Description

Introduction

Resin-based fissure sealants (FS) have been used as a physical barrier in pit-and-fissures with the aim to reduce biofilm accumulation and prevent the development of new caries lesions in first permanent molars. Several international guidelines recommend the use of FS for caries prevention in the paediatric population.

The majority of the FS manufactures recommend the etching of the enamel surface prior to FS application in order to remove any remaining plaque debris and to increase the surface contact area by superficial demineralisation of tooth surface. Resin based-fissure sealants contain light-activated urethane dimethacrylate (UDMA) or bisphenol A-glycidyl methacrylate (Bis-GMA) resin in its composition which bonds to the etched enamel. Several clinical studies have investigated the use of an intermediate layer of adhesive system (primer and bond) in order to increase the bonding strength and increase retention of FS over time in caries free molars, however little is known on the effect on caries progression and the choice of FS protocol for treatment of enamel caries lesions.

Another factor that can influence the performance of resin-based fissure sealant due to hydrophobic characteristics of the material is the presence of saliva contamination (poor moisture control) during application. Therefore, the stage of eruption, patient's behaviour and operator experience can play a major role when it comes to FS retention on tooth surfaces. The majority of clinical trials in the field had trained and experienced operators, including specialists in paediatric dentistry, which could impact the translational and external validity of their findings. More studies are needed with less experienced operators in order to evaluate the effectiveness of FS placement in different environments.

Therefore, the aim of the present randomised clinical trial is to evaluate the effectiveness of resin-based fissure sealant placed by undergraduate dental students with or without an intermediate layer of adhesive system in terms of dentine caries prevention and retention over time.

Methods

Study Design The present study is a two-parallel arm, controlled, single-blind clinical trial. This study will be registered at Clinical Trials website and submitted to approval by the local Ethics Committee (SJH/AMNCH Joint Research Ethics Committee).

Sample Size Calculation For the sample size calculation, we have considered the results of a previous study from McCafferty & O'Connell 2016 (difference of sealant retention between the groups of 13%; bonded 92% and non-bonded 79%). The sample size calculation was performed using https://www.sealedenvelope.com/ website using a significance level of 5% (alpha) and a power of 80% (1-beta). A minimum sample of 112 teeth per group was required. We increased the sample size by 40% to compensate the cluster effect (more than one tooth can be included per child) and possible loss to follow-up. The final sample required is 313 teeth.

Randomisation process The randomisation unit is the tooth and more than one tooth can be included per child. The website https://www.sealedenvelope.com/simple-randomiser/v1/lists will be used for randomisation list generation, using blocks of different sizes (4, 6 and 8). Sealed, sequentially numbered, opaque envelopes will be used and opened at the time of sealant placement.

Operators All sealants will be placed by undergraduate dental students during the undergraduate clinic in Paediatric Dentistry. The treatment will be supervised by an experienced dentist/clinical supervisor.

Interventions

Control group (FS)

1. Cotton roll isolation: cotton roll will be placed buccally and lingually/palatally to the first permanent molar to be treated. A saliva ejector will be used to remove any excess of saliva. If the cotton roll are saturared in saliva at any point of the treatment, they will need to be changed.
2. Etching of the enamel surface: 17% phosphoric acid will be applied for 15 seconds over the surface to be sealed (Phosphoric etchant gel - Vococid, VOCO) using the etch syringe applicator tip.
3. Washing/drying: a 3-1 syringe will be used to rinse all etch material from the toothsurface. A high volume suction will be used. Cotton pellets will be changed to a dry ones at this stage and the surface will be dried for 5s using the air syringe.
4. Sealant application: a light-curing nano-hybrid fissure sealant material (Grandio Seal; VOCO) will be applied using the applicator tip. A probe will be used to ensure that the material is present in all fissures without any air bubbles.
5. Lightcuring: The material will be lightcured for 20 seconds. The material colour will change to an opaque off white colour when exposed to light.
6. Check occlusion: After checking for premature contact points, if there is a need to remove a excess of material, a superfine diamond bur or a silicone finishing point can be used for adjustments.

Test group (Adhesive + FS)

1. Cotton roll isolation: cotton roll will be placed buccally and lingually/palatally to the first permanent molar to be treated. A saliva ejector will be used to remove any excess of saliva. If the cotton roll are saturared in saliva at any point of the treatment, they will need to be changed.
2. Etching of the enamel surface: 17% phosphoric acid will be applied for 15 seconds over the surface to be sealed (Phosphoric etchant gel - Vococid, VOCO) using the etch syringe applicator tip.
3. Washing/drying: a 3-1 syringe will be used to rinse all etch material from the toothsurface. A high volume suction will be used. Cotton pellets will be changed to a dry ones at this stage and the surface will be dried for 5s using the air syringe.
4. Adhesive system application: the adhesive system (Futurabond, VOCO) single dose capsule will be applied over the surface to be sealed for 5 seconds using a microbrush (ative movements along the fissures to ensure bond penetration). The bond will be air thin dried for removal of solvent and excess material. The bond will be lightcured for 10s before sealant placement.
5. Sealant application: a light-curing nano-hybrid fissure sealant material (Grandio Seal; VOCO) will be applied using the applicator tip. A probe will be used to ensure that the material is present in all fissures without any air bubbles.
6. Lightcuring: The material will be lightcured for 20 seconds. The material colour will change to an opaque off white colour when exposed to light.
7. Check occlusion: After checking for premature contact points, if there is a need to remove a excess of material, a superfine diamond bur or a silicone finishing point can be used for adjustments.

Clinical variables such as children's age and gender, tooth position (upper/lower), caries experience (DMFT/dmft), ICDAS score tooth surface (1/2/3), and children's behavior during the procedure (Frankl scale) will be collected.

Evaluations

All children will be evaluated after 12 and 24 months by independent calibrated and blind examiners for both primary (sealant retention) and secondary outcomes.

The presence of dental caries lesion will evaluated according to ICDAS criteria and caries progression into dentine will be recorded. Sealant retention will be evaluated according to the scoring system proposed by Oba et al. 2009: 0 (fully retained sealant); 1 (partially retained sealant) or 2 (absent sealant).