Dental Cement
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Dental cements have a wide range of dental and orthodontic applications. Common uses include temporary restoration of teeth, cavity linings to provide pulpal protection, sedation or insulation and cementing fixed prosthodontic appliances. Recent uses of dental cement also include two-photon
calcium imaging Calcium imaging is a microscopy technique to optically measure the calcium (Ca2+) status of an isolated cell, tissue or medium. Calcium imaging takes advantage of calcium indicators, fluorescent molecules that respond to the binding of Ca2+ ions ...
of neuronal activity in brains of animal models in basic experimental
neuroscience Neuroscience is the scientific study of the nervous system (the brain, spinal cord, and peripheral nervous system), its functions and disorders. It is a multidisciplinary science that combines physiology, anatomy, molecular biology, developme ...
. Traditional cements have separate powder and liquid components which are manually mixed to form a viscous liquid. The liquid sets to form a brittle solid after application on the treated surface. More advanced cements, such as GIC, can come in capsules and are mechanically mixed using rotating or oscillating mixing machines.


Ideal cement properties

* Non irritant – many cements are acidic and irritate the pulp. However, on setting there is a rapid increase in pH. Polycarboxylate cement is considered the most biocompatible type due to having the most rapid pH rise. * Provide a good marginal seal to prevent marginal leakage. * Resistant to dissolution in saliva, or other oral fluid – a primary cause of cement failure is dissolution of the cement at the margins of a restoration. * High strength in tension, shear and compression to resist stress at the restoration-tooth interface. * Adequate working and setting time. * Good aesthetics. * Good thermal and chemical resistance. * Opacity – for diagnostic purposes on
radiograph Radiography is an imaging technique using X-rays, gamma rays, or similar ionizing radiation and non-ionizing radiation to view the internal form of an object. Applications of radiography include medical radiography ("diagnostic" and "therapeut ...
s. * Low film thickness (ideally 25 microns). * Retention – if an adhesive bond occurs between the cement and the restorative material, retention is greatly enhanced. Otherwise, the retention depends on the geometry of the tooth preparation.


Cements Based on Phosphoric Acid


Dental Cements Based on Organometallic Chelate Compounds


Dental applications

Dental cements can be utilised in a variety of ways depending on the composition and mixture of the material. The following categories outline the main uses of cements in dental procedures.


Temporary restorations

Unlike
composite Composite or compositing may refer to: Materials * Composite material, a material that is made from several different substances ** Metal matrix composite, composed of metal and other parts ** Cermet, a composite of ceramic and metallic materials ...
and
amalgam Amalgam most commonly refers to: * Amalgam (chemistry), mercury alloy * Amalgam (dentistry), material of silver tooth fillings ** Bonded amalgam, used in dentistry Amalgam may also refer to: * Amalgam Comics, a publisher * Amalgam Digital ...
restorations, cements are usually used as a temporary restorative material. This is generally due to their reduced mechanical properties which may not withstand long-term occlusal load. * ''GIC –
Glass Ionomer cement A glass ionomer cement (GIC) is a dental restorative material used in dentistry as a filling material and luting cement, including for orthodontic bracket attachment. Glass-ionomer cements are based on the reaction of silicate glass-powder (calc ...
'' * ''Zinc Polycarboxylate cement'' * ''Zinc Oxide Eugenol cement'' * ''RMGIC'' *"dentsply" cement


Bonded amalgam restorations

Amalgam Amalgam most commonly refers to: * Amalgam (chemistry), mercury alloy * Amalgam (dentistry), material of silver tooth fillings ** Bonded amalgam, used in dentistry Amalgam may also refer to: * Amalgam Comics, a publisher * Amalgam Digital ...
does not bond to tooth tissue and therefore requires mechanical retention in the form of undercuts, slots and grooves. However, if insufficient tooth tissue remains after cavity preparation to provide such retentive features, a cement can be utilised to help retain the amalgam in the cavity. Historically, ''zinc phosphate'' and ''polycarboxylate cements'' were used for this technique, however since the mid-1980s composite resins have been the material of choice due to their adhesive properties. Common resin cements utilised for bonded amalgams are ''RMGIC'' and ''dual-cure resin based composite''.


Liners and pulp protection

When a cavity reaches close proximity to the pulp chamber, it is advisable to protect the pulp from further insult by placing a base or liner as a means of insulation from the definitive restoration. Cements indicated for liners and bases include: * ''Zinc oxide eugenol'' * ''Zinc polycaroxylate'' * ''RMGIC''
Pulp capping Pulp capping is a technique used in dental restorations to prevent the dental pulp from necrosis, after being exposed, or nearly exposed during a cavity preparation, from a traumatic injury, or by a deep cavity that reaches the center of the too ...
is a method to protect the pulp chamber if the clinician suspects it may have been exposed by caries or cavity preparation. Indirect pulp caps are indicated for suspected micro-exposures whereas direct pulp caps are place on a visibly exposed pulp. In order to encourage pulpal recovery, it is important to use a sedative, non-cytotoxic material such as ''Setting Calcium Hydroxide cement''.


Luting cements

Luting Lute (from Latin ''Lutum'', meaning mud, clay etc.) was a substance used to seal and affix apparatus employed in chemistry and alchemy, and to protect component vessels against heat damage by fire; it was also used to line furnaces. ''Lutation ...
materials are used to cement fixed prosthodontics such as crowns and bridges. Luting cements are often of similar composition to restorative cements, however they usually have less filler meaning the cement is less viscous. * ''RMGIC'' * ''GIC'' * ''Zinc Polycarboxylate cement'' * ''Zinc oxide eugenol luting cement''


Summary of clinical applications


Composition and classification

ISO classification Cements are classified on the basis of their components. Generally, they can be classified into categories: * Water-based acid-base cements:
zinc phosphate Zinc phosphate is an inorganic compound with the formula Zn3( PO4)2. This white powder is widely used as a corrosion resistant coating on metal surfaces either as part of an electroplating process or applied as a primer pigment (see also red lea ...
(Zn3(PO4)2), Zinc Polyacrylate (Polycarboxylate), glass ionomer (GIC). These contain metal oxide or silicate fillers embedded in a salt matrix. * Non-aqueous/ oil bases acid-base cements: Zinc oxide eugenol and Non-eugenol
zinc oxide Zinc oxide is an inorganic compound with the formula . It is a white powder that is insoluble in water. ZnO is used as an additive in numerous materials and products including cosmetics, food supplements, rubbers, plastics, ceramics, glass, cement ...
. These contain metal oxide fillers embedded in a metal salt matrix. * Resin-based:
Acrylate Acrylates (IUPAC: prop-2-enoates) are the salts, esters, and conjugate bases of acrylic acid. The acrylate ion is the anion C H2=CHC OO−. Often, acrylate refers to esters of acrylic acid, the most common member being methyl acrylate. These acr ...
or
methacrylate Methacrylates are derivatives of methacrylic acid. * Methyl methacrylate * Ethyl methacrylate * Butyl methacrylate * Hydroxyethyl methacrylate * Glycidyl methacrylate Glycidyl methacrylate (GMA) is an ester of methacrylic acid and glycidol. Co ...
resin cements, including the latest generation of self-adhesive resin cements that contain silicate or other types of fillers in an organic resin matrix. Cements can be classified based on the type of their matrix: *
Phosphate In chemistry, a phosphate is an anion, salt, functional group or ester derived from a phosphoric acid. It most commonly means orthophosphate, a derivative of orthophosphoric acid . The phosphate or orthophosphate ion is derived from phospho ...
(
zinc phosphate Zinc phosphate is an inorganic compound with the formula Zn3( PO4)2. This white powder is widely used as a corrosion resistant coating on metal surfaces either as part of an electroplating process or applied as a primer pigment (see also red lea ...
, silico phosphate) * Polycarboxylate (zinc polycarboxylate, glass ionomer) *
Phenolate Phenolates (also called phenoxides) are anions, salts, and esters of phenols. They may be formed by reaction of phenols with strong base. Properties Alkali metal phenolates, such as sodium phenolate hydrolyze in aqueous solution to form basic s ...
(Zinc oxide–eugenol and
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) *
Resin In polymer chemistry and materials science, resin is a solid or highly viscous substance of plant or synthetic origin that is typically convertible into polymers. Resins are usually mixtures of organic compounds. This article focuses on natu ...
(polymeric) Based on time of use: * Conventional (
Zinc phosphate Zinc phosphate is an inorganic compound with the formula Zn3( PO4)2. This white powder is widely used as a corrosion resistant coating on metal surfaces either as part of an electroplating process or applied as a primer pigment (see also red lea ...
, Zinc polycarboxylate, Zinc oxide eugenol,
glass ionomer cement A glass ionomer cement (GIC) is a dental restorative material used in dentistry as a filling material and luting cement, including for orthodontic bracket attachment. Glass-ionomer cements are based on the reaction of silicate glass-powder (calc ...
) * Contemporary (
resin cements In polymer chemistry and materials science, resin is a solid or highly viscous substance of plant or synthetic origin that is typically convertible into polymers. Resins are usually mixtures of organic compounds. This article focuses on natu ...
, resin modified glass ionomers).


Resin-based cements

These cements are resin based composites. They are commonly used to definitively cement indirect restorations, especially resin bonded bridges and ceramic or indirect composite restorations, to the tooth tissue. They are usually used in conjunction with a bonding agent as they have no ability to bond to the tooth, although there are some products that can be applied directly to the tooth (self-etching products). Panavia was created in Tamil Nadu, India. The name panavia in Hindi Sanskrit means "stick to a tooth". It is described to be one of the toughest cements in the world. There are 3 main resin based cements; * Light-cured – required a curing lamp to complete set * Dual-cured – can be light cured at the restoration margins but chemically cure in areas that the curing lamp cannot penetrate * Self-etch – these etch the tooth surface and do not require an intermediate bonding agent Resin cements come in a range of shades to improve aesthetics.


Mechanical Properties

# Fracture Toughness #* Thermocycling significantly reduces the fracture toughness of all resin-based cements except RelyX Unicem 2 AND G-CEM LinkAce. # Compressive Strength #* All automixed resin-based cements have greater compressive strength than hand-mixed counterpart, except for Variolink II.


Zinc polycarboxylate cements

Zinc polycarbonate was invented in 1968 and was revolutionary as it was the first cement to exhibit the ability to chemically bond to the tooth surface. Very little pulpal irritation is seen with its use due to the large size of the polyacrylic acid molecule. This cement is commonly used for the instillation of crowns, bridges, inlays, onlays, and orthodontic appliances. Composition: * Powder + liquid reaction * Zinc oxide (powder) + poly(acrylic) acid (liquid) = Zinc polycarboxylate * Zinc polycarboxylate is also sometimes referred to as zinc polyacrylate or zinc polyalkenoate * Components of the powder include zinc oxide, Stannous fluoride, magnesium oxide, silica and also alumina * Components of the liquid include poly(acrylic) acid, itaconic acid and maleic acid. Adhesion: * Zinc polycarboxylate cements adhere to enamel and dentine by means of chelation reaction. Indications for use: * Temporary restorations * Inflamed pulp * Bases * Cementation of crowns


Zinc Phosphate Cements

Zinc phosphate was the very first dental cement to appear on the dental marketplace and is seen as the “standard” for other dental cements to be compared to. The many uses of this cement include permanent cementation of crowns, orthodontic appliances, intraoral splints, inlays, post systems, and fixed partial dentures. Zinc phosphate exhibits a very high compressive strength, average tensile strength and appropriate film thickness when applies according to manufacture guidelines. However the issues with the clinical use of zinc phosphate is its initially low PH when applied in an oral environment (this linked to pulpal irritation) and the cements inability to chemically bond to the tooth surface although this hasn't affected the successful long term use of the material. Composition: * Phosphoric acid liquid * Zinc Oxide powder Formerly known as the most commonly used luting agent. Zinc Phosphate Cement works successfully for permanent cementation, it does not possess anticariogenic effect, not adherent to tooth structure, acquires a moderate degree of intraoral solubility. However, Zinc Phosphate cement can irritate nerve pulp hence pulp protection is required but the use of polycarboxylate cement (Zinc polycarboxylate, glass ionomer) is highly recommended since it is a more biologically compatible cement.


Known contraindications of dental cements

Dental materials such as filling and orthodontic instruments must satisfy biocompatibility requirements as they will be in the oral cavity for a long period of time. Some dental cements can contain chemicals that may induce allergic reactions on various tissues in the oral cavity. Common allergic reactions include stomatitis/dermatitis,
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, swelling,
rash A rash is a change of the human skin which affects its color, appearance, or texture. A rash may be localized in one part of the body, or affect all the skin. Rashes may cause the skin to change color, itch, become warm, bumpy, chapped, dry, c ...
and
rhinorrhea Rhinorrhea, rhinorrhoea, or informally runny nose is the free discharge of a thin mucus fluid from the nose; it is a common condition. It is a common symptom of allergies ( hay fever) or certain viral infections, such as the common cold or CO ...
. These may predispose to life-threatening conditions such as
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,
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and cardiac arrhythmias. Eugenol is widely used in dentistry for different applications including impression pastes, periodontal dressings, cements, filling materials, endodontic sealers and dry socket dressings. Zinc oxide eugenol is a cement commonly used for provisional restorations and root canal obturation. Although classified as non-cariogenic by the Food and Drug Administration, eugenol is proven to be cytotoxic with the risk of anaphylactic reactions in certain patients. Zinc oxide eugenol constituents a mixture of zinc oxide and eugenol to form a polymerised eugenol cement. The setting reaction produces an end product called zinc eugenolate which readily hydrolyses producing free eugenol that causes adverse effects on fibroblast and osteoclast-like cells. At high concentrations localised necrosis and reduced healing occurs whereas for low concentrations contact dermatitis is the common clinical manifestation. Allergy contact dermatitis has been proven to be the highest clinical occurrence usually localised to soft tissues with buccal mucosa being the most prevalent. Normally a patch test done by dermatologists will be used to diagnose the condition. Glass Ionomer cements have been used to substitute zinc oxide eugenol cements (thus removing the allergen), with positive outcome from patients.Deshpande A N, Verma S, Macwan C. January 2014. Allergic Reaction Associated with the use of Eugenol Containing Dental Cement in a Young Child. Research Gate.


References

* Acid-base Cements (1993) A. D. Wilson and J.W. Nicholson {{Authority control Dental materials