Korelasi Pergerakan Gigi Dengan Perubahan Kadar TGF-β2 Pada Pemakaian Elastomer Separator Ortodonti
68
DAFTAR PUSTAKA
1. Juhasz-Böss, Fehm T, Ney JT, Solomayer EF., 2012. Pathophysiology of bone
remodelling and current therapeutic approach. GebFra Science; 72: 502–506
2. Phan TCA, Xu J, Zheng M., 2004. Interaction between osteoblast and osteoclast:
impact in bone disease. Histol Histopathol;19:1325-1344
3. Blobe GC, Schiemann WP, Lodish HF., 2000. Role of transforming growth factor
β in human disease. NEJM;342(18):1350-1358
4. Gastel van J, Teughels W, Quirynen M, Struyf S, Damme van J, Coucke W, dkk.,
2011. Longitudinal changes in gingival crevicular fluid after placement of fixed
orthodontic appliances. Am J Orthod Dentofacial Orthop;139:735-44
5. Hadi L, 2009. Perbandingan perubahan level interleukin-1β di dalam gingival
crevicular fluid pada sisi tekanan dan tarikan pada awal pergerakan gigi secara
ortodonti. Tesis Medan : Universitas Sumatera Utara
6. Djaja F., 2009. Kadar matriks metaloproteinase-8 cairan celah gusi kaninus
selama pergerakan ortodontik. Tesis Jakarta: Universitas Trisakti:1-3,30-31.
7. Kaya FA, Hamaci N, Basaran G, Dogru M, Yildirim TT., 2010. TNF-α, IL-1β
and IL-8 levels in tooth early levelling movement in orthodontic treatment. J Int
Dent Med Res; 3:(3):116-121
8. Soesilowati, 2011. Dinamika ekspresi gen matriks metaloproteinase-8 dan tissue
inhibitor of metaoproteinase-1 dalam cairan krevikuler gingiva dari pasien yang
dirawat dengan piranti ortodontik lepasan dan cekat. Disertasi
Makassar:Universitas Hasanuddin.
9. Junior JC, Kantarci A, Haffajee A, Teles RP, Fidel R., 2011. Matrix
metalloproteinases and chemokines in the gingival crevicular fluid during
orthodontic tooth movement. Eur J Orthod
10. Von Bőhl M, Maltha JC, Von Den Hoff JW, Kujipers-Jagtman AM. 2004. Focal
hyalinization during experimental tooth movement in beagle dog. Am J Orthod
Dentofacial Orthop;125:615-23
Universitas Sumatera Utara
69
11. Malagan MA, Biswas PP, Muddaiah S, Reddy R, Shetty BK, Preetham J., dkk.
2014. Comparison between efficacy of four different types of orthodontic
separators. JOCDR; 8(8):41-4
12. Davidovitch M, Papanicolau S, Vardimin AD, Brosh T. 2008. Duration of
elastomeric separation and effect on interproximal contact point characteristics.
Am J Orthod Dentofacial Orthop; 133: 414-22
13. Mizrahi E. Ed. Orthodontic Pearls A selection of practical tips and clinical
expertise. London: Taylor & Francis Group, 2004:75
14. Dudic A, Kiliardis S, Mombelli A, Giannapoulou C. 2006. Composition changes
in gingival crevicular fluid during orthodontic tooth movement : comparisons
between tension and compression sides. Eur J Oral Sci; 114: 416-22
15. Barbieri G, Solano P, Alarcón JA, Vernal R, Rios-Lugo J, Sanz M, dkk., 2013.
Biochemical markers of bone metabolism in gingival crevicular fluid during early
orthodontic tooth movement. Angle orthod;83(1):63-69
16. Uematsu S, Mogi M, Deguchi T. 1996. Increase of Transforming growth factorβ1 in gingival crevicular fluid during human orthodontic tooth movement. Arch
Oral Biol;41:1091-95
17. Grant M, Wilson J, Rock P, Chapple I. 2012. Induction of cytokines, MMP9,
TIMPs, RANKL, and OPG during orthodontic tooth movement. Eur J Orthod. 1-9
18. Ehnert S, Baur J, Schmitt A, Neumaier M, Lucke M, Dooley S, dkk., 2010. TGFβ1 as possible link between loss of bone mineral density and chronic
inflammation. Journal pone;5(11):1-9
19. Adianti, 2014. Perbandingan kadar TGF-β2 cairan sulkus gingiva saat retraksi
kaninus pada kelompok usia 10-15 dan 30-35 tahun. Tesis Medan : Universitas
Sumatera Utara.
20. Erlebacher A, Filvaroff EH, Jian-Qin Y, Derynck R., 1989. Osteoblastic response
to TGF-β during bone remodeling. Mol Biol Cel;9:1903-1918
21. Dong XN, Yeni YN, Zhang B, Gibson G, Fyhrie DP., 2003. Bone mass, strength,
and stiffness are reduced in human tibial cancellous bone tissue with high TGF-β2
content. Summer bioengineering conference
Universitas Sumatera Utara
70
22. Hill PA., 1998. Bone remodeling. Br J Orthod;25:101-107
23. Proffit WR., 2007. Contemporary Orthodontics. 4th ed. St. Louis:Mosby Inc, 296304
24. Huang JC, King G, Kapila S., 2005. Biologic mechanism in orthodontic tooth
movement. In: Nanda R Ed. Biomechanics and esthetic strategies in clinical
orthodontics. St. Louis: Elsevier saunders:17-19
25. Henneman S, Von den Hoff JW, Maltha JC. 2008. Mechanobiology of tooth
movement. Eur J Orthod; 30: 299-306
26. Nanda R. 2005. Biomechanical and esthetics strategies in clinical orthodontics.
St. Louis:Elseviers Saunders; 17-37.
27. Chen G, Deng C, Li Y. 2012. TGF-β and BMP signaling in osteoblast
differentiation and bone formation. Int J Biol Sci; 8(2):272-288
28. Varble ZL., 2009. The effect of growth hormon on tooth movement in rats. Thesis
St.Louis. Saint Louis University:93
29. Khrisnan V, Davidovitch Z., 2006. Cellular, mollecular, and tissue-level reaction
to orthodontic force. Am J Orthod Dentofacial Orthop;129:469e.1-460e.32
30. Verna C, Dalstra M, Melsen B. 2000. The rate and type of orthodontic tooth
movement is influenced by bone turnover in a rat model. Eur J Orthod; 2000:343352
31. Ren Y. 2003. Age effect on orthodontic tooth movement in rats. J Dent Res;
82:38-42.
32. Dudic A, Giannopoulou C, Kiliardis S., 2013. Factors related to the rate of
orthodontically induced tooth movement. Am J Orthod Dentofacial
Orthop;143:616-21
33. Ren Y. 2003. Age effect on orthodontic tooth movement. Thesis Nijmegen :
Katholieke Universiteit Nijmegen
34. Mitchell L. 2007. An introduction to orthodontics. 3rd ed. Oxford: Oxford
University Press, 193-4
Universitas Sumatera Utara
71
35. Singh G. Ed. Textbook of orthodontics. 2nd ed. New Delhi:Jaypee Brothers
Medical Publisher Ltd., 216-220
36. Sera R. 2002. Transforming growth factor β (TGF-β). www.els.net. 12 Desember
2012.
37. Al-salihi MA, Herhaus L, Sapkota GP. Regulation of the transforming growth
factor β pathway by reversible ubiquitylation. rsob.royalsocietypublishing.org. 15
oktober 2012.
38. Quinn JMW, Itoh K, Udagawa N, Hausler K, Yusada H, Shima N, dkk., 2001.
Transforming Growth Factor β affects osteoclast differentiation via direct and
indirect actions. J Bone Miner Res;16:1787-1794
39. Tang Y, Wu X, Lei W, Pang L, Wan C, Shi Z, dkk., 2009. TGF-β1-induced
migration of bone mesenchymal stem cells couples bone resorption and
formation. Nat Med;15(7):757-765
40. Li JY, Hu B, Wang XJ, Wang SL., 2008. Temporal and spatial expression of
TGF-β 2 in tooth crown development in mouse first lower molar. Eur J
Histochem;52(4):243-250
41. Buss A, Pech K, Kakulas BA, Martin D, Schienen J, Noth J, Brook GA., 2008.
TGF-β 1 and TGF-β2 expression after traumatic human spinal cord injury. Spinal
cord;46:364-371
42. Kapetanakis S, Drygiannakis I, Kazakos K, Papanas N, Kolios G, Kouroumalis E,
dkk., 2010. Serum TGF-β2 and TGF-β3 are increased and positively correlated to
pain, functionality, and radiographic staging in osteoarthritis. Orthopedics;33(8)
43. Erlebacher A, Derynck R., 1996. Increased expression of TGF-β 2 in osteoblast
result in an osteoporosis-like phenotype. J Cell Biol; 132:195-210
44. Filvaroff EH, Erlebacher A, Jian-Qin Y, Gitelman SE, Lotz J, Heillman M, dkk.,
1999. Inhibition of TGFβ receptor signaling in osteoblast leads to decrease bone
remodeling and increased trabecular bone mass. Development;126:4267-4279
45. Nishimura R., 2009. A novel role for TGF-β1 in bone remodeling. IBMS
BoneKey;6(11):434-438
Universitas Sumatera Utara
72
46. Kanaan RA, Kanaan LA., 2006. Transforming growth factor β 1, bone connection.
Med Sci Monit; 12(8): RA164-169
47. Crowther JR., 2001. The ELISA Guidebook. Vol 149., Humana Press Inc: New
Jersey:1-83
48. Avdagic SC, Baric IC, Keser I, Cecic I, Satalic Z, Bobic J, dkk., 2009.
Differences in peak bone density between male and female students. Arh Hig
Rada Toksikol;60:79-86.
49. Nieves JW, Formica C, Ruffing J, Zion M, Garret P, Lindsay R, dkk., 2005.
Males have larger skeletal size and bone mass than females, despite comparable
body size. J Bone Miner Res;20(3): 529-35
50. Chisari JR. 2012. Variable affecting orthodontic tooth movement. Thesis Florida:
University of Florida
51. Setiawan VR. 2015. Hubungan perubahan kadar TGF-β1 dengan besar ruangan
pada pemasangan separator ortodonti. Tesis Medan: Universitas Sumatera Utara
52. Hoffmann WE. 1972. A study of four type of separators. Am J Orthod
Dentofacial Orthop;62:67-73
53. Patil AK, Keluskar KM, Gaitonde SD. 2005. A clinical application of
Prostaglandin E1 on orthodontic tooth movement – A clinical trial. J Ind Orthod
Soc;38:91-98
54. Nimeri C, Kau CH, Abou-Kheir NS, Corona R. 2013. Acceleration of tooth
movement during orthodontic treatment-a frontier in orthodontics. Progress in
Orthodontics;14:42
Universitas Sumatera Utara
DAFTAR PUSTAKA
1. Juhasz-Böss, Fehm T, Ney JT, Solomayer EF., 2012. Pathophysiology of bone
remodelling and current therapeutic approach. GebFra Science; 72: 502–506
2. Phan TCA, Xu J, Zheng M., 2004. Interaction between osteoblast and osteoclast:
impact in bone disease. Histol Histopathol;19:1325-1344
3. Blobe GC, Schiemann WP, Lodish HF., 2000. Role of transforming growth factor
β in human disease. NEJM;342(18):1350-1358
4. Gastel van J, Teughels W, Quirynen M, Struyf S, Damme van J, Coucke W, dkk.,
2011. Longitudinal changes in gingival crevicular fluid after placement of fixed
orthodontic appliances. Am J Orthod Dentofacial Orthop;139:735-44
5. Hadi L, 2009. Perbandingan perubahan level interleukin-1β di dalam gingival
crevicular fluid pada sisi tekanan dan tarikan pada awal pergerakan gigi secara
ortodonti. Tesis Medan : Universitas Sumatera Utara
6. Djaja F., 2009. Kadar matriks metaloproteinase-8 cairan celah gusi kaninus
selama pergerakan ortodontik. Tesis Jakarta: Universitas Trisakti:1-3,30-31.
7. Kaya FA, Hamaci N, Basaran G, Dogru M, Yildirim TT., 2010. TNF-α, IL-1β
and IL-8 levels in tooth early levelling movement in orthodontic treatment. J Int
Dent Med Res; 3:(3):116-121
8. Soesilowati, 2011. Dinamika ekspresi gen matriks metaloproteinase-8 dan tissue
inhibitor of metaoproteinase-1 dalam cairan krevikuler gingiva dari pasien yang
dirawat dengan piranti ortodontik lepasan dan cekat. Disertasi
Makassar:Universitas Hasanuddin.
9. Junior JC, Kantarci A, Haffajee A, Teles RP, Fidel R., 2011. Matrix
metalloproteinases and chemokines in the gingival crevicular fluid during
orthodontic tooth movement. Eur J Orthod
10. Von Bőhl M, Maltha JC, Von Den Hoff JW, Kujipers-Jagtman AM. 2004. Focal
hyalinization during experimental tooth movement in beagle dog. Am J Orthod
Dentofacial Orthop;125:615-23
Universitas Sumatera Utara
69
11. Malagan MA, Biswas PP, Muddaiah S, Reddy R, Shetty BK, Preetham J., dkk.
2014. Comparison between efficacy of four different types of orthodontic
separators. JOCDR; 8(8):41-4
12. Davidovitch M, Papanicolau S, Vardimin AD, Brosh T. 2008. Duration of
elastomeric separation and effect on interproximal contact point characteristics.
Am J Orthod Dentofacial Orthop; 133: 414-22
13. Mizrahi E. Ed. Orthodontic Pearls A selection of practical tips and clinical
expertise. London: Taylor & Francis Group, 2004:75
14. Dudic A, Kiliardis S, Mombelli A, Giannapoulou C. 2006. Composition changes
in gingival crevicular fluid during orthodontic tooth movement : comparisons
between tension and compression sides. Eur J Oral Sci; 114: 416-22
15. Barbieri G, Solano P, Alarcón JA, Vernal R, Rios-Lugo J, Sanz M, dkk., 2013.
Biochemical markers of bone metabolism in gingival crevicular fluid during early
orthodontic tooth movement. Angle orthod;83(1):63-69
16. Uematsu S, Mogi M, Deguchi T. 1996. Increase of Transforming growth factorβ1 in gingival crevicular fluid during human orthodontic tooth movement. Arch
Oral Biol;41:1091-95
17. Grant M, Wilson J, Rock P, Chapple I. 2012. Induction of cytokines, MMP9,
TIMPs, RANKL, and OPG during orthodontic tooth movement. Eur J Orthod. 1-9
18. Ehnert S, Baur J, Schmitt A, Neumaier M, Lucke M, Dooley S, dkk., 2010. TGFβ1 as possible link between loss of bone mineral density and chronic
inflammation. Journal pone;5(11):1-9
19. Adianti, 2014. Perbandingan kadar TGF-β2 cairan sulkus gingiva saat retraksi
kaninus pada kelompok usia 10-15 dan 30-35 tahun. Tesis Medan : Universitas
Sumatera Utara.
20. Erlebacher A, Filvaroff EH, Jian-Qin Y, Derynck R., 1989. Osteoblastic response
to TGF-β during bone remodeling. Mol Biol Cel;9:1903-1918
21. Dong XN, Yeni YN, Zhang B, Gibson G, Fyhrie DP., 2003. Bone mass, strength,
and stiffness are reduced in human tibial cancellous bone tissue with high TGF-β2
content. Summer bioengineering conference
Universitas Sumatera Utara
70
22. Hill PA., 1998. Bone remodeling. Br J Orthod;25:101-107
23. Proffit WR., 2007. Contemporary Orthodontics. 4th ed. St. Louis:Mosby Inc, 296304
24. Huang JC, King G, Kapila S., 2005. Biologic mechanism in orthodontic tooth
movement. In: Nanda R Ed. Biomechanics and esthetic strategies in clinical
orthodontics. St. Louis: Elsevier saunders:17-19
25. Henneman S, Von den Hoff JW, Maltha JC. 2008. Mechanobiology of tooth
movement. Eur J Orthod; 30: 299-306
26. Nanda R. 2005. Biomechanical and esthetics strategies in clinical orthodontics.
St. Louis:Elseviers Saunders; 17-37.
27. Chen G, Deng C, Li Y. 2012. TGF-β and BMP signaling in osteoblast
differentiation and bone formation. Int J Biol Sci; 8(2):272-288
28. Varble ZL., 2009. The effect of growth hormon on tooth movement in rats. Thesis
St.Louis. Saint Louis University:93
29. Khrisnan V, Davidovitch Z., 2006. Cellular, mollecular, and tissue-level reaction
to orthodontic force. Am J Orthod Dentofacial Orthop;129:469e.1-460e.32
30. Verna C, Dalstra M, Melsen B. 2000. The rate and type of orthodontic tooth
movement is influenced by bone turnover in a rat model. Eur J Orthod; 2000:343352
31. Ren Y. 2003. Age effect on orthodontic tooth movement in rats. J Dent Res;
82:38-42.
32. Dudic A, Giannopoulou C, Kiliardis S., 2013. Factors related to the rate of
orthodontically induced tooth movement. Am J Orthod Dentofacial
Orthop;143:616-21
33. Ren Y. 2003. Age effect on orthodontic tooth movement. Thesis Nijmegen :
Katholieke Universiteit Nijmegen
34. Mitchell L. 2007. An introduction to orthodontics. 3rd ed. Oxford: Oxford
University Press, 193-4
Universitas Sumatera Utara
71
35. Singh G. Ed. Textbook of orthodontics. 2nd ed. New Delhi:Jaypee Brothers
Medical Publisher Ltd., 216-220
36. Sera R. 2002. Transforming growth factor β (TGF-β). www.els.net. 12 Desember
2012.
37. Al-salihi MA, Herhaus L, Sapkota GP. Regulation of the transforming growth
factor β pathway by reversible ubiquitylation. rsob.royalsocietypublishing.org. 15
oktober 2012.
38. Quinn JMW, Itoh K, Udagawa N, Hausler K, Yusada H, Shima N, dkk., 2001.
Transforming Growth Factor β affects osteoclast differentiation via direct and
indirect actions. J Bone Miner Res;16:1787-1794
39. Tang Y, Wu X, Lei W, Pang L, Wan C, Shi Z, dkk., 2009. TGF-β1-induced
migration of bone mesenchymal stem cells couples bone resorption and
formation. Nat Med;15(7):757-765
40. Li JY, Hu B, Wang XJ, Wang SL., 2008. Temporal and spatial expression of
TGF-β 2 in tooth crown development in mouse first lower molar. Eur J
Histochem;52(4):243-250
41. Buss A, Pech K, Kakulas BA, Martin D, Schienen J, Noth J, Brook GA., 2008.
TGF-β 1 and TGF-β2 expression after traumatic human spinal cord injury. Spinal
cord;46:364-371
42. Kapetanakis S, Drygiannakis I, Kazakos K, Papanas N, Kolios G, Kouroumalis E,
dkk., 2010. Serum TGF-β2 and TGF-β3 are increased and positively correlated to
pain, functionality, and radiographic staging in osteoarthritis. Orthopedics;33(8)
43. Erlebacher A, Derynck R., 1996. Increased expression of TGF-β 2 in osteoblast
result in an osteoporosis-like phenotype. J Cell Biol; 132:195-210
44. Filvaroff EH, Erlebacher A, Jian-Qin Y, Gitelman SE, Lotz J, Heillman M, dkk.,
1999. Inhibition of TGFβ receptor signaling in osteoblast leads to decrease bone
remodeling and increased trabecular bone mass. Development;126:4267-4279
45. Nishimura R., 2009. A novel role for TGF-β1 in bone remodeling. IBMS
BoneKey;6(11):434-438
Universitas Sumatera Utara
72
46. Kanaan RA, Kanaan LA., 2006. Transforming growth factor β 1, bone connection.
Med Sci Monit; 12(8): RA164-169
47. Crowther JR., 2001. The ELISA Guidebook. Vol 149., Humana Press Inc: New
Jersey:1-83
48. Avdagic SC, Baric IC, Keser I, Cecic I, Satalic Z, Bobic J, dkk., 2009.
Differences in peak bone density between male and female students. Arh Hig
Rada Toksikol;60:79-86.
49. Nieves JW, Formica C, Ruffing J, Zion M, Garret P, Lindsay R, dkk., 2005.
Males have larger skeletal size and bone mass than females, despite comparable
body size. J Bone Miner Res;20(3): 529-35
50. Chisari JR. 2012. Variable affecting orthodontic tooth movement. Thesis Florida:
University of Florida
51. Setiawan VR. 2015. Hubungan perubahan kadar TGF-β1 dengan besar ruangan
pada pemasangan separator ortodonti. Tesis Medan: Universitas Sumatera Utara
52. Hoffmann WE. 1972. A study of four type of separators. Am J Orthod
Dentofacial Orthop;62:67-73
53. Patil AK, Keluskar KM, Gaitonde SD. 2005. A clinical application of
Prostaglandin E1 on orthodontic tooth movement – A clinical trial. J Ind Orthod
Soc;38:91-98
54. Nimeri C, Kau CH, Abou-Kheir NS, Corona R. 2013. Acceleration of tooth
movement during orthodontic treatment-a frontier in orthodontics. Progress in
Orthodontics;14:42
Universitas Sumatera Utara