Variations of radiographic images of dental luting cements and composite posts depending on their composition and radiographic system used

Objectives. According to the International Standard Organization (ISO), the radiopacity of luting cements and dental posts should be equal to or greater than that of aluminum. The aims of these in vitro studies were: to determine the radiopacity of 13 commercially available dental luting cements and...

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1. Verfasser:	Antonijević Đorđe
Format:	Dissertation
Sprache:	srp
Schlagworte:	cement composite post dentin implant kompozitni kočić kontrastno sredstvo luting cement radiopacifier radiopacity rendgenkontrastnost
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description	Objectives. According to the International Standard Organization (ISO), the radiopacity of luting cements and dental posts should be equal to or greater than that of aluminum. The aims of these in vitro studies were: to determine the radiopacity of 13 commercially available dental luting cements and compare it with that of human enamel and dentin, to investigate the capacity of various radiopacifying agents to produce the difference in radiopacity on film and a CCD - based digital sensor, to evaluate the radiopacity of seven commercially available dental posts and determine the minimum radiopacity value necessitated for their clinical evaluation and to determine the threshold radiopacity value for detection of small thicknesses of dental luting cements in adjacent to implant abutment. Materials and Methods. Five classes of luting cements were evaluated: zinc phosphate (Cegal N and Harvard Zinc Phosphate), zinc polycarboxylate (Harvard Polycarboxylate and Hoffmann’s Carboxylate), glass ionomers (Ketac Cem Easymix, Ketac Cem Radiopaque and Fuji I), resin-modified glass ionomer (Rely X Luting), and resin cements (Multilink Automix, Variolink II, Speed CEM, Rely X Unicem Automix and Variolink Veneer). Teeth slices served as controls. Five specimens of each material measuring 8 mm in diameter and 1 mm thick were prepared and radiographed alongside tooth slices and an aluminum stepwedge using a Trophy Radiovisiography (RVG) sensor (Trophy Radiology, Cedex, France). The radiopacity values were expressed in mm Al and analyzed by the ANOVA and Tukey tests (P 0,05). Zinc phosphate, zinc polycarboxylate, and three of the resin cements presented radiopacity values that were significantly greater than that of enamel (P 0,05), but it was significant with respect to radiopacifier (P 0,05). Minimum radiopacity value of cement excess required for visualization of 0,1 mm thick cement overhang was 2,2 mm Al on conventional radiography and 1,7 mm Al on digital sensor. Conclusions. Almost all the investigated dental cements presented an acceptable radiopacity. Radiopacity of dental cements seems to depend more on the presence of elements with high atomic numbers than on the type of the material. Materials which incorporate CHI3 or BaSO4 as a radiopacifying agent are expected to be significantly more radiopaque on digital sensor than on film. All examined posts exceed the minimum ISO guideline of 1 mm of aluminum per millimeter of material and can be considered sufficiently rad
format	Dissertation
fullrecord	<record><control><sourceid>europeana_1GC</sourceid><recordid>TN_cdi_europeana_collections_9200447_BibliographicResource_3000095543274</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>9200447_BibliographicResource_3000095543274</sourcerecordid><originalsourceid>FETCH-europeana_collections_9200447_BibliographicResource_30000955432743</originalsourceid><addsrcrecordid>eNqtTksKwjAQ7caFqHeYCwilH4pbRelaxG0Zk2k7kGZKki68gqc2Fim4dzaPebzfOnnd0TEGFutBWnCoWTqHY88KeMCOZlqTDWjATIFtB4qG-HtAq0HJMIrnQBAhcppGsvqjEguhJ3aLJHbMlp8O__SBBpg86W2yatF42n1xk9SX8-1U72lyMhJabJQYQ2pe2xyyNC2Kqjnywyx5V_IyOUVNnsY7lGWRZ1WR_zHqDSIlaio</addsrcrecordid><sourcetype>Aggregation Database</sourcetype><iscdi>true</iscdi><recordtype>dissertation</recordtype></control><display><type>dissertation</type><title>Variations of radiographic images of dental luting cements and composite posts depending on their composition and radiographic system used</title><source>Europeana Collections</source><creator>Antonijević Đorđe</creator><creatorcontrib>Antonijević Đorđe ; Zrilić Milorad ; Obradović-Đuričić Kosovka ; Dodić Slobodan ; Todorović Aleksandar ; Rakočević Zoran</creatorcontrib><description>Objectives. According to the International Standard Organization (ISO), the radiopacity of luting cements and dental posts should be equal to or greater than that of aluminum. The aims of these in vitro studies were: to determine the radiopacity of 13 commercially available dental luting cements and compare it with that of human enamel and dentin, to investigate the capacity of various radiopacifying agents to produce the difference in radiopacity on film and a CCD - based digital sensor, to evaluate the radiopacity of seven commercially available dental posts and determine the minimum radiopacity value necessitated for their clinical evaluation and to determine the threshold radiopacity value for detection of small thicknesses of dental luting cements in adjacent to implant abutment. Materials and Methods. Five classes of luting cements were evaluated: zinc phosphate (Cegal N and Harvard Zinc Phosphate), zinc polycarboxylate (Harvard Polycarboxylate and Hoffmann’s Carboxylate), glass ionomers (Ketac Cem Easymix, Ketac Cem Radiopaque and Fuji I), resin-modified glass ionomer (Rely X Luting), and resin cements (Multilink Automix, Variolink II, Speed CEM, Rely X Unicem Automix and Variolink Veneer). Teeth slices served as controls. Five specimens of each material measuring 8 mm in diameter and 1 mm thick were prepared and radiographed alongside tooth slices and an aluminum stepwedge using a Trophy Radiovisiography (RVG) sensor (Trophy Radiology, Cedex, France). The radiopacity values were expressed in mm Al and analyzed by the ANOVA and Tukey tests (P 0,05). Zinc phosphate, zinc polycarboxylate, and three of the resin cements presented radiopacity values that were significantly greater than that of enamel (P 0,05), but it was significant with respect to radiopacifier (P 0,05). Minimum radiopacity value of cement excess required for visualization of 0,1 mm thick cement overhang was 2,2 mm Al on conventional radiography and 1,7 mm Al on digital sensor. Conclusions. Almost all the investigated dental cements presented an acceptable radiopacity. Radiopacity of dental cements seems to depend more on the presence of elements with high atomic numbers than on the type of the material. Materials which incorporate CHI3 or BaSO4 as a radiopacifying agent are expected to be significantly more radiopaque on digital sensor than on film. All examined posts exceed the minimum ISO guideline of 1 mm of aluminum per millimeter of material and can be considered sufficiently radiopaque for clinical evaluation. For the detection of small thickness of cement overhang adjacent to implant abutment dental cements should experience greater radiopacity than recommended by relevant ISO standards. Digital radiography offers better possibilities for the detection of cement excesses than conventional radiography. After cementation of implant restorations with deep subgingival cement placements digital radiographs should be obtained to verify the presence or absence of retained cement. U skladu sa zahtevima koje propisuje međunarodna organizacija za standardizaciju (ISO) rendgenkontrastnost dentalnih cemenata i dentalnih kočića treba da bude veća od rendgenkontrastnosti iste debljine aluminijuma. Ciljevi sprovedenih in vitro istraživanja bili su da se: utvrdi rendgenkontrastnost različitih vrsta dentalnih cemenata na digitalnoj radiografiji uz upotrebu CCD digitalnog senzora, ispita kapacitet različitih radiografskih metoda da se ispita rendgenkontrastnost materijala zavisno kontrastnog sredstva prisutnog u materijalu, ustanovi rendgenkontrastnost različitih vrsta dentalnih kočića i njihova minimalna klinički prihvatljiva rendgenkontrasnost i da se ispitaju mogućnosti konvencionalne i digitalne radiografije u dijagnostikovanju zaostalog viška cementa na abatmentu nakon cementiranja protetskih restauracija. Materijali i metode. Pet kategorija cemenata za cementiranje protetskih nadoknada je korišćeno: dva cink fosfatna cementa (Cegal N i Harvard Zinc Phosphate), dva cink polikarboksilatna cementa (Harvard Polycarboxylate i Hoffmann’s Carboxylate), tri glas jonomerna cementa (Ketac Cem Easymix, Ketac Cem Radiopaque i Fuji I), jedan smolom modifikovani glas jonomerni cement (Rely X Luting) i pet kompozitnih cemenata (Multilink Automix, Variolink II, Speed CEM, Rely X Unicem Automix i Variolink Veneer). Uzorci gleđi i dentina su korišćeni kao kontrola. Po pet uzoraka svakog materijala prečnika 8 mm i debljine 1 mm je pripremljeno i radiografisano zajedno sa uzorcima humanih zubnih tkiva i aluminijumskim etalonom uz pomoć Trophy RVG digitalnog senzora (Trophy Radiology, Cedex, France). Rendgenkontrastnost materijala je izražavana u ekvivalentnoj debljini aluminijuma i analizirana uz pomoć ANOVA i Tukey testa (P 0,05), ali je bila statistički značajno različita u zavisnosti od upotrebljenog kontrastnog sredstva (P 0,05). Minimalna vrednost rendgenkontrastnosti viškova cementa koja omogućava vizuelizaciju viška cementa meziodistalnog promera 0,1 mm bila je 2,2 mm Al na konvencionalnom radiogramu i 1,7 mm Al na digitalnom senzoru. Zaključci. Većina ispitivanih cemenata za cementiranje fiksnih stomatoloških nadoknada pokazali su zadovoljavajući stepen rendgenkontrastnosti. Rendgenkontastnost dentalnih cemenata zavisi više od prisustva elemenata sa visokim atomskim brojevima nego od njihove kategorije. Može se očekivati da materijali koji u svom sastavu sadrže jodoform ili barijum ispolje veći stepen rendgenkontrastnosti na digitalnoj nego na konvencionalnoj radiografiji. Svi ispitivani dentalni kočići ispoljili su rendgenkontrastnost koja je bila veća od 1 mm aluminijuma koji je propisan u relevantnim ISO standardima i mogu se smatrati prihvatljivim za upotrebu u kliničkoj praksi. Za otkrivanje malih količina viškova cemenata uz abatment dentalni cementi moraju da poseduju veći stepen rendgenkontrastnosti od onog koji je propisan ISO standardima. Digitalna radiografija pruža bolje mogućnosti za detektovanje viškova cemenata od konvencionalne radiografije. Nakon cementiranja restauracija sa dubokim subgingivalnim položajem demarkacije na implantima neophodno je napraviti digitalne radiograme kako bi se verifikovalo prisustvo ili odsustvo potencijalnih viškova cemenata.</description><language>srp</language><publisher>University of Belgrade, Faculty of Stomatology</publisher><subject>cement ; composite post ; dentin ; implant ; kompozitni kočić ; kontrastno sredstvo ; luting cement ; radiopacifier ; radiopacity ; rendgenkontrastnost</subject><creationdate>2012</creationdate><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://data.europeana.eu/item/9200447/BibliographicResource_3000095543274$$EHTML$$P50$$Geuropeana$$Hfree_for_read</linktohtml><link.rule.ids>311,778,38500,75927</link.rule.ids><linktorsrc>$$Uhttps://data.europeana.eu/item/9200447/BibliographicResource_3000095543274$$EView_record_in_Europeana$$FView_record_in_$$GEuropeana$$Hfree_for_read</linktorsrc></links><search><creatorcontrib>Antonijević Đorđe</creatorcontrib><title>Variations of radiographic images of dental luting cements and composite posts depending on their composition and radiographic system used</title><description>Objectives. According to the International Standard Organization (ISO), the radiopacity of luting cements and dental posts should be equal to or greater than that of aluminum. The aims of these in vitro studies were: to determine the radiopacity of 13 commercially available dental luting cements and compare it with that of human enamel and dentin, to investigate the capacity of various radiopacifying agents to produce the difference in radiopacity on film and a CCD - based digital sensor, to evaluate the radiopacity of seven commercially available dental posts and determine the minimum radiopacity value necessitated for their clinical evaluation and to determine the threshold radiopacity value for detection of small thicknesses of dental luting cements in adjacent to implant abutment. Materials and Methods. Five classes of luting cements were evaluated: zinc phosphate (Cegal N and Harvard Zinc Phosphate), zinc polycarboxylate (Harvard Polycarboxylate and Hoffmann’s Carboxylate), glass ionomers (Ketac Cem Easymix, Ketac Cem Radiopaque and Fuji I), resin-modified glass ionomer (Rely X Luting), and resin cements (Multilink Automix, Variolink II, Speed CEM, Rely X Unicem Automix and Variolink Veneer). Teeth slices served as controls. Five specimens of each material measuring 8 mm in diameter and 1 mm thick were prepared and radiographed alongside tooth slices and an aluminum stepwedge using a Trophy Radiovisiography (RVG) sensor (Trophy Radiology, Cedex, France). The radiopacity values were expressed in mm Al and analyzed by the ANOVA and Tukey tests (P 0,05). Zinc phosphate, zinc polycarboxylate, and three of the resin cements presented radiopacity values that were significantly greater than that of enamel (P 0,05), but it was significant with respect to radiopacifier (P 0,05). Minimum radiopacity value of cement excess required for visualization of 0,1 mm thick cement overhang was 2,2 mm Al on conventional radiography and 1,7 mm Al on digital sensor. Conclusions. Almost all the investigated dental cements presented an acceptable radiopacity. Radiopacity of dental cements seems to depend more on the presence of elements with high atomic numbers than on the type of the material. Materials which incorporate CHI3 or BaSO4 as a radiopacifying agent are expected to be significantly more radiopaque on digital sensor than on film. All examined posts exceed the minimum ISO guideline of 1 mm of aluminum per millimeter of material and can be considered sufficiently radiopaque for clinical evaluation. For the detection of small thickness of cement overhang adjacent to implant abutment dental cements should experience greater radiopacity than recommended by relevant ISO standards. Digital radiography offers better possibilities for the detection of cement excesses than conventional radiography. After cementation of implant restorations with deep subgingival cement placements digital radiographs should be obtained to verify the presence or absence of retained cement. U skladu sa zahtevima koje propisuje međunarodna organizacija za standardizaciju (ISO) rendgenkontrastnost dentalnih cemenata i dentalnih kočića treba da bude veća od rendgenkontrastnosti iste debljine aluminijuma. Ciljevi sprovedenih in vitro istraživanja bili su da se: utvrdi rendgenkontrastnost različitih vrsta dentalnih cemenata na digitalnoj radiografiji uz upotrebu CCD digitalnog senzora, ispita kapacitet različitih radiografskih metoda da se ispita rendgenkontrastnost materijala zavisno kontrastnog sredstva prisutnog u materijalu, ustanovi rendgenkontrastnost različitih vrsta dentalnih kočića i njihova minimalna klinički prihvatljiva rendgenkontrasnost i da se ispitaju mogućnosti konvencionalne i digitalne radiografije u dijagnostikovanju zaostalog viška cementa na abatmentu nakon cementiranja protetskih restauracija. Materijali i metode. Pet kategorija cemenata za cementiranje protetskih nadoknada je korišćeno: dva cink fosfatna cementa (Cegal N i Harvard Zinc Phosphate), dva cink polikarboksilatna cementa (Harvard Polycarboxylate i Hoffmann’s Carboxylate), tri glas jonomerna cementa (Ketac Cem Easymix, Ketac Cem Radiopaque i Fuji I), jedan smolom modifikovani glas jonomerni cement (Rely X Luting) i pet kompozitnih cemenata (Multilink Automix, Variolink II, Speed CEM, Rely X Unicem Automix i Variolink Veneer). Uzorci gleđi i dentina su korišćeni kao kontrola. Po pet uzoraka svakog materijala prečnika 8 mm i debljine 1 mm je pripremljeno i radiografisano zajedno sa uzorcima humanih zubnih tkiva i aluminijumskim etalonom uz pomoć Trophy RVG digitalnog senzora (Trophy Radiology, Cedex, France). Rendgenkontrastnost materijala je izražavana u ekvivalentnoj debljini aluminijuma i analizirana uz pomoć ANOVA i Tukey testa (P 0,05), ali je bila statistički značajno različita u zavisnosti od upotrebljenog kontrastnog sredstva (P 0,05). Minimalna vrednost rendgenkontrastnosti viškova cementa koja omogućava vizuelizaciju viška cementa meziodistalnog promera 0,1 mm bila je 2,2 mm Al na konvencionalnom radiogramu i 1,7 mm Al na digitalnom senzoru. Zaključci. Većina ispitivanih cemenata za cementiranje fiksnih stomatoloških nadoknada pokazali su zadovoljavajući stepen rendgenkontrastnosti. Rendgenkontastnost dentalnih cemenata zavisi više od prisustva elemenata sa visokim atomskim brojevima nego od njihove kategorije. Može se očekivati da materijali koji u svom sastavu sadrže jodoform ili barijum ispolje veći stepen rendgenkontrastnosti na digitalnoj nego na konvencionalnoj radiografiji. Svi ispitivani dentalni kočići ispoljili su rendgenkontrastnost koja je bila veća od 1 mm aluminijuma koji je propisan u relevantnim ISO standardima i mogu se smatrati prihvatljivim za upotrebu u kliničkoj praksi. Za otkrivanje malih količina viškova cemenata uz abatment dentalni cementi moraju da poseduju veći stepen rendgenkontrastnosti od onog koji je propisan ISO standardima. Digitalna radiografija pruža bolje mogućnosti za detektovanje viškova cemenata od konvencionalne radiografije. Nakon cementiranja restauracija sa dubokim subgingivalnim položajem demarkacije na implantima neophodno je napraviti digitalne radiograme kako bi se verifikovalo prisustvo ili odsustvo potencijalnih viškova cemenata.</description><subject>cement</subject><subject>composite post</subject><subject>dentin</subject><subject>implant</subject><subject>kompozitni kočić</subject><subject>kontrastno sredstvo</subject><subject>luting cement</subject><subject>radiopacifier</subject><subject>radiopacity</subject><subject>rendgenkontrastnost</subject><fulltext>true</fulltext><rsrctype>dissertation</rsrctype><creationdate>2012</creationdate><recordtype>dissertation</recordtype><sourceid>1GC</sourceid><recordid>eNqtTksKwjAQ7caFqHeYCwilH4pbRelaxG0Zk2k7kGZKki68gqc2Fim4dzaPebzfOnnd0TEGFutBWnCoWTqHY88KeMCOZlqTDWjATIFtB4qG-HtAq0HJMIrnQBAhcppGsvqjEguhJ3aLJHbMlp8O__SBBpg86W2yatF42n1xk9SX8-1U72lyMhJabJQYQ2pe2xyyNC2Kqjnywyx5V_IyOUVNnsY7lGWRZ1WR_zHqDSIlaio</recordid><startdate>20120712</startdate><enddate>20120712</enddate><creator>Antonijević Đorđe</creator><general>University of Belgrade, Faculty of Stomatology</general><scope>1GC</scope></search><sort><creationdate>20120712</creationdate><title>Variations of radiographic images of dental luting cements and composite posts depending on their composition and radiographic system used</title><author>Antonijević Đorđe</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-europeana_collections_9200447_BibliographicResource_30000955432743</frbrgroupid><rsrctype>dissertations</rsrctype><prefilter>dissertations</prefilter><language>srp</language><creationdate>2012</creationdate><topic>cement</topic><topic>composite post</topic><topic>dentin</topic><topic>implant</topic><topic>kompozitni kočić</topic><topic>kontrastno sredstvo</topic><topic>luting cement</topic><topic>radiopacifier</topic><topic>radiopacity</topic><topic>rendgenkontrastnost</topic><toplevel>online_resources</toplevel><creatorcontrib>Antonijević Đorđe</creatorcontrib><collection>Europeana Collections</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Antonijević Đorđe</au><format>dissertation</format><genre>dissertation</genre><ristype>THES</ristype><Advisor>Zrilić Milorad</Advisor><Advisor>Obradović-Đuričić Kosovka</Advisor><Advisor>Dodić Slobodan</Advisor><Advisor>Todorović Aleksandar</Advisor><Advisor>Rakočević Zoran</Advisor><btitle>Variations of radiographic images of dental luting cements and composite posts depending on their composition and radiographic system used</btitle><date>2012-07-12</date><risdate>2012</risdate><abstract>Objectives. According to the International Standard Organization (ISO), the radiopacity of luting cements and dental posts should be equal to or greater than that of aluminum. The aims of these in vitro studies were: to determine the radiopacity of 13 commercially available dental luting cements and compare it with that of human enamel and dentin, to investigate the capacity of various radiopacifying agents to produce the difference in radiopacity on film and a CCD - based digital sensor, to evaluate the radiopacity of seven commercially available dental posts and determine the minimum radiopacity value necessitated for their clinical evaluation and to determine the threshold radiopacity value for detection of small thicknesses of dental luting cements in adjacent to implant abutment. Materials and Methods. Five classes of luting cements were evaluated: zinc phosphate (Cegal N and Harvard Zinc Phosphate), zinc polycarboxylate (Harvard Polycarboxylate and Hoffmann’s Carboxylate), glass ionomers (Ketac Cem Easymix, Ketac Cem Radiopaque and Fuji I), resin-modified glass ionomer (Rely X Luting), and resin cements (Multilink Automix, Variolink II, Speed CEM, Rely X Unicem Automix and Variolink Veneer). Teeth slices served as controls. Five specimens of each material measuring 8 mm in diameter and 1 mm thick were prepared and radiographed alongside tooth slices and an aluminum stepwedge using a Trophy Radiovisiography (RVG) sensor (Trophy Radiology, Cedex, France). The radiopacity values were expressed in mm Al and analyzed by the ANOVA and Tukey tests (P 0,05). Zinc phosphate, zinc polycarboxylate, and three of the resin cements presented radiopacity values that were significantly greater than that of enamel (P 0,05), but it was significant with respect to radiopacifier (P 0,05). Minimum radiopacity value of cement excess required for visualization of 0,1 mm thick cement overhang was 2,2 mm Al on conventional radiography and 1,7 mm Al on digital sensor. Conclusions. Almost all the investigated dental cements presented an acceptable radiopacity. Radiopacity of dental cements seems to depend more on the presence of elements with high atomic numbers than on the type of the material. Materials which incorporate CHI3 or BaSO4 as a radiopacifying agent are expected to be significantly more radiopaque on digital sensor than on film. All examined posts exceed the minimum ISO guideline of 1 mm of aluminum per millimeter of material and can be considered sufficiently radiopaque for clinical evaluation. For the detection of small thickness of cement overhang adjacent to implant abutment dental cements should experience greater radiopacity than recommended by relevant ISO standards. Digital radiography offers better possibilities for the detection of cement excesses than conventional radiography. After cementation of implant restorations with deep subgingival cement placements digital radiographs should be obtained to verify the presence or absence of retained cement. U skladu sa zahtevima koje propisuje međunarodna organizacija za standardizaciju (ISO) rendgenkontrastnost dentalnih cemenata i dentalnih kočića treba da bude veća od rendgenkontrastnosti iste debljine aluminijuma. Ciljevi sprovedenih in vitro istraživanja bili su da se: utvrdi rendgenkontrastnost različitih vrsta dentalnih cemenata na digitalnoj radiografiji uz upotrebu CCD digitalnog senzora, ispita kapacitet različitih radiografskih metoda da se ispita rendgenkontrastnost materijala zavisno kontrastnog sredstva prisutnog u materijalu, ustanovi rendgenkontrastnost različitih vrsta dentalnih kočića i njihova minimalna klinički prihvatljiva rendgenkontrasnost i da se ispitaju mogućnosti konvencionalne i digitalne radiografije u dijagnostikovanju zaostalog viška cementa na abatmentu nakon cementiranja protetskih restauracija. Materijali i metode. Pet kategorija cemenata za cementiranje protetskih nadoknada je korišćeno: dva cink fosfatna cementa (Cegal N i Harvard Zinc Phosphate), dva cink polikarboksilatna cementa (Harvard Polycarboxylate i Hoffmann’s Carboxylate), tri glas jonomerna cementa (Ketac Cem Easymix, Ketac Cem Radiopaque i Fuji I), jedan smolom modifikovani glas jonomerni cement (Rely X Luting) i pet kompozitnih cemenata (Multilink Automix, Variolink II, Speed CEM, Rely X Unicem Automix i Variolink Veneer). Uzorci gleđi i dentina su korišćeni kao kontrola. Po pet uzoraka svakog materijala prečnika 8 mm i debljine 1 mm je pripremljeno i radiografisano zajedno sa uzorcima humanih zubnih tkiva i aluminijumskim etalonom uz pomoć Trophy RVG digitalnog senzora (Trophy Radiology, Cedex, France). Rendgenkontrastnost materijala je izražavana u ekvivalentnoj debljini aluminijuma i analizirana uz pomoć ANOVA i Tukey testa (P 0,05), ali je bila statistički značajno različita u zavisnosti od upotrebljenog kontrastnog sredstva (P 0,05). Minimalna vrednost rendgenkontrastnosti viškova cementa koja omogućava vizuelizaciju viška cementa meziodistalnog promera 0,1 mm bila je 2,2 mm Al na konvencionalnom radiogramu i 1,7 mm Al na digitalnom senzoru. Zaključci. Većina ispitivanih cemenata za cementiranje fiksnih stomatoloških nadoknada pokazali su zadovoljavajući stepen rendgenkontrastnosti. Rendgenkontastnost dentalnih cemenata zavisi više od prisustva elemenata sa visokim atomskim brojevima nego od njihove kategorije. Može se očekivati da materijali koji u svom sastavu sadrže jodoform ili barijum ispolje veći stepen rendgenkontrastnosti na digitalnoj nego na konvencionalnoj radiografiji. Svi ispitivani dentalni kočići ispoljili su rendgenkontrastnost koja je bila veća od 1 mm aluminijuma koji je propisan u relevantnim ISO standardima i mogu se smatrati prihvatljivim za upotrebu u kliničkoj praksi. Za otkrivanje malih količina viškova cemenata uz abatment dentalni cementi moraju da poseduju veći stepen rendgenkontrastnosti od onog koji je propisan ISO standardima. Digitalna radiografija pruža bolje mogućnosti za detektovanje viškova cemenata od konvencionalne radiografije. Nakon cementiranja restauracija sa dubokim subgingivalnim položajem demarkacije na implantima neophodno je napraviti digitalne radiograme kako bi se verifikovalo prisustvo ili odsustvo potencijalnih viškova cemenata.</abstract><pub>University of Belgrade, Faculty of Stomatology</pub><oa>free_for_read</oa></addata></record>
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subjects	cement composite post dentin implant kompozitni kočić kontrastno sredstvo luting cement radiopacifier radiopacity rendgenkontrastnost
title	Variations of radiographic images of dental luting cements and composite posts depending on their composition and radiographic system used
url	https://sfx.bib-bvb.de/sfx_tum?ctx_ver=Z39.88-2004&ctx_enc=info:ofi/enc:UTF-8&ctx_tim=2025-01-17T06%3A58%3A36IST&url_ver=Z39.88-2004&url_ctx_fmt=infofi/fmt:kev:mtx:ctx&rfr_id=info:sid/primo.exlibrisgroup.com:primo3-Article-europeana_1GC&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&rft.genre=dissertation&rft.btitle=Variations%20of%20radiographic%20images%20of%20dental%20luting%20cements%20and%20composite%20posts%20depending%20on%20their%20composition%20and%20radiographic%20system%20used&rft.au=Antonijevi%C4%87%20%C4%90or%C4%91e&rft.date=2012-07-12&rft_id=info:doi/&rft_dat=%3Ceuropeana_1GC%3E9200447_BibliographicResource_3000095543274%3C/europeana_1GC%3E%3Curl%3E%3C/url%3E&disable_directlink=true&sfx.directlink=off&sfx.report_link=0&rft_id=info:oai/&rft_id=info:pmid/&rfr_iscdi=true