthod Craniofac Res 2004;7:26-34.

Christiansen RL. Commentary: Thyroxine administration and its effects on root résorption. Angle Orthod 1994;64:399-400.

Britto JM, Fenton AJ, Holloway WR, Nicholson GC. Osteoblasts mediate thyroid hormone stimulation of osteoclastic bone résorption. Endocrinology 1994;134:169-176.

Schoutens A, Laurent E, Markowicz E, Lisart J, De-Maertelaer V. Serum triiodothyronine, bone turnover and bone mass changes in euthyroid pre and postmenopausal women. Caleif Tissue Int 1991;49:95-100.

Roodman GD. Role of cytokines in the regulation of bone résorption. Calcif Tissue lnt. 1993;53:94-98.

Shirazi M, Dehpour AR, Jafari F. The effect of thyroid hormone on orthodontic tooth movement in rats. J Clin Pediatr Dent 1999;23:259-64.

Varónos D. Ormones thyroidous-anti thyroidika [in Greek]. In Parisianos (ed). latriki Pharmakologia. Athens: Parisianos, 1987;429-437.

Chambers TJ, Chambers JC, Symonds J, Darby JA. The effect of human calcitonin on the cytoplasmic spreading of rat osteoclasts. J Clin Endoerinol Metab 1986;63:1080-1085.

Vedi S, Compston JE. The effects of long-term hormone replacement therapy on bone remodeling in postmenopausal women. Bone 1996;19:535-539.

Brandi ML, Creseioli C, Tanini A, Frediani U, Agnusdei D, Gennari C. Bone endothelial cells as estrogen targets. Calcif Tissue Int 1993;53:312-317.

Orimo H. Preventative treatment of involutional osteoporosis. J Bone Miner Met 1993;11:59-64.

Ohasbi T, Kusahara S. Effects of estrogen on the prolifération and differentiation of osteogenic cells during the early stage of medullary bone formation in cultured quail bones. J Bone Miner Met 1991;9:253-258.

Komm BS, Terpening CM, Benz DJ, Graeme KA, Gallegos A, Korc M, et al. Estrogen binding, receptor mRNA and biologic response in osteoblast-like ostcosarcoma cells. Science 1988;241:81-84.

Eriksen EF. Colvard DS, ßerg NJ, Graham ML, Mann KG, Spelsberg TG, et al. Evidence of estrogen receptors in normal human osteoblast-Iike cells. Science 1988:241:84-86.

Gray TK, Flynn TC, Gray KM. Nabell LM. 17 beta-estradiol acts directly on the clonal osteoblastic cell line UMR106. Proc Natl Acad Sci U S A 1987:84:6267-6271.

Rizzoli R, Bonjour JP. Hormones and bones. Lancet 1997;349:120-123.

Jilka RL, Hangoc G, Girasole G, Passeri G, Williams DC, Abrams JS, et al. Increased osteoclast development after estrogen loss: Mediation by interleukin-6. Science 1992;257: 88-91.

Passeri G, Girasole G, Jilka RL, Manolagas SC. Increased interleukin-6 production by murine bone marrow and bone cells after estrogen withdrawal. Endocrinology 1993;133;822-828.

Girasole G, Jilka RL. Passeri G, Boswell S, Boder G, Williams DC, et al. 17beta-estradiol inhibits interleukin-6 production by bone marrow-derived stromal cells and osteoblasts in vitro. A potential mechanism for the antiosteoporotic effect of estrogens. J Clin Invest 1992;89:883-891.

Miyajima K, Nagahara K, Iizuka T. Orthodontic treatment for a patient after menopause. Angle Orthod 1996;66:173-78.

Brumsen C, Hamdy N.A, Papapoulos S.E. Long term effect of bisphosphonates on the growing skeleton. Med 1997;76:266-283.

Fleisch H. Development of bisphosphonates. Breast Cancer Res 2002;4:30-34.

Zahrowski JJ. Bisphosphonate treatment: an orthodontic concern calling for a proactive approach. Am J Orthod Dentofacial Orthop 2007;131:311-320.

Carano A, Teitelbaum SL, Konsek JD, Schlesinger PH, Blair HC. Bisphosphonates directly inhibit the bone resorption activity of isolated avian ostcoclasts in vitro. J Clin Invest 1990;85:456-461.

Jung A, Bornand ), Mermillod B, Edouard C, Meunier PJ. Inhibition by diphosphonates of bone résorption induced by the Walker tumor of the rat. Caneer Res 1984;44:3007-3011.

Adachi H, Igarashi K, Mitani H, Shinoda H. Effects of topical administration of a bisphosphonate (risedronate) on orthodontic tooth movements in rats. J Dent Res 1994;73:1478-1486.

Liu L, Igarashi K, Haruyama N, Saeki S, Shinoda H, Mitani H. Effects of local administration of clodronate on orthodontic tooth movement and root resorption in rats. Eur J Orthod 2004;26:469-473.

Igarashi K, Mitani H, Adachi H, Shinoda H. Anchorage and retentive effects of a bisphosphonate (AHBuBP) on tooth movements in rats. Am J Orthod Dentofacial Orthop 1994;106:279-289.

Zahrowski JJ. Bisphosphonate treatment: an orthodontic concern calling for a proactive approach. Am J Orthod Dentofacial Orthop 2007;131:311-420.

Chumbley AB, Tuncay OC. The effect of indometacin (an aspirin-like drug) on the rate of orthodontic tooth movement.Am J Orthod 1986;89:312-400.

de Carlos F, Cobo J, Diaz-Esnal B, Arguelles J, Vijande M, Costales M. Orthodontic tooth movement after inhibition of cyclooxygenase-2. Am J Orthod Dentofacial Orthop 2006;129:402-406.

Vayda P, Loveless J, Miller R, Theroux K. The effect of short term analgesic usage on the rate of orthodontic tooth movement. J Dent Res 2000;79:614.

Graf P, Glatt M, Brune K. Acidic non-steroidal anti-inflammatory drugs accumulating in inflamed tissue. Experientia 1975;31:951-953.

Roche JJ, Cisneros GJ, Acs G. The effect of acetaminophen on tooth movement in rabbits. Angle Orthod 1997;67:231-236.

Krishnan V, Davidovitch Z. The effect of drugs on orthodontic tooth movement. Orthod Craniofac Res 2006;9:163-171.

Published

01-02-2014

How to Cite

BATMARAJ, and PROF.UMASHANKAR. “THE EFFECTS OF COMMONLY USED DRUGS ON ORTHODONTIC TOOTH MOVEMENT : A SYSTEMATIC REVIEW”. Asian Journal of Pharmaceutical and Clinical Research, vol. 7, no. 6, Feb. 2014, pp. 10-14, https://journals.innovareacademics.in/index.php/ajpcr/article/view/636.

Issue

Vol 7 Suppl 1 (February-March) 2014

Section

Articles

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