QUESTION 2 Characteristics of elastic impression materials


The art of taking impressions

High-quality impressions form the basis for successful prosthetic restorations. However, the variety of materials and methods for obtaining them provokes confusion, which can negatively affect the success of dental treatment. In this article we will look at the impression as a unique form of art, analyze the characteristics of the most commonly used materials, indications for their use and techniques of use that allow us to achieve the proper quality of the negative image of the tissues of the prosthetic bed.


Despite the fact that scanners represent an excellent alternative to classic impressions, the latter continue to be frequently used in everyday dental practice. According to a recent survey, it was found that about 76% of dentists prefer to use a scanner rather than taking a physical impression, but only 48% of dentists actually use a scanner in all practical cases where there is a choice between one and a classic impression . In essence, an adequate impression is a detailed representation of the tissues of the oral cavity. It allows you to accurately copy the boundaries of the preparation and soft tissues, and the tooth stumps themselves in relation to other structures of the dentofacial apparatus. The quality of the impression directly affects the further accuracy of the fit of the orthopedic structure. However, obtaining them is sometimes complicated due to the gag reflex and the patient’s feeling of subjective discomfort. The correct choice of material and technique for obtaining an impression largely determines the ability to bypass all potential limitations during manipulation.

Evolution of impression materials

Impression materials were first introduced around the 1700s when Philipp Pfaff proposed the use of softened wax. Later, doctors began to use other materials. The main disadvantage of wax was that it became too distorted during removal from the mouth. Different types of gypsum and zinc-oxide-eugenol materials, on the contrary, were characterized by a deficiency of elastic properties. The development of hydrocolloid materials, agar and alginate (photo 1-2) has made it possible to obtain much greater precision with lower resistance to destruction.

Photo 1. Alginate impression.

Photo 2. Alginate impression material.

The only drawback was the loss of dimensional stability over a certain period of time. In order to improve the fracture resistance, a new type of material was introduced into practice - polysulfide, which, however, was also characterized by a decreasing pattern of dimensional stability. These materials were also quite difficult to mix and had a specific unpleasant odor. In the 1960s, the first attempt was made to bring polyesters to market, and in the 1970s, type A and C silicones were introduced. The chemical composition of these materials made it possible to almost completely solve the problem of dimensional stability and low tensile strength. But they are also imperfect, since there is still no material that would be suitable for absolutely all clinical situations. Dentists use impressions for one purpose - to obtain an exact replica of the hard and soft tissues of the prosthetic bed. Improved material properties make it possible to recreate a given replica with a higher level of accuracy.

Characteristics of impression materials

Hydrophilicity

Hydrophilicity, in essence, demonstrates the nature of the interaction of the impression with water, as well as how it reacts to its presence in the oral cavity. This characteristic significantly influences the final accuracy of the impression regarding the detailing of the structures of the prosthetic bed. Hydrophilic materials are characterized by a high “level of affinity” with moisture and provide a high level of tissue detail due to their high surface wetting properties. Hydrophobic materials, on the contrary, demonstrate a low level of interaction with moisture, therefore, they are characterized by poor wetting properties, which makes it difficult to achieve high detail. Hydroactive materials provide a combination of both hydrophobic and hydrophilic characteristics. They are hydrophobic in nature, but the addition of surfactants can increase their level of hydrophilicity. This type of hybrid materials has significantly improved capabilities for detailing the structures of the prosthetic bed, due to its unique surface wettability.

Elasticity and tensile strength

Elasticity and tensile strength demonstrate the nature of changes in the impression material when it is removed from the oral cavity. Ideally, the elasticity of a material should allow it to stretch and then return to its original shape. If the stretch of the print goes beyond the limits of its elasticity, then it is clear that it cannot return to its original shape. Similarly, tensile strength demonstrates the ability of a material to return to its original shape without tearing. The magnitude of this parameter is influenced by several factors, including gingival retraction, depth of the subgingival margin, intensity of bleeding, the presence of sharp edges on the surface of the prepared tooth, as well as preparation designs that increase the level of resistance when removing the impression from the oral cavity. Understanding these material characteristics is imperative to prevent the need for a repeat impression procedure. In addition, it is important to choose a material for work that can be properly disinfected, because the protocols for this procedure are also material-specific.

Viscosity

Viscosity characterizes the fluidity of a material that has not yet hardened. Viscosity classifications include low (eg, syringe-injected materials), medium (eg, single-stage monophasic or heavy body), high (eg, impression tray material), and very high (eg, putty-type material). Viscosity directly depends on the amount of filler in the structure of the material. In this case, viscosity directly affects the ability to fully detail the condition of the tissues of the prosthetic bed. Essentially speaking, the lower the viscosity of the material, the greater the chance of getting a detailed impression, but at the same time, the shrinkage of the material during its polymerization also increases significantly. It is much more difficult to work with low-viscosity materials than with high-viscosity materials. Depending on how accurate the doctor needs to achieve the impression, he can use different types of materials.

Working time and curing time

Working time and setting time characterize the amount of time required to mix the material and place it in the spoon, as well as the time required for the material to completely harden in the oral cavity. Working time depends on the number of material components used, the use of manual or automatic mixing methods and the viscosity of the material. Manufacturers provide the clinician with a huge selection of impression materials with different working time characteristics. The temperature parameter affects both the working time and the curing time. We should also not forget that the working time of the material also depends on the direct recommendations of the manufacturer, and on the manipulation skills of the assistant or the dentist himself.

Dimensional stability

Dimensional stability is a parameter that directly affects whether the dental laboratory receives accurate and stable impressions, or whether the structure of such impressions does change during short-term storage. Ideally, the resulting impression can be stored for a sufficiently long period of time without affecting the ability to obtain several plaster models from it. The dimensional stability indicator depends on the influence of temperature, moisture absorption and the level of reduction in spatial volume as a result of polymerization.

Material selection

Preprints

Preliminary impressions are not characterized by the need for high detail of the tissues of the prosthetic bed; therefore, less expensive materials such as hydrocolloids, alginates or polysulfates can be used to obtain them. However, the use of these materials should be avoided when obtaining final impressions. Firstly, hydrocolloids are 80% water. They are extremely delicate and have low tensile strength. Polysulfates, in turn, are characterized by low dimensional stability, which, however, is sufficient for treatment planning. It is important to understand that although preliminary impressions do not involve super-details, they must be accurate enough for further planning of a complex of dental procedures. Typically, these impressions are used to analyze occlusion, the shape of the dental arch, the occlusal plane, and aesthetic relationships. Polyvinylsiloxane materials are ideal for obtaining optimal diagnostic impressions. They are characterized by fairly high dimensional stability, therefore, eliminating the need for immediate casting of the model. Before taking an impression, you should thoroughly dry your teeth and be sure that there is enough material to record all surfaces of the teeth, including the area behind the free gingival margin (photo 3-4).

Photo 3. View of the full print.

Photo 4. Impression of a quadrant of the jaw.

Final prints

Polyesters are the optimal material of choice for final prints. They are hydrophilic, characterized by long dimensional stability and short curing time. In addition, the level of deformation of polyesters during removal from the oral cavity is minimal, and the tensile strength is sufficient to eliminate the possibility of permanent deformation. The disadvantage of polyesters is their rigidity, unpleasant taste and smell, and the ability to absorb moisture from the atmosphere and swell over time. In addition, polyester impressions are quite difficult to remove from the oral cavity. Vinyl siloxanes remain another optimal choice for final print materials. The latter are less harsh than ethers, have a neutral taste and odor, and do not absorb excessive amounts of moisture. Vinylsiloxane prints can be used to produce multiple models at once and have high accuracy, excellent elasticity, improved dimensional stability and sufficient tensile strength. The hydrophilicity of polyvinylsiloxanes is increased by adding surfactants to their structure. The disadvantage of these materials is a decrease in the polymerization pattern in the presence of latex contamination. There are also hybrid materials that combine polyvinylsiloxanes and polyesters - vinyl-polyesters. Hybrid materials are characterized by high tensile strength and increased dimensional stability parameters. The polyester component of the hybrids ensures their hydrophilic nature without the need to add surfactants, and the silicone component increases dimensional stability and elasticity parameters. Like some silicones, hybrid materials have a pleasant taste and odor, unlike polyesters (photo 5).

Photo 5. Full impression made using polyvinylsiloxane.

Impression technique

Photos 6-7 show a step-by-step protocol for obtaining impressions. Methods for obtaining impressions using the retraction technique are described below.

Photo 6. Algorithm for obtaining impressions from the upper jaw.

Photo 7. Algorithm for obtaining impressions from the lower jaw.

Retraction methods

It is important to recognize that retraction and hemostasis essentially have two different goals. Of course, sometimes both of them can be achieved through the same manipulation. Retraction is the temporary movement of gum tissue away from the surface of the tooth to expose the subgingival margin and create a space into which the impression material must be placed. Retraction can be carried out even before tooth preparation begins. In this case, it allows better visualization of the preparation margin area, which minimizes the risk of iatrogenic damage to the gums in the cervical area, and thus does not compromise the level of periodontal support of the tooth. There are four main retraction methods available today. The choice among them should be based on the doctor’s familiarity with the technique, localization, quality and condition of the soft tissues, as well as the complexity of the clinical situation as a whole.

Thread technique

The retraction suture packing technique is one of the most popular retraction methods, which is performed using twisted, knitted, woven or braided suture. To make them, different types of fibers are used, including wool, cotton and silk. These threads are available in two versions: impregnated with a hemostatic agent or not impregnated. When packing filament, it is important to understand the required size. Ideally, it is best to use the smallest suture size possible, as this will minimize the risk of gum injury, bleeding, or rupture of the sulcular epithelium. Typically, the sutures are packaged after preparation and removed immediately before the impression is taken.

Single thread technique. The technique of packing one retraction cord allows you to “push back” the soft tissue and create the necessary space in the area of ​​the supragingival edge of the preparation. Although this manipulation is somewhat uncomfortable, it allows one to visualize the required boundary of enamel and dentin reduction, as well as to recreate the conditions for penetration of the impression material into this area. Typically, the packaged filament remains in the groove until the impression begins. The tip of the packer (the instrument used to pack the thread) must be thin enough so as not to damage surrounding tissue or cause bleeding (photo 8). The correct inclination of the packer working head allows you to optimize the thread packing procedure.

Photo 8. Packaging of retraction thread.

Two thread technique. This approach is similar to that described above, but another one is packaged on top of the initially installed thread. In this way, it is possible to achieve greater retraction of the mucosa and recreate the required volume of free space. Packing two threads at once allows you to create conditions for detailing the area of ​​the gingival margin. However, when performing this procedure, the patient may complain of a certain feeling of discomfort.

Gum retraction technique using paste

The paste gum retraction technique is designed to minimize pain and discomfort during the procedure. When placed in the sulcus, the paste provides soft tissue displacement, thereby increasing the visualization of the preparation margin (Figure 9). The chemical composition of the paste also provides a hemostasis function, and this method can be used as an alternative to single suture retraction.

Photo 9. Retraction using paste.

Treatment of soft tissues using laser

Using a laser, surgical retraction of soft tissue can be achieved. This approach is safer than using a device for electrosurgical interventions, since the active agent is high-intensity radiation instead of electric current. Delivery of the laser beam to the intervention area is ensured using thin glass fiber or optical fiber (photo 10). Lasers cause shallow cellular necrotic burns in tissue adjacent to the epithelial layer, so healing is faster and more predictable. Although lasers can also cause burns to dentin, cementum, and attached soft tissue, the risk of such burns is minimal. The laser can also be used completely safely for patients with pacemakers, or in cases of concurrent general anesthesia with a mixture of gases. Depending on the type and wavelength of the laser, they may or may not be helpful in assisting hemostasis. The use of lasers is especially recommended in cases where the gingival margin is too deep, or when there is heavy bleeding in the intervention area.

Photo 10. Treatment of soft tissues using a laser.

conclusions

An ideal impression allows you to accurately copy all the structural features of the tissues of the prosthetic bed, while ensuring proper dimensional stability and the possibility of further obtaining several plaster models from it at once. Over the past 250 years, improvements in dental technology have enabled dental professionals to obtain highly accurate impressions through fairly simple manipulative approaches without compromising patient comfort during such procedures. The success of taking an impression depends on a careful evaluation of the original clinical restoration, the type of restoration planned, and the technique the clinician plans to use to accurately record the condition of the tissues of the prosthetic bed.

Author: Shannon Pace Brinker, CDA, CDD

general description

An impression is an impression of one or all elements of the dentition, according to which models of future designs for prosthetics are cast in laboratories.

The scope of application of impressions is orthopedic dentistry. When taking an impression, the specialist uses impression trays, as well as various types of materials - plaster, silicone, etc. Impressions are made before making corrective devices.

Casts are also used for aesthetic purposes, such as bleaching units. Silicone mouth guards are made based on tooth imprints, which are used to perform remineralization restoration of elements.

Using impressions, you can make a diagnostic model and determine the type of dental disease.

How much does dental prosthetics cost?

Taking impressions is a mandatory procedure before prosthetics, without which it is impossible to create orthopedic structures for installation. As a rule, this procedure is included in the total cost of prosthetics.

How much does it cost to get dentures?

, depends on various nuances: the type of orthopedic structure chosen for installation, the material for the impression, the complexity of the case and the individual tariffs of the dental center.

We have established affordable prices for prosthetics and dental implants. Medical and surgical procedures are performed by qualified dentists with extensive professional experience, using innovative techniques and high-quality materials from the world's best manufacturers.

How much does dental prosthetics cost:

  • removable
    dentures – from RUB 17,400;
  • dental crowns – from RUB 3,300;
  • veneers – from 12,000 rubles;
  • tabs – from 6500 rub.

More detailed information about prices and services of the center is available on the official website. All patients who leave their reviews on our website are guaranteed to receive a 3% discount on all types of dental services (this is additional and is added to the main discounts available to the client).

Oral preparation

The specialist begins creating an impression immediately after selecting suitable material and medical instruments. Before making an imprint, the bony organs of the oral cavity are dissected.

After this, the mouth is thoroughly dried with cotton swabs or a dental gun. Then the doctor kneads the materials he has chosen.

With complete adhesion, which is often observed in older people, the bone structures of the jaw undergo some changes.

In places where elements are missing, growths - exostoses - can form. The impression is taken after surgical removal of all bone growths.

Indications for correcting defects using orthognathic surgery and patient reviews about the effectiveness of the radical method.

In this article we will find out whether it is possible to put braces on crowns.

Here https://orto-info.ru/sistemyi-vyiravnivaniya-zubov/breketyi/kak-mozhno-tselovatsya-otkrovenno-o-sokrovennom.html read whether braces interfere with kissing.

Price

The price of a print depends on the following factors:

  1. Features of the pathology. For example, in edentulous cases, individual dental trays are required to make impressions. This increases the cost of the procedure.
  2. Type of material. Typically, specialists do not use expensive raw materials when cheaper materials, for example, alginate, can be used.

On average, casting a plaster model will cost patients 300 rubles, and making an alginate impression costs the same. A silicone impression will cost more – from 550 rubles.

What prostheses are made from impressions?

The basis of orthopedic structures are dental impressions. This material reflects the dentition and soft tissues of the oral cavity, on the basis of which dentures are made.

Impressions of teeth for prosthetics

are removed for the manufacture of the following structures:

  • braces and trainers used in the treatment of malocclusion;
  • dental crowns;
  • bridges;
  • removable and fixed prostheses;
  • individual abutments.

Basic requirements for products

In dentistry, there are a number of requirements for impressions:

  • products must accurately follow the contours of the soft tissues that will come into contact with the prostheses;
  • when removed from the oral cavity, the print should not be deformed;
  • during storage, the impression should not shrink significantly;
  • materials used to create the product must be disinfected without loss of quality;
  • The print must be freely separated from the model made from it.

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