Sodium hypochlorite應用於人類乳臼齒冠髓切除術之臨床研究

Shih-Yi Lee; 李士儀

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/61901

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	張曉華
dc.contributor.author	Shih-Yi Lee	en
dc.contributor.author	李士儀	zh_TW
dc.date.accessioned	2021-06-16T13:17:54Z	-
dc.date.available	2013-09-24
dc.date.copyright	2013-09-24
dc.date.issued	2013
dc.date.submitted	2013-07-27
dc.identifier.citation	Anderman II. Indications for use of electrosurgery in pedodontics. Dental Clinics of North America 1982; 26 : 711–728. Ansari G, Ranjpour M. Mineral trioxide aggregate and formocresol pulpotomy of primary teeth: a 2-year follow-up. Int Endod J. 2010; 43(5): 413-8. Arias-Moliz MT, Ferrer-Luque CM, Espigares-Garcia M, Baca P. Enterococcus faecalis biofilms eradication by root canal irrigants. J Endod 2009;35:711-5. Asgary S, Parirokh M, Eghbal MJ, Brink F. Chemical Differences Between White and Gray Mineral Trioxide Aggregate. Journal of Endodontics 2005; 31(2):101-103. Austin JH, Taylor HD. Behavior of hypochlorite solution in contact with necrotic and normal tissues in vivo. J Exp Med 1918;27;624-641 Bal C, Alacam A, Tuzuner T, Tirali RE, Baris E. Effects of Antiseptics on Pulpal Healing under Calcium Hydroxide Pulp Capping: A Pilot Study. Eur J Dent. 2011 Jul;5(3):265-72. Bystrom A, Sundqvist G. Bacteriologic evaluation of the effectmof 0.5 percent sodium hypochlorite in endodontic therapy. Oral Surg Oral Med Oral Pathol 1983;55:307-12. Bystrom A, Sundqvist G. The antibacterial action of sodium hypochlorite and EDTA in 60 cases of endodontic therapy. Int Endod J 1985;18:35– 40. Chueh LH, Ho YC, Kuo TC, Lai WH, Chen YH, Chiang CP. Regenerative endodontic treatment for necrotic immature permanent teeth. J Endod. 2009; 35(2):160-4. Chueh LH, Huang GT. Immature teeth with periradicular periodontitis or abscess undergoing apexogenesis: a paradigm shift. J Endod. 2006; 32(12):1205-13. Cotes O, Boj JR, Canalda C, Carreras M (1997). Pulpal tissue reaction to formocresol vs. ferric sulfate in pulpotomized rat teeth. J Clin Pediatr Dent 21(3):247-53. Cotes O, Boj JR, Canalda C, Carreras M. Pulpal tissue reaction to formocresol vs. ferric sulfate in pulpotomized rat teeth. J Clin Pediatr Dent 1997; 21: 247–253. Crane AB. A predictable root canal technique. Philadelphia: Lea & Febiger, 1920. Dakin HD. On the use of certain antiseptic substances in treatment of infected wounds. BMJ 1915;2:318 –20. Dang J, Wilder-Smith P, Peavy GM. Clinical precondition and treatment modality: effects on pulp surgery outcomes. Lasers in Surgery and Medicine 1998; 22: 25–29. De Coster P, Rajasekharan S, Martens L. Laser-assisted pulpotomy in primary teeth: a systematic review. Int J Paediatr Dent. 2012 Nov 22. doi: 10.1111/ipd.12014. Dunavant TR, Regan JD, Glickman GN, Solomon ES, Honeyman AL.Comparative evaluation of endodontic irrigants against Enterococcus faecalis biofilms. J Endod. 2006 Jun;32(6):527-31. Eidelman E, Holan G, Fuks AB. Mineral trioxide aggregate vs. formocresol in pulpotomized primary molars: a preliminary report. Pediatr Dent 2001; 23(1):15-8. Eidelman E, Holan G, Fuks AB. Mineral trioxide aggregate vs. formocresol in pulpotomized primary molars: a preliminary report. Pediatr Dent. 2001 ;23(1):15-8. Erdem AP, Guven Y, Balli B et al. Success rates of mineral trioxide aggregate, ferric sulfate, and formocresol pulpotomies: a 24-month study. Pediatr Dent 2011; 33: 165–170. Estrela C, Bammann LL, Estrela CR, Silva RS, Pe′cora JD. Antimicrobial and chemical study of MTA, Portland cement, calcium hydroxide paste, Sealapex and Dycal. Braz Dent J 2000;11:3–9. Farsi N, Alamoudi N, Balto K, Mushayt A. Success of mineral trioxide aggregate in pulpotomized primary molars. Journal of Clinical Pediatric Dentistry. 2005; 29(4):307-311. Fei AL, Udin RD, Johnson R. A clinical study of ferric sulfate as a pulpotomy agent in primary teeth. Pediatric Dentistry 1991;13(6):327-332. Fernandez CC, Martinez SS, Jimeno FG, Lorente Rodriguez AI, Mercade M. Clinical and radiographic outcomes of the use of four dressing materials in pulpotomized primary molars: a randomized clinical trial with 2-year follow-up. Int J Paediatr Dent. 2012 Nov 21. doi: 10.1111/ipd.12009. Foley J, Evans D, Blackwell A. Partial caries removal and cariostatic materials in carious primary molar teeth: A randomized controlled clinical trail. Br Dent J 2004;197(11):697-701. Fuks AB, Bimstein E, Bruchim A. Radiographic and histologic evaluation of the effect of two concentrations of formocresol on pulpotomized primary and young permanent teeth in monkeys. Pediatr Dent 1983;5:9-13. Fuks AB, Bimstein E, Kelin H. Assessment of a 2 percent buffered glutaraldehyde solution in pulpotomized primary teeth of school children: a preliminary report. Journal of Pedodontics 1986; 10 : 323–330. Fuks AB, Bimstein E. Clinical evaluation of diluted formocresol pulpotomies in primary teeth of school children. Pediatr Dent 1981, 3(4):321-4. Fuks AB, Eidelman E, Cleaton-Jones P, Michaeli Y. Pulp response to ferric sulfate, diluted formocresol and IRM in pulpotomized primary baboon teeth. ASDC J Dent Child 1997;64(4):254-9. Fuks AB, Papagiannoulis L. Pulpotomy in primary teeth: review of the literature according to standardized criteria. Eur Arch Paediatr Dent. 2006 Jun;7(2):64-71; discussion 72. Fuks AB. Ferrie sulfate versus dilute formocresol in pulpotomized primary molars: Long-term follow up. Pediatric Dentistry 1997; 19(5):327-330. Fuks AB. Vital Pulp Therapy with New Materials for Primary Teeth: New Directions and Treatment Perspectives. Pediatr Dent 2008;30:211-9. Garcia-Godoy F. A 42 month evaluation of glutaraldehyde pulpotomies in primary teeth. Journal of Pedodontics 1986; 10 : 148–155. Gonzalez C, Zakariasen KL, Dederich DN, Pruhs RJ. Potential preventive and therapeutic hard tissue applications of CO2 laser, Nd:YAG laser and argon lasers in dentistry: a review. J Dent Child 1996;63:196 –206 Grey, G.C. The capabilities of sodium hypochlorite to digest organic debris from root canals with emphasis on accessory canals, thesis. Boston University, 1970. Grossman LI, Meiman BW. Solution of pulp tissue hy chemical agents. J Am Dent Assoc 1941;28:223-237 Guelmann M, Fair J, Bimstein E. Permanent versus temporary restorations after emergency pulpotomies in primary molars. Pediatr Dent. 2005;27(6):478-81. Guelmann M, McIlwain MF, Primosch RE. Radiographic assessment of primary molar pulpotomies restored with resin-based materials. Pediatr Dent. 2005;27(1):24-7. Guideline on pulp therapy for primary and young permanent teeth. American Academy on Pediatric Dentistry Clinical Affairs Committee-Pulp Therapy subcommittee. Hafez AA, Cox CF, Otsuki M, Akimoto N. An in vivo evaluation of hemorrhage control using sodium hypochlorite and direct capping with a one or two component adhesive system in exposed nonhuman primate pulps. Quintessence Int 2002; 33:261-72. Hafez AA, Kopel HM, Cox CF. Pulpotomy reconsidered: Application of an adhesive system to pulpotomized permanent primate pulps. Quintessence Int 2000;31:579-89. Haghgoo R, Abbasi F. A histopathological comparison of pulpotomy with sodium hypochlorite and formocresol. Iran Endod J. 2012;7(2):60-2. Hahn C. -L., Falkler W , Minah G. Microbiological studies of carious dentine from human teeth with irreversible pulpitis. Arch Oral Biol 1991 ; 36: 147 -53. Harokopakis-Hajishengallis E. Physiologic root resorption in primary teeth: molecular and histological events. J Oral Sci. 2007 Mar;49(1):1-12. Heilig J, Yates J, Siskin M, McKnight J, Turner J. Calcium hydroxide pulpotomy for primary teeth: a clinical study. Journal of the American Dental Association 1984; 108: 775–778. Hicks MJ, Barr ES, Flaitz C. Formocresol pulpotomies in primary molars: A radiographic study in a pediatric dentistry practice. J Pedod 1986;10:331-6 Higashi T, Okamoto H. Influence of particle size of calcium phosphate ceramics as a capping agent on the formation of a hard tissue barrier in amputated dental pulp. Journal of Endodontics 1996; 22: 281–283. Hobson P. Pulp treatment of deciduous teeth. Part 2. Cli-nical investigation. Br Dent J 1970;128:275-83. Holan G, Eidelman E, Fuks AB. Long-term Evaluation of Pulpotomy in Primary Molars Using Mineral Trioxide Aggregate or Formocresol. Pediatric Dentistry 2005; 27:129-136. Huth K, Paschos E, Hajek-Al-Khatar N et al. Effectiveness of 4 pulpotomy techniques—randomized controlled trials. J Dent Res 2005; 84(12): 1144–1148. Ibricevic H, Al-Jame Q. Ferric sulphate and formocresol in pulpotomy of primary molars: long term follow-up study. Eur J Paediatr Dent2003; 4(1):28-32. Jeng H, Feigal RJ, Messer HH. Comparison of the cytotoxicity of formocresol, formaldehyde, cresol, and glutaraldehyde using human pulp fibroblast cultures. Pediatric Dentistry 1987; 9 : 295–300. Jukic S, Anic I, Koba K, Najzar-Fleger D, Matsumoto K. The effect of pulpotomy using CO2 and Nd:YAG lasers on dental pulp tissue. International Endodontic Journal 1997; 30: 175–180. Keiser K, Chad Johnson C, Tipton DA . Cytotoxicity of mineral trioxide aggregate using human periodontal ligament fibroblasts. Journal of Endodontics. 2000; 26(5):288-291. Klinge RF. Further observations on tertiary dentin in human deciduous teeth. Adv Dent Res. 2001 ;15:76-9. Kurji ZA, Sigal MJ, Andrews P, Titley K. A retrospective study of a modified 1-minute formocresol pulpotomy technique part 1: clinical and radiographic findings. Pediatr Dent. 2011 ;33(2):131-8. Landau MJ, Johnsen DC. Pulpal responses to ferric sulfate in monkeys. Journal of Dental Research 1998; 16(7):215. Lemon RR, Steele PJ, Jeansonne BG. Ferric sulfate hemostasis: effect on osseous wound healing. Left in situ for maximum exposure. J Endod 1993; 19(4):170-3. Loevy HT, Crawford JG. Effect of pulpotomies on eruption of succedaneous premolars. Quintessence Int 1991; 22:795-800. Loos PJ, Han SS. An enzyme histochemical study of the effect of various concentrations of formocresol on connective tissues. Oral Surgery, Oral Medicine, Oral Pathology 1971, 31(4):571-585. Loos PJ, Straffon LH, Han SS. Biological effects of formocresol. ASDC J Dent Child 1973, 40(3):193-7. Mack RB, Dean JA. Electrosurgical pulpotomy; a retrospective human study. Journal of Dentistry for Children 1993; 60 : 107–114. Markovic D, Zivojinovic V, Vucetic M. Evaluation of three pulpotomy medicaments in primary teeth. Eur J Paediatr Dent. 2005 Sep;6(3):133-8. Martin FE . , Nodkarni MA., jacques NA.. Hunter N. Quantitative microbiological study of human carious dertine by culture and real-time PCR: association of anaerobes with histopathological changes in chronic pulpitis. J Clin Microbiol 2002; 40: 1698- 1704. Martinho FC, Gomes BP. Quantification of Endotoxins and Cultivable Bacteria in Root Canal Infection before and after Chemomechanical Preparation with 2.5% Sodium Hypochlorite. J Endod 2008;34:268 –272 McDonald and Avery’s Dentistry for the child and adolescent. 9th ed, 2011, p352-3 Milnes AR. Persuasive evidence that formocresol use in pediatric dentistry is safe. J Can Den Assoc 2006;72:247–8. Morawa AP, Straffon LH, Han SS, Corpron RE. Clinical evaluation of pulpotomies using dilute formocresol. ASDC J Dent Child 1975, 42(5):360-3. Morawa AP, Straffon LH, Han SS, Corpron RE. Clinical evaluation of pulpotomies using diluted formocresol. J Dent Child 1975;42:360-3. Moretti ABS, Sakai VT, Oliveira TM, Fornetti APC, Santos CF, Machado MAAM, et al. The effectiveness of mineral trioxide aggregate, calcium hydroxide and formocresol for pulpotomies in primary teeth: Blackwell Publishing Ltd 2008, pp. 547-555. Moritz A, Schoop U, Goharkhay K, Sperr W. The CO2 laser as an aid in direct pulp capping. J Endod 1998b; 24: 248–251. Moritz A, Schoop U, Goharkhay K, Sperr W. The CO2 laser as an aid in direct pulp capping. J Endod 1998b; 24: 248–251. Nakashima M. Induction of dentin formation on canine amputated pulp by recombinant human bone morphogenetic proteins (BMP)-2 and -4. Journal of Dental Research 1994; 73(9):1515-1522. Oliveira EF, Carminatti G, Fontanella V, Maltz M. The monitoring of deep caries lesions after incomplete dentin caries removal: Results after 14-18 months. Clin Oral Investig 2006;10(2):134-9. Ozata F, Piskin B, Erdilek N, Aktener O, Tuncer AV. Comparison of calcium hydroxide and formocresol pulpotomies in primary teeth in lambs: preliminary study. Journal of Endodontics 1987; 13: 328–335. Papagiannoulis L. Clinical studies on ferric sulphate as a pulpotomy medicament in primary teeth.. Eur J Paediatr Dent. 2002 Sep;3(3):126-32. Papagiannoulis L. Clinical studies on ferric sulphate as a pulpotomy medicament in primary teeth. Eur J Paediatr Dent. 2002 ;3(3):126-32. Peng L, Ye L, Tan H, Zhou X. Evaluation of the formocresol versus mineral trioxide aggregate primary molar pulpotomy: a meta-analysis. Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology 2006; 102(6):e40-e44. Phaneuf RA, Frankl SN, Ruben MP. A comparative histological evaluation of three calcium hydroxide preparations on the human primary dental pulp. J Dent Child 1968; 35(1):61-76. Primosch RE, Glomb TA, Jerrell RG. Primary tooth pulp therapy as taught in predoctoral pediatric dental programs in the United States. Pediatr Dent. 1997 Mar-Apr;19(2):118-22. Pruhs RJ, Olen GA, Sharma PS. Relationship between formocresol pulpotomies on primary teeth and enamel defects on their permanent successors. J Am Dent Assoc. 1977 Apr;94(4):698-700. Ranly DM, Horn D, Hubbard GB. Assessment of the systemic distribution and toxicity of glutaraldehyde as a pulpotomy agent. Pediatric Dentistry 1989; 11 : 8–13 Ranly DM, Lazzari EP. A biochemical study of two bifunctional reagents as alternatives to formocresol. Journal of Dental Research 1983; 62 : 1054 1057 Ranly DM. Pulpotomy therapy in primary teeth: new modalities for old rationales. Paediatric Dentistry 1994; 18: 403–409. Rivera N, Reyes E, Mazzaoui S, Moron A. Pulpal therapy for primary teeth: formocresol vs electrosurgery: a clinical study. J Dent Child (Chic). 2003; 70(1):71-3. Rocas IN, Siqueira JF Jr. Comparison of the In Vivo Antimicrobial Effectiveness of Sodium Hypochlorite and Chlorhexidine Used as Root Canal Irrigants: A Molecular Microbiology Study. J Endod 2011;37:143–150 Rolling I, Thylstrup A. A 3-year follow-up study of pulpotomized primary molars treated with the formocresol technique. Scand J Dent Res 1975;83:47–53. Rosenfeld EF, James GA, Burch BS. Vital pulp tissue response to sodium hypochlorite. J Endod 1978;5:140–6. Ruby JD, Cox CF, Mitchell SC, Makhija S, Chompu-Inwai P, Jackson J. A randomized study of sodium hypochlorite versus formocresol pulpotomy in primary molar teeth. Int J Paediatr Dent. 2013 ;23(2):145-52. Ruemping DR, Morton TH, Anderson MW. Electrosurgical pulpotomy in primates – a comparison with formocresol pulpotomy. Pediatric Dentistry 1983; 5 : 14–18. Ruiz-Rubio M, Alejandre-Duran E, Pueyo C. Oxidative mutagens specific for A.T. base pairs induce forward mutations to L-arabi-nos resistance in Salmonella typhimurium. Mutation Research 1985; 147 : 153–163. Rutherford RB, Wahle J, Tucker M, Rueger D, Charette M. Induction of reparative dentine formation in monkeys by recombinant human osteogenic protein-1. Archives of Oral Biology 1993;38(7):571-576. Sahara N, Okafuji N, Toyoki A, Ashizawa Y, Deguchi T, Suzuki K. Cementum-like tissue deposition on the resorbed pulp chamber wall of human deciduous teeth prior to shedding. Ada Anat 1993 ;147:24-34. Salako N, Joseph B, Ritwik P, Salonen J, John P, Junaid TA. Comparison of bioactive glass, mineral trioxide aggregate, ferric sulfate, and formocresol as pulpotomy agents in rat molar. Dent Traumatol 2003;19:314-320. Sasaki H, Ogawa T, Koreeda M, Ozaki T, Sobue S, Ooshima T. Electrocoagulation extends the indication of calcium hydroxide pulpotomy in the primary dentition. Journal of Clinical Pediatric Dentistry 2002; 26: 275–278 Schroder U, Szpringer-Nodzak M, Janicha J, Wacińska M, Budny J, Mlosek K. A one-year follow-up of partial pulpotomy and calcium hydroxide capping in primary molars: Blackwell Publishing Ltd, pp. 304-306. Schroder U. A 2-year followup of primary molars pulpotomized with a gentle technique and capped with calcium hydroxide. Scandinavian Journal of Dental Research 1978; 39: 273–278. Schroder U. A 2-year follow-up of primary molars, pulpotomized with a gentle technique and capped with calcium hydroxide. Scand J Dent Res 1987;86(4):273-8. Shaw DW, Sheller B, Barrus BD, Morton TH, Jr. Electrosurgical pulpotomy – a 6-month study in primates. Journal of Endodontics 1987; 13 : 500–505. Sheller B, Morton TH, Jr. Electrosurgical pulpotomy: a pilot study in humans. Journal of Endodontics 1987; 13 : 69– 76. Shulman ER, McIver FTI, Burkes EJ. Comparison of electrosurgery and formocresol as pulpotomy techniques in monkey primary teeth. Pediatric Dentistry 1987; 9 : 189–194. Shumayrikh NM, Adenubi JO. Clinical evaluation of glutaraldehyde with calcium hydroxide and glutaraldehyde with zinc oxide in pulpotomy of primary molars. Endodontics and Dental Traumatology 1999; 15 : 259–264. Silva AF, Tarquinio SB, Demarco FF, Piva E, Rivero ER. The influence of haemostatic agents on healing of healthy human dental pulp tissue capped with calcium hydroxide. Int Endod J. 2006 Apr;39(4):309-16. Sim TP, Knowles JC, Ng YL, Shelton J, Gulabivala K. Effect of sodium hypochlorite on mechanical properties of dentine and tooth surface strain. Int Endod J. 2001; 34(2):120-32. Siqueira JF Jr, Batista MM, Fraga RC, de Uzeda M. Antibacterial effects of endodontic irrigants on black-pigmented gram-negative anaerobes and facultative bacteria. J Endod 1998;24:414-6 Siqueira JF Jr, Rocas IN, Favieri A, Lima KC. Chemomechanical reduction of the bacterial population in the root canal after instrumentation and irrigation with 1%, 2.5%, and 5.25% sodium hypochlorite. J Endod. 2000 Jun;26(6):331-4. Slutzky-Goldberg I, Maree M, Liberman R, Heling I. Effect of sodium hypochlorite on dentin microhardness. Journal of Endodontics 2004;30:880–2. Smith NL, Seale NS, Nunn ME. Ferric sulfate pulpotomy in primary molars: a retrospective study. Pediatr Dent. 2000 ;22(3):192-9. Sonmez D, Sari S, Tugba T. A Comparison of Four Pulpotomy Techniques in Primary Molars: A Long-term Follow-up. Journal of Endodontics 2008; 34(8): 950-955. Thompson KS, Seale NS, Nunn ME, Huff G. Alternative method of hemorrhage control in full-strength formocresol pulpotomy. Pediatr Dent 2001;23:217-22. Torabinejad M, Hong CU, Pitt Ford TR, Kettering JD . Cytotoxicity of four root end filling materials. Journal of Endodontics 1995; 21(10):489-492. Tunc ES, Saroglu I, SarI S, Gunhan O. The effect of sodium hypochlorite application on the success of calcium hydroxide pulpotomy in primary teeth. Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology 2006;102(2):e22-e26. Tuzuner T, Alacam A, Altunbas DA, Gokdogan FG, Gundogdu E. Clinical and radiographic outcomes of direct pulp capping therapy in primary molar teeth following haemostasis with various antiseptics: a randomised controlled trial. Eur J Paediatr Dent. 2012 Dec;13(4):289-92. Tziafas D, Smith AJ, Lesot H. Designing new treatment strategies in vital pulp therapy. J Dent. 2000 Feb;28(2):77-92. Urist M. Bone formation by autoinduction. Science 1965; 150: 893–899. Vahdaty A, Pitt Ford TR, Wilson RF. Efficacy of chlorhexidine in disinfecting dentinal tubules in vitro. Endod Dent Traumatol. 1993; 9(6):243-8 Van Amerongen WE, Mulder GR, Vingerling PA. Consequences of endodontic treatment in primary teeth. Part 1: A clinical and radiographic study of the influence of formocresol pulpotomy on the lifespan of primary molars. J Dent Child 1986 ;53:364-70. Vargas K, Packham B. Radiographic success of ferric sulfate and formocresol pulpotomies in relation to early exfoliation. Pediatr Dent 2005;27:233-7. Vargas KG. Packham B. Preliminary Evaluation of Sodium Hypochlorite for Pulpotomies in rimary Molars. Pediatr Dent 2006;28:511-517 Vianna ME, Horz HP, Gomes BP, Conrads G. In vivo evaluation of microbial reduction chemo-mechanical preparation of human canals containing necrotic pulp tissue. Int Endod J 2006;39:484-492 Vieira-Andrade RG, Drumond CL, Alves LP, Marques LS, Ramos-Jorge ML. Inflammatory root resorption in primary molars: prevalence and associated factors. Braz Oral Res. 2012 Jul-Aug;26(4):335-40. Vostatek SF, Kanellis MJ, Weber-Gasparoni K, Gregorsok RL. Sodium hypochlorite pulpotomies in primary teeth: a retrospective assessment. Pediatr Dent. 2011 Jul-Aug;33(4):327-32. Walker LA, Sanders BJ, Jones JE, Williamson CA, Dean JA, Legan JJ, Maupome G. Current trends in pulp therapy: a survey analyzing pulpotomy techniques taught in pediatric dental residency programs. J Dent Child (Chic). 2013; 80(1):31-5. Waterhouse PJ, Nunn JH, Whitworth JM . Paediatric dentistry: An investigation of the relative efficacy of Buckley's Formocresol and calcium hydroxide in primary molar vital pulp therapy. Br Dent J 2000;188(1):32-36. Wilder-Smith P, Peavy GM, Nielsen D, Arrastia-Jitosho AM. CO2 laser treatment of traumatic pulpal exposures in dogs. Lasers in Surgery and Medicine 1997; 24: 557–560. Willard RM. Radiographic changes following formo-cresol pulpotomy in primary molars. J Dent Child 1976; 43:414-5. Zarzar PA, Rosenblatt A, Takahashi CS, Takeuchi PL, Costa Junior LA. Formocresol mutagenicity following primary tooth pulp therapy: an in-vivo study. J Dent 2003; 31:479–85 Zavistoski J., Dzirik J., Oriderdorlk A., Bartlett J. Quantitative bacteriology of endodontic infections, Oral Surg Oral Med Oral Pathol 1980: 49: 17 1 -4. Zealand CM, Briskie DM, Botero TM. Comparing Gray Mineral Trioxide Aggregate and Diluted Formocresol in Pulpotomized Human Primary Molars. Pediatric Dentistry 2010; 32:393-399. Zurn D, Seale SN. Light-cured Calcium Hydroxide vs Formocresol in Human Primary Molar Pulpotomies: A Randomized Controlled Trial. Pediatric Dentistry; 2008; 30:34-41. 張欣怡-台大臨床牙醫學研究所：MTA與DFC對於乳牙冠髓切除術治療療效評估之臨床試驗研究，2011
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/61901	-
dc.description.abstract	本研究為2.5% NaOCl與傳統DFC乳臼齒冠髓切除術的前瞻性隨機臨床試驗，目的為探討2.5% NaOCl是否可取代DFC，作為乳臼齒冠髓切除術的材料；本研究納入的受試者年齡最小為2.7歲，最大為8.3歲，最初共有150顆乳臼齒納入試驗，隨機分配至控制組(DFC)或是實驗組(2.5% NaOCl)來進行治療；在治療完成後的3、6、9、12、15及18個月，由獨立的評估者進行盲性臨床檢查及X光檢查的判讀，將收集到的分類資料，在p值小於0.05視為統計顯著的前提下，以卡方檢定(chi-square test)、費雪正確機率考驗(Fisher exact test)及獨立樣本t檢定 (Independent t-tesst)等統計分析，藉以比較不同追蹤時間間隔的兩組之間的治療成功率；並以次序迴歸及多項式回歸統計分析，來探討兩材料及其他變數(年齡、齒位及操作醫師等)對放射線學分數的影響；統計結果顯示2.5% NaOCl與DFC臨床成功率皆為100%，放射線學成功率分別為94.1%到96.8%，及94.1%到98.2%，2.5% NaOCl與DFC組的成功率在統計上沒有顯著差異，並且在放射線學上的各項發現上(根管鈣化、牙根內吸收、牙根外吸收及牙根周圍病變等)亦無統計上的顯著差異；而多項式迴歸分析亦指出兩材料對放射線學分數沒有顯著影響，但年齡及上下牙弓位置則會影響放射學評分。基於本研究的結果以及對DFC毒性的疑慮，我們認為2.5% NaOCl可以替代DFC做為臨床上冠髓切除術的材料，而期待未來有更多的臨床長期追蹤及組織學上進一步的研究做為佐證。	zh_TW
dc.description.abstract	This study is a prospective clinical randomized controlled trial of 2.5% NaOCl pulpotomy and DFC pulpotomy. The aim of this sudy is to determining weather NaOCl is a suitable replacement for FC in the pulpotomy of human primary molar teeth. This study included 82 children from 2.7 to 8.3 year-old. 150 primary molars were randomly assigned to the control group (dilute 20% Formocresol (DFC)) or experimental group (2.5% NaOCl). At 3, 6, 9, 12, 15 and 18 months post-treatment,these teeth were clinically and radiographically evaluated by blinded independent evaluators. The differences will be statistically analyzed using chi-square test, Fisher exact test, and independent t-test, using a statistical significance at p<0.05. Moreover, ordinal logistic regression and multinomial logistic regression test were performed to evaluate whether pulpotomy material and other variables such as age, gender, tooth position and operator would influence the radiographic scoring. The control (DFC) and experimental (2.5% NaOCl) groups both demonstrated 100% clinical success. Furthermore, the NaOCl group had 94.1% to 96.8% and the FC group had 94.1% to 98.2% radiographic success rate. No significant differences were found in the radiographic success rate or specific radiographic finding (ex: PCO, IRR, ERR, or PRL etc) between the two groups. Multinomial logistic regression test showed the two pulpotomy material had no siginificant influence on radiographic scoring, however, age and arch had some effect on radiographic scoring. Based on the result of this clinical study and the concern about the toxicity of FC, we suggesting that NaOCl may be an appropriate substitute for FC.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T13:17:54Z (GMT). No. of bitstreams: 1 ntu-102-R99422024-1.pdf: 2770953 bytes, checksum: af3c214e25f4006d2647336cbb330ee8 (MD5) Previous issue date: 2013	en
dc.description.tableofcontents	中文摘要…………………………………………………………………………………I 英文摘要………………………………………………………………………………...II 目錄…………………………………………………………………………………….IV 圖次…………………………………………………………………………………….IX 表次……………………………………………………………………………………..X 英文縮寫與中文對照表……………………………………………………………..XIII 第一章前言…………………………………………………………………………….1 第二章文獻回顧……………………………………………………………………….2 第一節乳牙活髓治療………………………………………………………...2 第二節冠髓切除術於乳牙的應用…………………………………………...3 第三節冠髓切除術的材料與技術…………………………………………...4 3.1 Formocresol……………………………………………………….4 3.2 戊二醛（Glutaraldehyde）…………………………………….. 6 3.3 氫氧化鈣（Calcium hydroxide, CH）………………………….7 3.4 電刀燒灼法（Electrosurgery）………………………………….8 3.5 二氧化碳與Nd:YAG 雷射………………………………………9 3.6 硫酸鐵（Ferric sulfate, FS）…………………………………….10 3.7 骨形成蛋白（Bone morphogenetic protein, BMP）……………..11 3.8 MTA (Mineral Trioxide Aggregate)…………………………...12 第四節次氯酸鈉NaOCl……………………………………………………..14 4.1 次氯酸鈉(NaOCl)的發展………………………………………14 4.2 NaOCl的抗菌效果………………………………………………14 4.3 NaOCl應用於根管治療的濃度…………………………………16 4.4 活髓組織對NaOCl的反應……………………………………...17 4.5 NaOCl於活髓治療的應用………………………………………18 4.5.1直接覆髓術(Direct pulp capping)……………………...18 4.5.2 再生性根管治療(Regenerative endodontics)………...18 4.5.3 NaOCl於冠髓切除術的應用……………………….…19 第三章研究動機與目的……………………………………………………………...22 第四章材料與方法…………………………………………………………………...23 第一節研究對象…………………………………………………………...23 1.1 受試者選擇…………………………………………………..23 1.2 牙齒選擇標準………………………………………………..24 第二節臨床試驗分組與操作……………………………………………...24 2.1臨床試驗前訓練………………………………………………24 2.2隨機分配方式…………………………………………………25 2.3 DFC與2.5%NaOCl的製備……………………………………25 2.4 臨床試驗器械組……………………………………………..25 第三節臨床治療流程……………………………………………………...26 3.1 放射學影像的照射…………………………………………..26 3.2 控制組（DFC）………………………………………………..26 3.3 實驗組（2.5% NaOCl）……………………………………....26 第四節追蹤回診及治療結果評估……………………………………….27 4.1 臨床評估……………………………………………………..27 4.2 放射學評估…………………………………………………..27 第五節統計分析………………………………………………………….28 第五章結果……………………………………………………………………….......30 第一節受試者與樣本特性描述分析統計結果…………………………...30 第二節回診檢查之差異性統計分析………………………………….....30 2.1 三個月回診……………………………………………….….30 2.1.1 三個月回診的樣本組成……………………………...30 2.1.2 三個月臨床檢查結果………………………………...31 2.1.3 三個月放射學檢查結果……………………………...31 2.1.4 三個月放射學失敗的乳臼齒………………………...32 2.2 六個月回診…………………………………………………..32 2.2.1六個月回診的樣本組成……………………………….32 2.2.2 六個月臨床檢查結果………………………………...33 2.2.3 六個月放射學檢查結果……………………………...33 2.2.4 六個月放射線學發現牙本質屏障的乳臼齒………...34 2.2.5 六個月放射線學失敗的乳臼齒……………………...34 2.3 九個月回診…………………………………………………..34 2.3.1九個月回診的樣本組成……………………………….34 2.3.2 九個月臨床檢查結果………………………………...35 2.3.3 九個月放射學檢查結果……………………………...35 2.3.4 九個月放射線學失敗的乳臼齒……………………...35 2.4 十二個月回診……………….……………………………….36 2.4.1 十二個月回診樣本組成……………………………...36 2.4.2 十二個月回診臨床檢查結果………………………...36 2.4.3 十二個月放射學檢查結果…………………………...36 2.4.4 十二個月放射線學失敗的乳臼齒…………………...37 2.5 十五個月回診………………………………………………..37 2.5.1 十五個月回診樣本組成……………………………...37 2.5.2 十五個月回診臨床檢查結果………………………...37 2.5.3 十五個月放射學檢查結果…………………………...37 2.5.4 十五個月放射線學失敗的乳臼齒…………………...38 2.6 十八個月回診………………………………………………..38 2.6.1 十八個月回診樣本組成……………………………...38 2.6.2 十八個月回診臨床檢查結果………………………...39 2.6.3 十八個月放射學檢查結果…………………………...39 2.6.4 十八個月放射線學失敗的乳臼齒…………………...39 第三節迴歸統計分析的結果……………………………………….40 3.1 次序回歸分析結果……………………………………..40 3.2 多項式回歸分析結果…………………………………..41 第六章討論………………………………………………………………………...43 第一節研究樣本…………………………………………………….43 第二節臨床檢查的結果……………………………………………...44 第三節放射線學上的發現 ………………………………………….44 3.1 牙本質屏障……………………………………………..44 3.2 正常沒有變化…………………………………………..45 3.3 根管鈣化………………………………………………..45 3.4 牙根內吸收……………………………………………..47 3.5 牙根外吸收 ……………………………………………50 3.5.1 病理性牙根外吸收……………………………...50 3.5.2 生理性牙根外吸收……………………………...50 第四節放射線學評估分數…..…………………………………….51 第五節放射線學結果……………………………………………...53 第六節迴歸統計分析……………………………………………...54 6.1 次序迴歸統計分析…………………………………..54 6.2 多項式迴歸分析……………………………………..54 6.2.1兩組冠髓切除術材料對放射線學分數沒有影響.54 6.2.2 年齡、上下顎如何影響放射線學分數…………54 第七章結論…………………………………………………………………………...56 參考文獻……………………………………………………………………………...101
dc.language.iso	zh-TW
dc.title	Sodium hypochlorite應用於人類乳臼齒冠髓切除術之臨床研究	zh_TW
dc.title	A randomized clinical study of sodium hypochlorite pulpotomy in primary molar teeth	en
dc.type	Thesis
dc.date.schoolyear	101-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	郭敏光,劉正芬
dc.subject.keyword	Sodium hypochlorite,Formocresol,冠髓切除術,乳臼齒,臨床隨機試驗,	zh_TW
dc.subject.keyword	Sodium hypochlorite,Formocresol,pulpotomy,primary molar,randomized clinical trial,	en
dc.relation.page	115
dc.rights.note	有償授權
dc.date.accepted	2013-07-29
dc.contributor.author-college	牙醫專業學院	zh_TW
dc.contributor.author-dept	臨床牙醫學研究所	zh_TW
顯示於系所單位：	臨床牙醫學研究所

文件中的檔案：

檔案	大小	格式
ntu-102-1.pdf 目前未授權公開取用	2.71 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。