Classificatiorhacc. to Black Class I. Pit and fissure caries lenka.roubalikova@ti scali.cz Classificatiorhacc. to Black • Class II. Proximal surfaces in pre lenka.roubalikova@ti scali.cz Classification acc. to Black Class III. Proximal surfaces of incisors and canines without lost an incisal ridge lenka.roubalikova@ti scali.cz Classificatiorhacc. to Black Class IV. Proximal surfaces of incisors and canines with lost an incisal ridge lenka.roubalikova@ti scali.cz Classificatiorhacc. to Black Class V. cervical lesions lenka.roubalikova@ti scali.cz 5 Bastedles preparation of cavities Access to the cavity ^Xsxv Outlines - cavosurface margin (extention for prevention) Retention Resistance Excavation of carious dentin Preparation of borders - finishing Control lenka.roubalikova@ti g scali.cz J* Úprava sklovinných stěn lenka.roubalikova@ti scali.cz Protection of dentin wound • Dentin wound - open dentin tubules -movement of dentinal liquor - hydrody effect. Phycial rasons -thermal -osmotic Chemical reasons Combination namic lenka.roubalikova@ti scali.cz Protection of dentin wound Isolation Base Lining Subbase Adhesive systems (explanation! later) lenka.roubalikova@ti scali.cz 17 Maki Railings Filling replaces lost hard dentalü tissue anatomically and functionally Always different properties in comparison to hard dental tissues. lenka.roubalikova@ti scali.cz 18 Lining Preparation^the cavity l.st class acc. to Black Cavities in fissures and pits^^ (Occlusal surfaces of premolars molars and in f. coeca) F. Coeca: buccal surfaces of lower 1 molars, Palatal surfaces of lower molars, palatal surfaces od canines. All pit and fissure restorations. They are assigned in to three groups. R. on occlusal surface of premolars and molars R. in foramina coeca - usually on occlusal two thirds of the facial and linaual surfaces of molars. Materials: Amalgam^Gomposite. Amalgam: Pertinent material qualities and'propeties Strength Longevity Ease of use Clinically proven sucess Indications Moderate to large restorations Restorations that are not in highly aesthetics areas Restorations that have heavy occlusal contacts Restorations that cannot be well isolated Restorations that extend onto the root surfac Foundations Abutmjent teeth for removable partioal dentures Temporary or caries control restorations. Contraindications Aesthetically prominent areas of posterior teeth Small moderate classes I. that cart b well isolated Access tcMtie cavity From the occlusal surface using the fissure bur (or diamond burs, s below). Outline Ideal outline includes all occlusal pits and fissures. If crista transvers obliqua are no affected, it is recommended no to prepare them Vytvořen nob rysu kavity a eventivní extenze Kavita zaujímá veškeré rýhy ústící d Ložiska (kavita kopíruje fissurální komplex). Crista obliqua nebo crista transversa se ponechává, není - li zasažena kazem. Kavity na molárech Zachování crista obliqua 6 7 8 Retention principles Prepare the box - the bottom is ip dentin Undercuts can be prepared, the proximal ridges must not be weakened Retentiorhprinciples Box in dentin Resistance principles Box - space for amalgam 1,5 - 2 mm Keep the facial and lingual margin extensionsas minimal as possible between the central groove and the cusp tips. \ Extending the outline to include fissures, thereby placing the margins on relatively smooth sound tooth structure. Minimally extending into the marginal ridge withoU removing dentinal support. Never leave the enamel undermined All corners are round, the bottom smooth. Removal of carious, infected, dentin and remaining defective enamel. Spoon excavator or a slowly revolving , round carbid bur of appropriate size Finishing and polishing • Fine grit diamond bur. \^ Preparatldrhof borders and final check Smoother! (red coced diamond F.Coecum Preparation islimited on carious lesion only undercts Preparationfor composit Cavity is limited on the carious legion It has a form of deeper dish No undercuts More single cavities can be prepared Preparation^ inlay Inlay is a rigid filling It is fabricated out of oral cavity inMental lab ^ It is luted into the cavity using luting material -cement Preparation is different - the walls are divergent For inlay For amalgam For composit I n fay s • Rigid fillings • Manufactured in a dental lab • Direct or indirect method - Direct method rarely - Indirect method most common Inlay • Crown inlay \^ - a part of a clinical crown is replace Root canal inlay 1 The inlay is cemented into the root canal and replaces a crown (abutment tooth - stump, snag) CrowUHJilay > Composit > Ceramics > Metal Alloys Crown irilays Indikations • A big lost of dental tissues • Big interdental spaces • Next to the crowns and bridges made of metal alloy CrowrHqlays Contraindication 1. Too small - shallow (flat) cavities 2. High caries risk 3. Frontal area (metallic) Angle of conyergency > 0° - maximum > 6° - very good > 15°- acceptable > 20° - insuficient Optimum 6° - 15°. BasicTtiles of cavity preparation >Box > No undercuts > Light divergence of the walls (facilitatin shape) \Box Underc Simple box Facilitating form Inlay of metal alloy • Direct method • Indirect method nlay ofrhetal alloy > Direct method Direct modellation in the mouth Special wax - casting wax, (special polymers) Sprue pin Investment Method of the lost wax Inlay of metal alloy Direct method > Central cavities (class L, classs V.) > Root canal inlays Inlay of metal alloy Indirect method Taking of the impression Model Modellation of the casting wax, (special polymers) Sprue pin Investment Method of the lost wax Aesthetic inlays - composite materials, ceramics Special procedure Indirect method always CAD/CAM technology posible Protection ofidentin wound Against thermal or electric irritation Against chemical irritation Protection oíidentin wound Base - zinc phosphate cement Calcium hydroxide - caries next to dental pulp