SANDMAN STUDIER


SANDMAN STUDIER

 

Brug af sandblæsning er veldokumenteret igennem de sidste 20 år. Med de seneste teknologiske innovative løsninger skabt af Sandman MICRODENTISTRY, er Sandman udstyr anerkendt som den bedste metode til at udføre MICRODENTISTRY. Nedenfor er nævnt nogle af de mange undersøgelser som er blevet udført og efterfølgende en referenceliste for yderligere interesse. Studierne nedenfor bevidner at Sandman sandblæsning er den bedste metode til minimal invasiv behandling primært af følgende hovedårsager:

  • Mindre invasivt, minimal fjernelse af tandemalje og dentin, som sikrer de bedste muligheder for at bevare patienternes naturlige tænder så længe som muligt i deres liv
  • Kun påvirkning på kontaktpunkt ved tandoverfladen,ingen varme, ingen vibrationer mv.minimal irritation af nervestrukturen i tanden. Dette er også særlig relevant ved behandling af dyb caries hvor sandman sandblæsning sikrer bevarelsen af tandens vitalitet
  • Intet behov for særlig præparering af caviteten idet Sandman sandblæsning sikrer en meget stærkere bonding.

Study 1. Study from Leuven University

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Studie 1. Studie fra Leuven Universitet

SStudie fra Leuven Universitet om adhæsionsstyrken ved hjælp af forskellige behandlingsmetoder på tandoverfladen. Konklusionen er klar at sandblæsning er klart den bedste metode til sikring af høj bondingstyrke.Undersøgelse er på flamsk sprog, men på side 11 + 12 er der en klar figur, der viser resultaterne.

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Study 2. Study from Polish University

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Studie 2. Studie polsk Universitet

Studie fra polsk Universitet, som viser igen meget stærk bondingeffekt ved brug af sandman sandblæsning.

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Study 3. Study by the well known Danish dentist Svend Carlsen

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Studie 3. Studie af dansk tandlæge Svend Carlsen

Studie af den danske tandlæge Svend Carlsen, der dokumenterede dyb caries behandling på1.300 patienter med Sandman Futuramed exceptionelle langsigtede resultater.

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Study 4. Article in Dental Products Review Report written by Professor Paul Lambrechts

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Studie 4. Artikel i Dental Products Review Report skrevet af professor Paul Lambrechts

Artikel i Dental Products Review Report skrevet af professor Paul Lambrechts – MULTIPURPOSE ABRASION –INNOVATIVT SANDBLÆSNINGSSYSTEM (Sandman) UDFØRER NU RESULTATER SOM TIDLIGERE VAR UTÆNKELIGE.

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Study 5. Study performed by Victoria Zhirova

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Studie 5. Studie udført af Victoria Zhirova

Studie foretaget af Victoria Zhirova, Sankt Petersborg, Rusland. Microdentistry – Sandman sandblæsningsmetoder for børn.

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Study 6. Study by Polish dentist J. Organa

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Studie 6. Studie af den polske tandlæge Dr. J. Organa

Studie af den polske tandlæge J. Organa. Smerteoplevelser med non-caries cervikale skader ved brug af sandblæsning (Sandman). Skrevet på polsk med et resume på engelsk.

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Study 7. Extract from German Study at Cologne University.

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Studie 7. Resume fra tysk undersøgelse på i Köln Universitet.

Resume fra tysk undersøgelse på Köln Universitet.Effekten af sandblæsning på bevarelsen af sund dentintandsubstans.

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Study 9. Extract from BIOLOGICAL CONCEPT OF MINIMALLY INVASIVE TREATMENT OF CARIES IN TEMPORALLY TEETH IN CHILDREN.

(original: БИОЛОГИЧЕСКАЯ КОНЦЕПЦИЯ МИНИМАЛЬНО–ИНВАЗИВНОГО ЛЕЧЕНИЯ КАРИЕСА ВРЕМЕННЫХ ЗУБОВ У ДЕТЕЙ) В.Г. Жирова, И.А. Бурдейная, И.В. Филимонова The article in Russian was published in CHILDREN’S DENTISTRY, Denta Club 5/2013   (Original: ДЕТСКАЯ СТОМАТОЛОГИЯ, Дента клуб 5/2013)

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Study 8. Extract from Air Abrasion: Truly Minimally invasive technique.

1Postgraduate Student, Department of Dental Physical Sciences Unit, Queen Mary University of London, London, United Kingdom
2Faculty, Department of Oral Surgery, Homerton University Hospital, London, United Kingdom
3Postgraduate Student, Department of Public Health, Glyndër University, Wales, United Kingdom

Minimally invasive dentistry concept is now an essential part of dental procedures. Many novel materials and techniques have now been developed that are in line with the MI(Minimal intervention) philosophy. One such technique is Air Abrasion. An attempt has been made in this article to cover all the aspects of air abrasion and to remove the misconceptions present about this technique.

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Vi har yderligere undersøgelser vedrørende anvendelse af sandblæsning  – Sandman, og du er velkommen til at bede om mere dokumentation, men de fleste undersøgelser, vi har, er i oprindelsessproget så som russisk / polsk / dansk.

Herunder er en liste over referencer til yderligere selvstændige studier:

REFERENCES AIRABRASION

  • Composed by Professor DDS., P. Lambrechts, K.U. Leuven, Belgium:
  • Banerjee A, Kidd EAM, Watson TF. In vitro evaluation of five alternative methods of carious dentine excavation. Caries Res 2000; 34:144-150.
  • Berry EA, Eakle WS, Summitt JB. Air abrasion: an old technology reborn. Compend Contin Educ Dent 1999; 20: 751-764.
  • Canay S, Kocadereli I, Akça E. The effect of enamel air abrasion on the retention of bonded metallic orthodontic brackets. Am J Orthod Dentofacial Orthop 2000; 117:15-19.
  • Degrange H, Roulet JF. Minimally invasive dentistry with bonding. Quintessence Publishing Chicago 1997.
  • Doty WD, Pettey D, Holder R, Phillips S. KPC 2000 enamel etching abilities tested. J Dent Res 1994; 73. Abstracts of Papers: 411 abstract 2474.
  • Ghiabi N. Air contamination during use of airabrasion instrumentation. J Clin Pediatr Dent 1998; 23:37-43.
  • Goldstein RE, Parkins FM. Using air-abrasive technology to diagnose and restore pit and fissure caries. J Am Dent Assoc 1995; 126:761-766.
  • Hooper CA. Air-abrasive technology. J Am Dent Assoc 1994; 125:1164-1166.
  • Huysen GV, Boyd DA. Operative procedures and the tooth. J Prosthet Dent 1953; 6:818-827.
  • Inoue S, Van Meerbeek B. Vargas M, Yoshida Y, Lambrechts P & Vanherle G Adhesion mechanism of self-etching adhesives. 2000; In: Tagami J, Toledano M, Prati C (eds). Proceedings of 3rd International Kuraray Symposium on Advanced Adhesive Dentistry. Como: Grafiche Erredue 131-148.
  • Kameyama A, Kawada E, Takizawa M, Oda Y, Hirai Y. Influence of different acid conditioners on the tensile bond strength of 4-META/MMA-TBB resin to Er:YAG laser-irradiated bovine dentin. Adhesive Dent 2000; 2:297-304.
  • Keen DS, Fraunhofer JA, Parkins FM. Air-abrasive ‘etching’: composite bond strengths. J Dent Res 1994; 73. Abstracts of Papers:131 abstract 238.
  • Kutsch VK. Microdentistry: a new standard of care. J Mass Dent Soc 1999; 47:35-39.
  • Laurell KA, Carpenter W, Beck M. Pulpal effects of air abrasion cavity preparation in dogs. J Dent Res 1993; 72:273.
  • Laurell KA, Hess JA. Scanning electron micrographic effects of air-abrasion cavity preparation on human enamel and dentin. Quintessence Int 1995; 26:139-144.
  • Liebenberg WH. A useful evacuation aid for intraoral air-abrasive devices. Quintessence Int 1997; 28:105-108.
  • Manhart J, Chen HY, Kunzelmann KH, Hickel R. Bond strength of a compomer to dentin under various surfaces conditions. Clin Oral Invest 1999; 3:175-180.
  • Mayes J, Porth R. Air abrasion: the new ‘drill-less’ dentistry. Dent Today 1997; 16:58,60,62-65.
  • Myers TD. Advances in air abrasive technology. J Calif Dent Assoc 1994; 22:41-4.
  • NIOSH (National Institute for Occupational Safety and Health). Manual of analytical methods. Cincinatti: US Department of Health 1989.
  • Pinto LS, Peruchi C, Marker VA, Codeiro R. Evaluation of cutting patterns produced with air abrasion systems using different tip designs. Oper-Dent. 2001; 26:308-312.
  • Rinaudo PJ, Cochran MA, Moore BK. The effect of air abrasion on shear bond strength to dentin with dental adhesives. Oper Dent 1997; 22:254-259.
  • Rosenberg S. Air-abrasive microdentistry: a new perspective on restorative dentistry. Dent Econ 1995; 85:96-97.
  • Reyto R. Lasers and air abrasion. Dent Clin North Am 2001; 45:189-206.
  • Southan D. Restoration of aesthetics in anterior teeth. In: Mount GJ, Hume WR (eds). Preservation and restoration of tooth structure.London:Mosby, 1998; 15:185-193.
  • Tyas MJ, Anusavice KJ & Frencken JE. Minimal intervention dentistry – a review. Int Dental J 2000; 50:1-12.
  • Van Leeuwen MJ, Rossano AT. Dust factors involved in the use of Airdent machine. J Dent Res 1952; 31:33-34.
  • Wright GZ, Hatibovic Kofman S, Millenaar DW, Braverman I. The safety and efficacy of treatment with air abrasion technology. Int J Paediatr Dent 1999; 9:133-140.
  • Mattar D., Verheyen P., De Munck J., Bergmans L,, Van Meerbeek B., Lambrechts P. (2004). Préparation microchirurgicale des taches blanches de l’email au laser Er:Yag. Réalités Cliniques 15:79-88.
  • Inoue S, Vargas MA, Abe Y, Yoshida Y, Lambrechts P, Vanherle G, Sano H, Van Meerbeek B (2003). Microtensile bond strength of eleven contemporary adhesives to enamel. American Journal of Dentistry 16;329-334
  • Bae K, Raymond L, Willardsen J. SBS of composite to various surfaces prepared with air abrasion and acid etch. J Dent Res 1996; 75. Abstracts of paper:391 abstract 2986.
  • Banerjee A, Watson TF, Kidd EAM. Dentine caries excavation: a review of current clinical techniques. British Dent J 2000; 188:476-482.
  • Berry EA, Ward M. Bond strength of resin composite to air abraded enamel. Oper Dent 1995; 26:559-562.
  • Christensen GJ. Air abrasion tooth cutting: state of the art 1998. J Am Dent Assoc 1998; 129:484-485.
  • Dinman BD. Alumina related pulmonary disease. Occup med 1988; 30:328-335.
  • Farran H. Micro air abrasion. Key to successful dentistry. Oral Health 1998; 88:41-43.
  • Goldstein RE, Parkins FM. Air-abrasive technology: its new role in restorative dentistry. J Am Dent Assoc 1994; 125:551-557.
  • Hamilton J. Microdentistry: the new standard of care? Part 3. Is air abrasion safe? CDS Rev 1999; 16-22.
  • Horiguchi S, Yamada T, Inokoshi S, Tagami J. Selective caries removal with air abrasion. Oper Dent 1998; 23:236-243.
  • Inoue H, Inoue S, Shigeru U, Takahashi A, Koase K, Sano H. Micro-tensile bond strength of two single step adhesive systems to bur-prepared dentin. Adhesive Dent 2001; 3:129-136.
  • Inoue S, Vargas MA, Van Meerbeek B, Abe Y, Yoshida Y, Lambrechts P, Vanherle G, Sano H. Micro-tensile bond strength of eleven modern adhesives to dentin. Adhesive Dent 2001; 3:237-246.
  • Katora ME, Jubach T, Polimus MM. Airabrasive etching of the enamel surface. Quintessence Int 1981; 9:967-968
  • Kotlow LA. New technology in pediatric dentistry.N Y State Dent J 1996; 62:26-30.with dental adhesives.
  • Lambrechts P, Meerbeeck BV, Perdigão J, Vanherle G. Adhesion. In: Wilson NHF, Roulet JF, Fuzzi M (eds). Advances in Oper Dent. Quintessence Plublishing Co, Inc, 2001; 2:135-139.
  • Laurell KA, Carpenter W, Daugherty D, Beck M. Histopathologic effects of kinetic cavity preparation for the removal of enamel and dentin. An in vivo animal study. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1995; 80: 214-225
  • Laurell KA, Lord W, Beck MD. Kinetic cavity preparation effects on bonding to enamel and dentin. J Dent Res 1993; 72. Abstracts of Papers:286 abstract 1437
  • Liebenberg WH, Crawford BJ. Subcutaneous, orbital, and mediastinal emphysema secondary to the use of an air-abrasive device. Quintessence Int 1997; 28:31-38.
  • Maser D, Schiller B, Hongkui X. Aluminum oxide exposures to dental patients during the use of KPC 2000. Masser D, Schiller B, Hongkui X. Study paper. Birmingham: Enviroair Consultants, Inc. 1993.
  • Montague P. Problem air pollution PM10 fine particles. Environment Research Inc. 2002.
  • Nash RW. Air Abrasion: the future of restorative microdentistry.Compedium 1997; 6:534-540.
  • Peyton FA, Henry EE. The effect of high speed burs, diamond instruments and air abrasive in cutting tooth tissue. JADA 1954; 49(4):426-435.
  • Pitel ML. The resurgence of air abrasion into restorative dentistry. Dent Today 1998; 7:62-69,106.
  • Roeder LB, Berry EA, You IIIC, Powers JM. Bond strength of composite to air abraded enamel and dentin. Oper Dent 1995; 20:186-190.
  • Rosenberg S. Air abrasion: the new standard of care. Dent Today 1996; 15:78,80-83.
  • Setien VJ, Cobb DS, Denehy GE, Vargas MA. Cavity preparation devices: effect on microleakage of Class V resin-based composite restorations. Am J Dent 2001; 14:157-62.
  • Tatrai E, Ungvary G, Adamis Z, Timar M. Short-term in vitro method for production of the fibrinogenic effect of different mineral dusts. J Exp Pathol 1985; 28:111-118.
  • Valentino MF, Nathanson D. Evaluation of an air-abraion preparation system for bonded restorations. J Dent Res 1993; 75. Abstracts of Papers:127 abstract 878.
  • White JM, Eakle WS. Rationale and Treatment approach in minimally invasive dentistry. J Am Dent Assoc 2000; 131:13S-19S.
  • Yip HK, Samaranayake LP. Caries removal techniques and instrumentation: a review. Clin Oral Invest 1998; 2:148-154.
  • Van Meerbeek B, De Munck J,. Mattar D, Van Landuyt K, Lambrechts P. (2003) Microtensile bond strengths of an etch&rinse and self-etch adhesive to enamel and dentin as a function of surface treatment. Operative Dentistry 28;647-660.
  • De Munck J, Van Meerbeek B, Satoshi I, Vargas M, Yoshida Y, Armstrong S, Lambrechts P, Vanherle G (2003). Microtensile bond strengths of one- and two-step self-etch adhesives to bur-cut enamel and dentin. American Journal of Dentistry; 16: 414-420.