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İKİ GEÇİCİ DOLGU MADDESİNİN (CAVİT-G VE PROVİS) MİKROSIZINTISININ ELEKTROKİMYASAL ÖLÇÜMLER VASITASIYLA DEĞERLENDİRİLMESİ

EVALUATION OF TWO TEMPORARY RESTORATIVE MATERIALS (CAVIT-G AND PROVIS) MICROLEAKAGE BY MEANS OF ELECTROCHEMICAL MEASUREMENTS

Journal Name:

  • Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi

Publication Year:

  • 1998

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
This study compares the microleakage of two temporary filling materials over 1 wk period by an electrochemical technique. Endodontic access preparations were made in 28 sound crowns of extracted human premolar teeth. They were randomly divided into two groups including positive and negative controls. Twelve teeth were obturated with Cavit-G and twelve teeth with Provis. Microleakage was measured by means of electrohemical technique. The results showed that CaviL-G group was significantly more microleakage than Provis group.
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Abstract (Original Language): 
Bu çalışma, elektroldmyasal bir teknik kullanılarak iki geçici dolgu maddesinin bir haftalık zaman süresince mikrosızıntısıııı karşılaştırıyor. Sağlam çekilmiş 28 insan küçük azı dişinde endodontik giriş hazırlıkları yapıldı. Dişlet pozitif ve negatif konLrolüde kapsayan iki gruba rastgele ayrıldı. Oniki diş Cavit-G ile oniki diş Provis ile tıkatıldı. Mikrosızıntı elektrokimyasal teknik vasıtasıyla, ölçüldü. Sonuç olarak Cavit-G grubunun Provis grubundan daha fazla mikrösı/.ınlıya sahip olduğu bulundu.
FULL TEXT (PDF): 
PDF icon arastirmax-iki-gecici-dolgu-maddesinin-cavit-g-provis-mikrosizintisinin-elektrokimyasal-olcumler-vasitasiyla-degerlendirilmesi.pdf
  • 2
59-61
  • Turkish

REFERENCES

References: 

1. Grossman LI. Endodontic Practice. Ninth Ed. Lea Febiger, Philadelphia. 1978.
2. Jacquot HM, Panighi MM, Stemmed, P. G'seli C. Evaluation nf temporary restorations microleakage by means of electrochemical impedance measurement. J Endodon 1996; 22: 586-9.
3. Krakow AA, deStoppelcar JD, Gron P. In vivo study of temporary filling material in endodontic access cavities in monkey teeth. Oral Surg 1977; 43: 615-20.
4. Webber RT, del Rio CE, Brady JM, Segal RO. Sealing quality of a temporarv filling material. Oral Surg 1978;46:123-30.
5. Choyayeb AA, Bassiotmy MA. Scaling ability of intermediate restoratives used in endodontics. J Endodon 1983; 11:241-4.
6. Marosky JE, Patterson SS, Swartz M. Marginal leakage of temporary sealing materials used between endodontic appointments and assessed by calcium 45-an in vitro study. J Endodon 1977; 3: 110-3.
7. Lim K.C. Microleakage of intermediate restorative materials. J Endodon 1990; 16: 116-8.
8. Cameron JA. The use of ultrasonics in the removal of the smear layerra scanning electron microscope study. J Endodon 19S3; 9: 289-92.
9. Widertnan FH, Eamcs WB, Serene TP. The physical and biologic properties of Cavit, J Am Dent Assoc 1971; 82: 378-82.
10. Barkhordar RA. Stark MM. Sealing ability of intermediate restorations and cavity design used in endodontics. Oral Surg Oral Med Oral Pathol 1990; 69: 99-101.
M. Oppenheimer S, Rosenberg PA. Effect of temperature change on the scaling properties of Cavit and Cavit-G. Oral Surg 1979; 48: 250-3.
12. Webber RT, del Rio CE, Brady JM, S e gall RO, Sealing quality of a temporary filling material. Oral Surg 1978; 46: 123-30.
13. Anderson RW, Powell BJ, Pashley DH. Microleakage of three temporary endodontic restorations. J Endodon 1988; 14:497-501.
14. Deveaux ED, Hildclbcrt PT Neut C, Boniface B, Rornond C. Bacterial microleakage of Cavit, IRM, and TERM, Oral Surg Oral Med Oral Pathol 1992; 74: 634-43.
15. I^ee YC, Yang SF, Hwang YF, Chueh LH, Chung KH. Microleakage of endodontic temporary restorative materials- J Endodon 1993; 19:516-20.

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