ANALISIS VEGF PADA PERGERAKAN GIGI ORTODONTI SETELAH PEMBERIAN SEDUHAN KOPI ROBUSTA ( COFFEACANEPHORA)

https://doi.org/10.22146/teknosains.22992

Herniyati Herniyati(1*)

(1) FAKULTAS KEDOKTERAN GIGI UNIVERSITAS JEMBER
(*) Corresponding Author

Abstract


Background: Orthodontic tooth movement depends on bone remodeling. VEGF plays an important role in bone remodeling in both pressure area and tension area. Robusta coffee contains caffeine, chlorogenic acid and caffeic acid. Caffeine may increase osteoclastogenesis, and caffeic acid has antioxidant effects that may reduce oxidative stress in osteoblasts Objective: To analysis of VEGF of orthodontic tooth movement post robusta coffeesteeping administration. Material and methods: The experimental laboratories research used 16rats  were divided into 2 groups. Group A: the rats were applied with  orthodontic mechanical force (OMF) and group B: OMF + coffee steeping of 20mg /100 g of BW. OMF was conducted by applying  ligature wire with a diameter of 0.20 mm on the molar-1 (M-1) and both incivus of right maxilla. Subsequently, M-1 of right maxilla was moved to mesial  with Niti closed coil spring. Observations were made on days 15 and 22 by taking the gingival crevicular fluid by putting paper point on the gingival sulcus of mesio-and disto-palatal area of M-1 of right maxilla to determine the levels of VEGF using ELISA method. Results: the administration of Robusta coffee steeping increased the levels of VEGF in both compression area and tension area (p <0.05).The levels of VEGF in tension area larger than the compression area(p >0.05).Conclusion: the Robusta coffee steeping administration increased the levels of VEGF oforthodontic tooth movement ,therefore it may improve alveolar bone remodeling process and it may be an alternative to accelerate orthodontic treatment.


Keywords


VEGF; Robusta Coffee; Gingival Crevicular Fluid; Orthodontic tooth movement; Bone remodeling

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References

Andrade JI, Taddei SRA, and Souza PEA. Inflammation and Tooth Movement: The Role of Cytokines, Chemokines, and Growth Factors. Seminar in Orthodontics. 2012; 18(4): 257-269

Ariffin SHZ, Yamamoto Z, Abidin IZZ, Wahab RMA, and Ariffin ZZ. Cellular and Molecular Changes in Orthodontic Tooth Movement. TheScientificWorldJournal. 2011; 11 Article ID 761768: 16 pages.

Baek KH, Oh KW, Lee WY, Lee SS, Kim MK, and Kwon HS. Association of oxidative stress with postmenopausal osteoporosis and effects of hydrogen peroxide on osteoclast formation in human bone marrow cell cultures. Calcif Tissue Internat. 2010; 87 (3): 226-35.

Bin HS, Jeong JH, and Choi UK. Chlorogenic acid promotes osteoblastogenesis in human adipose tissue-derived mesenchymal stem cells.J.Food Sci Biotechnol. 2013; 22: 107-12.

Cardaropoli Dand Gaveglio L. The influence of orthodontic movement on periodontal tissues level. Seminars in Orthodontics. 2007; 13(4): 234–245.

Cheung WY, Liu C, Tonelli-Zasarsky RML, Simons CA, and You Lidan. Osteocyte apoptosis is mechanically regulated and induces angiogenesis in vitro. J Orthop Res. 2011; 29: 523-530.

Crockett JC, Rogers MJ, Coxon FP, Hocking LJ, and Helfrich MH. Bone Remodelling at a Glance. J Cell Sci. 2011; 124: 991-998.

Dai J, Rabie ABM. VEGF: An essential mediator of both angiogenesis and endochondral ossification. J Dent Res , 2007; 86:937-950.

D’Apuzzo F, Cappablanca S, Clavarella D, Monsurro A, Biavati A.S, and Perillo L. Biomarkers of Periodontal Tissue Remodelling during Orthodontic Tooth Movement in Mice and Men, Overview and Clinical Relevance,Scien.World J. 2013; 41: 342-53.

Jianru Y, Boxi Y, Meile L, Yu W, Wei Z, Yu L, and Zhihe Z. Caffeine may enhance orthodontic tooth movement through increasing osteoclastogenesis induced by periodontal ligament cells under compression. J.ArchOral Bio. 2016; 64: 51-60.

Kaku M, Motokawa M, Tohma Y, Tsuka N, Koseki H, Sunagawa H, Hernandes RAM, Ohtani J, Fujita T, Kawata T, and Tanne K. VEGF and M-CSF levels in periodontal tissue during tooth movement. Biomedical Research. 2008; 29(4):181-187.

Kawata T, and Tanne K. Expression of vascular endothelial growth factor and the effects on bone remodeling during experimental tooth movement. Biomedical Research. 2011; 22 (2): 248-253 .

Kenisa PY, Istiati, and Setyari W. Effect of Robusta coffee beans ointment on full thickness wound healing. J.Dental Student. 2012; 45(1).

Krishnan V, Davidovitch Z. Cellular, Molecular and Tissue-Level Reaction to Orthodontics Force. Am J Orthod Dentofacial Orthop. 2006; 129: 1-32.

Lauritano D, Advantaggiato A, Cura F, Girardi A, and Carinci F. Biomarkers of periodontal tissue in gingival crevicular fluid during orthodontic movements: An overview. OA Dentistry. 2014; 18. 2(1): 1.

Liu SH, Chen C, Yang RS, Yuan PY, Yang YT, and Tsai C. Caffeine enhances osteoclast differentiation from bone marrow hematopoietic cells and reduces bone mineral density in growing rats. Journal of Orthopaedic Research.2011; 29(6): 954-960.

Miyagawa A, Chiba M, Hayashi H, and Igarashi K. Compressive force induces VEGF production in periodontal tissues. Journal of Dental Research. 2009; 88 (8): 752-756.

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

Niklas A, Proff P, Gosau M., and Römer P. The Role of Hypoxia in Orthodontic Tooth Movement, International Journal of Dentistry. 2013; Article ID 841840: 7 pages.

Panggabean E. Buku pintar kopi . Jakarta: Agromedia Pustaka. 2011.h 5,124

Reis AS, Riberio LGR, Ocarino NM, Goes AlM, and Serakides R,. Osteogenic potential of osteoblasts from neonatal rats born to mothers treated with caffeine throughout pregnancy. BMD Musculoskeletal Disorder. 2015; 16: 10.

SchipaniE, MaesC, Carmeliet G, and SemenzaGL. Regulation of Osteogenesis-Angiogenesis Coupling by HIFs and VEGF. J Bone Miner Res. 2009; 24(8): 1347-1353.

Shenava Shailesh, Nayak Krishna US, Bhaskar Vivek, Nayak Arjun. Accelerated Orthodontics-A Review. Internat J Scien Study.2014;1(5): 35-39.

Sella RC, de Mendonça MR., Osmar Aparecido Cuoghi OA, Li AnT. Histomorphic Evaulation of Periodontal Compresion and Tensien sides During Orthodontic Tooth Movement in Rats. J Orthod. 2012; 17(3): 108-17.

Sprogar S, Vaupotic T, Cör A, Drevenšek M, and Drevenšek G. The endothelin system mediates bone modeling in the late stage of orthodontic tooth movement in rats. Bone. 2008; 43(4): 740-747.

Zia A, S Khan, A Bey, ND Gupta, S Mukhtar-Un-Nisar. Oral biomarkers in the diagnosis and progression of periodontal diseases. Biology and Medicine. 2011; 3(2) Spesial Issue: 45-52.

Yashin A, Yashin Y, Wang JY, and Nemzer Bs. Antio- xidant and Antiradical Activity of Coffee, Antioxidants.2013;2: 230- 45.

Yamaguchi M. RANK/ RANKL/OPG During Orthodontic Tooth Movement. Orthod Craniofal Res. 2009; 12: 113-119.



DOI: https://doi.org/10.22146/teknosains.22992

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