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Exposed Pulp (exposed + pulp)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

Pulpal responses to bacterial contamination following dentin bridging beneath hard-setting calcium hydroxide and self-etching adhesive resin system

DENTAL TRAUMATOLOGY, Issue 2 2008
Yuichi Kitasako
Class V cavities were prepared on 30 monkey teeth, and the pulps were exposed with a carbide bur through the cavity floor. Each exposed pulp was capped with either DY or 2V. The cavities were restored with a hybrid resin composite. The resin composite was removed at 180 days after capping, and then cavities were left open to the oral environment for 2 weeks to obtain bacteria contamination DY (BDY) and 2V (B2V; n = 10). A non-bacterial-contaminated group capped with DY was used as control. After bacterial challenges, inflammatory cell infiltration, incidence and differentiation of dentin bridges were evaluated histologically. There were significant differences in the presence of inflammatory cell infiltration among all groups (P < 0.05). No moderate or severe inflammatory reaction was found in Group DY. Group BDY showed moderate or severe inflammatory cell infiltration in 50%, and showed four necrotic specimens. Although no statistically significant difference was found in the formation and differentiation of dentin bridges among all groups, tunnel defects in dentin bridges were detected in 70% (DY), 80% (BDY), and 50% (B2V). Group B2V showed a significantly lower presence of inflammatory cell infiltration than Group BDY (P < 0.05). Bonding agent is supposed to seal the exposure site, and the remaining bonding agent on the cavities was effective as the barrier in the dentin bridges after bacterial challenges. [source]

Pulp capping with adhesive resin-based composite vs. calcium hydroxide: a review

DENTAL TRAUMATOLOGY, Issue 6 2000
A. H. B. Schuurs
Abstract , The results of some short-term experiments suggest that direct capping of a vital pulp with the modern resin-based composite systems may be as effective as capping with calcium hydroxide. Total cavity etching with 10% phosphoric acid seems to be safe for the exposed pulp, but unless annulled by calcium hydroxide 35% phosphoric acid may be disastrous. For hemostasis and cleaning of the pulp wound both sodium hypochlorite and saline seem suitable, whereas the effectiveness of a 2% chlorhexidine solution is questionable. Although hard-setting calcium hydroxide cements may induce the formation of dentin bridges, they appear not to provide an effective long-term seal against bacterial factors. Within a few years, the majority of mechanically exposed and capped pulps show infection and necrosis due to microleakage of such capping materials and tunnel defects in the dentin bridges. It is unknown whether newer types of resin containing calcium-hydroxide-products will act as a permanent barrier. The cytotoxicity of the resin-based composites and the temperature rise during polymerisation may not be of concern, but microleakage, sensitisation and allergic reactions may pose problems. Based on available data, pulp capping with resin-based composites may be said to be promising, but more and long-term research is mandatory before the method can be recommended. [source]

A retrospective study of treatment provided in the primary and secondary care services for children attending a dental hospital following complicated crown fracture in the permanent dentition

INTERNATIONAL JOURNAL OF PAEDIATRIC DENTISTRY, Issue 3 2000
A. Maguire
Objectives. To investigate treatment provision in primary and secondary dental care following complicated crown fracture of permanent teeth. Design and methods. Retrospective observational survey of dental records of all patients attending a dental hospital trauma clinic during a 2-year period with complicated crown fracture. Results. Eighty children (70% male) aged 6,16 years (mean age 10·3 years) with 98 complicated crown fractures were identified. Of these children, 54% were seen for emergency treatment on the day of their injury, 75% within 48 h. Of the 98 injured teeth, 60% were seen initially in general dental practice but only 56% of these 59 cases were provided with emergency treatment in practice, the others being referred immediately to the trauma clinic for treatment. The main cause of fractures was transport, in particular, bicycles. Radiographs were available for 96 teeth; for the 43 open apex teeth, the definitive treatment was pulp capping (44% of cases) and pulpotomy (30%), with vitality maintained in five cases up to 4·8 years after trauma. The 53 closed apex cases were treated definitively with pulp capping (38%) and pulpectomy (36%) and six teeth had maintained their vitality up to 4·3 years after trauma. Sixty-seven per cent of the pulp caps and 47% of the 19 pulpotomies provided relied on a doubtful coronal seal. This was primarily due to the extensive use of a conventional glass ionomer cement as an emergency bandage. The use of an etched or bonded material at initial presentation extended the Median Survival Time for vitality in open apex teeth from 188 to 377 days and in closed apex teeth from 15 to 64 days. Conclusions. Emergency treatment of complicated crown fractures, particularly in primary care services is often inappropriate or inadequate with regard to emergency management of the exposed pulp and provision of a hermetic coronal seal. [source]

A comparative histological analysis of human pulp following direct pulp capping with Propolis, mineral trioxide aggregate and Dycal

AUSTRALIAN DENTAL JOURNAL, Issue 1 2010
A Parolia
Abstract Background:, Permanent teeth pulp exposures have traditionally been treated with calcium hydroxide pulp capping. The aim of this study was to investigate the response of human pulp tissue which were mechanically exposed to a new material, Propolis and compare it with two existing and commonly used pulp capping agents (mineral trioxide aggregate and Dycal). Methods:, Thirty-six intact human premolars were mechanically exposed. Teeth were divided into six groups of 6 teeth each and were capped with Propolis, mineral trioxide aggregate and Dycal. Final restoration was done with posterior composite resin using light cured glass ionomer cement as a liner. The teeth were then extracted on the 15th or the 45th day and processed for histological evaluation. Results:, Differences in inflammatory response and dentine bridge formation of the exposed pulp to the three different materials were statistically calculated using chi-square test and were found to be non-significant. There was more pulp inflammation in teeth treated with Dycal than with Propolis and MTA on the 15th as well as on the 45th day. Propolis and MTA showed bridge formation in more teeth, and the bridges were in closer proximity to pulp capping material than teeth treated with Dycal on the 45th day. Conclusions:, The response of pulps to Propolis as a pulp capping agent was comparable to MTA and Dycal. [source]

Therapeutic and economic implications of traumatic dental injuries in Denmark: an estimate based on 7549 patients treated at a major trauma centre

INTERNATIONAL JOURNAL OF PAEDIATRIC DENTISTRY, Issue 4 2001
Mette Kit Borum
Aim. To analyse the type and extent of injuries presented by patients seeking treatment for traumatic dental injuries at a major trauma centre. Furthermore, to analyse acute and subsequent treatment demands and treatment costs. Methods. A therapeutic and economic analysis was performed of 7549 patients treated for traumatic dental injuries in a major trauma centre located at the University Hospital in Copenhagen, Denmark. Cases were divided into uncomplicated (concussion, subluxation, enamel and enamel-dentine fractures) and complicated cases (crown fractures with exposed pulps and crown-root fractures, luxation injuries with displacement of the tooth and bone fractures). Results. Primary tooth injuries were found in 2874 patients, involving 5443 teeth, among which 62·8% had complicated injuries. Permanent tooth injuries were found in 4525 patients, involving 10673 teeth, among which 40·4% had complicated injuries. The cost of treatment (including acute trauma service, follow-up and subsequent restoration) was estimated to be 0·6,1 mill USD a year for the patients treated in this trauma centre. If this figure is transferred to the estimated trauma population in Denmark, a yearly cost of traumatic dental injuries appears to range from 2 to 5 mill USD per 1 mill inhabitants per year according to the treatment scenario. Conclusion. Thus, treatment of traumatic dental injuries comprises an expensive part of the health services in Denmark. [source]

Reaction of rat pulp tissue to Carisolv ,new gel',-A histocytological evaluation

AUSTRALIAN DENTAL JOURNAL, Issue 1 2006
T. Dammaschke
Abstract Background: This study was an histological examination of pulp tissue exposed to Carisolv ,new gel' after 1 to 28 days. Methods: An occlusal cavity was prepared in 64 caries-free molar teeth of 16 Wistar rats. The roofsof the pulp chambers were perforated and Carisolv ,new gel' solution was placed onto the exposed pulps of 32 molar teeth for 20 minutes. Thirty-two contralateral molar teeth served as controls and were coated with an inert liquid containing isotonic saline solution and carmellose for 20 minutes as well. The pulps of all teeth were capped with Ca(OH)2 and the cavities were filled with a flowable composite in combination with a self-etching dentine adhesive. The animals were sacrificed after 1, 3, 7 and 28 days. Eight teeth per group and the time period were histologically examined, scored, and statistically evaluated (Wilcoxon-test). Results: The results showed no statistically significant differences between the Carisolv group and the control group (p>0.05). The observed pulp reaction was essentially the same as those reported in the past being typical for the effect of calcium hydroxide as a direct pulp capping agent. Conclusion: Compared to Ca(OH)2, Carisolv ,new gel' did not cause any different or additional pulp reaction in healthy teeth. [source]