Home » All about modern dentistry » Pain relief in dentistry » Pain relief in the upper jaw For various operations on the upper jaw, dentists prefer to use infiltration anesthesia. This method is most convenient because the thin layer of the compact lamina of the alveolar process of the upper jaw is porous. If you use modern painkillers that have a high diffusion ability, then with this method of their administration the desired anesthetic effect is achieved.
Impregnation of tissues and alveolar processes with an anesthetic is carried out by injection, injecting the solution under the mucous membrane at an angle of 40-45o in the projection of the upper areas of the dental roots along the transitional fold of the vestibule of the oral cavity in the area that is supposed to be operated on. If this area is too large, the needle is moved along the transitional fold and the anesthetic solution is slowly injected. Because rapid administration of the substance can cause pain in the patient.
To anesthetize the palatal tissues, an injection of an anesthetic drug is made into the angle formed by the palatine and alveolar jaw processes, at a distance of 10-15 mm from the edge of the gum.
Regional (conduction) anesthesia is used quite rarely; it includes anesthesia on the tubercle of the upper jaw, in the area of the greater palatine, incisive and infraorbital foramen.
Intraoral anesthesia
The patient's mouth is in a half-open state, the doctor inserts a mirror into the oral cavity, moving the cheek to the side. This ensures an excellent overview of the arch of the vestibule of the mouth, as well as tension in the mucous transitional fold near the molars. The needle is inserted into the mucosa above the projection of the apexes of the teeth at the level of the 2nd and 3rd molars. If there are no molars, then the needle should be behind the zygomaticalveolar ridge and move up, back and inward. The insertion angle should be 45°. It is necessary to control that the needle always moves along the bone with the beveled surface of its tip. During this movement, the anesthetic should be gradually injected. This method will help prevent injuries to the vessels of the pterygoid plexus. Having deepened the needle by 2-2.5 cm, the anesthetic solution is deposited. Thus, the molars located on the side of the vestibule of the mouth, the mucous membrane, periosteum and the outer posterior bone wall of the maxillary sinus are perfectly anesthetized.
Extraoral anesthesia
Having made a puncture with a needle in the area of the lower anterior corner of the cheek bone, the needle is then directed upward at an angle of 45° and again towards the tubercle of the upper jaw, bringing it to the bone. And then the anesthetic solution is deposited. The anesthetic effect occurs in approximately the same time as with the intraoral method of anesthesia.
However, during the process of anesthesia, a hematoma appears on the tubercle of the upper jaw, which is a consequence of injury to the veins of the pterygopalatine plexus by the needle.
Computed tomography studies of the path of solution propagation during tuberal anesthesia confirmed that such complications are most likely.
This tomogram, which was taken 5 days after intraoral anesthesia, shows that there are contours of a hematoma on the tubercle of the upper jaw in the pterygopalatine fossa. Approximately 40-60% is allocated to the fact that this cellular formation will fester and turn into phlegmon.
When using the tuberal method of anesthesia, injury to the veins of the pterygopalatine plexus is almost impossible to avoid, and there is also a fairly high risk of complications, in particular if the intraoral method is used. All this threatens the health and even the life of the patient. That is why it is recommended to use this type of anesthesia extremely rarely.
Tooth preparation: features of the procedure and modern techniques
Preparation (grinding) of teeth is actively used in orthopedic or cosmetic dentistry. There are several modern methods of tooth preparation, which have their own advantages and disadvantages.
Any type of dental prosthetics is inevitably accompanied by preparation (grinding) of teeth. The only exception is dental implantation, when the prosthesis is installed not on a treated tooth, but on an implanted implant. Let's consider why the preparation procedure is required, as well as modern methods of grinding teeth used in preparation for dentures.
Why is tooth preparation required?
Tooth grinding is the sequential removal of hard dental tissue to level the surface of the tooth. This stage of orthopedic treatment is necessary when preparing dental prosthetics. For decades, this procedure remained very painful and quite lengthy. However, nowadays, thanks to new technologies and modern anesthetics, the process of tooth preparation has become virtually painless and has significantly reduced the time required.
One of the most important issues that concern patients of orthopedic dentists is the possibility of installing dentures without grinding teeth. Unfortunately, with all the achievements of modern dentistry, tooth preparation still remains a necessary step. The fact is that in order to securely fix the crown, it is necessary to give the tooth the correct geometric shape, without unnecessary bulges. In addition, any prosthesis has a certain wall thickness, and this must be taken into account so that the crown can fit correctly into the dentition. Otherwise, the denture will cause a feeling of discomfort and negatively affect chewing and speech functions.
It should also be noted that during the process of grinding a tooth, the doctor removes all tissue that shows signs of caries. This is very important for sanitation and prevention of complications such as secondary caries.
What is taken into account when preparing teeth?
Before the grinding procedure, an X-ray examination is carried out to identify the anatomical features of certain teeth. This is required so that the doctor knows the structural features of the patient’s teeth and understands where exactly the opening of the dental cavity can occur. It is also important for the dentist to evaluate the likely reactions of the soft gingival tissues.
Anesthesia is mandatory if the preparation process is carried out on vital teeth. In the case of grinding of pulpless teeth, the procedure may not be accompanied by such painful sensations as to require the use of strong anesthetics. The exception is when the preparation is accompanied by the use of floss to push back the gums.
What to do if pain occurs after preparation?
The use of modern anesthetics makes the teeth grinding procedure virtually painless. However, after the anesthesia wears off, pain or discomfort may occur. Let's consider the most likely causes of their occurrence, and what should be done in certain cases.
Causes of pain after tooth preparation:
- after grinding, an excessively thin layer of dense dental tissue remained. A painful reaction may occur if a “living” (vital) tooth was prepared. Here, a reaction to cold or hot food, to sour and sweet foods, and even to touching a tooth is possible. To relieve pain in such situations, additional “strengthening” of a thin area or installation of a temporary prosthesis is used;
- the pain did not appear immediately after the anesthetics wore off, but after a certain period of time. In such cases, you should immediately consult a doctor, since pain may be symptoms of periodontitis or pulpitis;
- During the process of grinding the tooth, gum retention was carried out, that is, the gum tissue was pushed back using a special thread. In such situations, pain or swelling of the gums is more likely the norm, and they usually go away within 1-2 days. However, if the pain persists for a longer period of time, you should consult a doctor.
Modern methods of grinding teeth
Currently, several modern techniques are used for tooth preparation, each of which has its own pros and cons.
Air abrasive method
In this case, the traditional drill with a drill is replaced by an air-abrasive mixture supplied under pressure. The principle is the same as in the method of sandblasting surfaces. Getting on hard dental tissues, the abrasive jet gradually and carefully removes tooth enamel or dentin.
Advantages:
- no heating of the enamel and no pain;
- quite high grinding speed;
- absence of vibration, which is especially important when preparing “living” teeth;
- the ability to maintain maximum dental volume.
Laser method
The principle of using pulsed lasers in tooth preparation is as follows. Under the influence of a laser, water in the surface dental tissues is sharply heated, causing microscopic destruction in them. The resulting pieces of enamel or dentin are quickly cooled and removed using a special water-air mixture.
Advantages:
- no pain;
- increased safety of the procedure;
- high processing speed with slight heating of dental tissues;
- no chips or cracks;
- minimal chance of infection during a non-contact procedure.
Ultrasound method
The technique is based on the use of ultrasound and high-frequency vibration to grind teeth.
Advantages:
- painlessness of the procedure;
- absence of chips and microcracks;
- minimal pressure of instruments on dental tissues with insignificant heat generation;
- no negative impact on pulp tissue.
Chemical method
This method of tooth preparation is based on the use of active substances that soften enamel and dentin, after which these tissues are removed. The only disadvantage of this procedure is that the patient has to wait some time (up to 30 minutes) for the reagents to take effect.
Advantages:
- complete absence of pain, eliminating the need for anesthetics;
- absence of heating of dental tissues and their thermal damage;
- the possibility of microcracks and chips is excluded;
- high psychological comfort, because the patient is not irritated by the sound of the drill.
Tunnel method
Involves the use of turbine dental devices with the ability to adjust the speed of rotation of the tips. Here, the quality of the equipment has a great influence on the result, since worn-out instruments can lead to significant overheating of dental tissues.
The main advantage of the method is the ability to leave the maximum volume of your own dental tissue. This is due to good control of the layers being removed and ease of predicting the result. However, the method has significant disadvantages: heating of the enamel, pain (depending on anesthesia), the likelihood of soft tissue injury, the possibility of microcracks and chips.
How is the preparation method chosen?
The choice of teeth grinding technique usually depends on the purpose for which the preparation is being carried out and on the availability of certain equipment in a particular clinic. It is obvious that VIP dentistry in Moscow will be able to offer much more progressive options than a regular dental center. If alternatives are available, the choice of preparation technique is usually discussed with the patient.
In addition to orthopedic dentistry, dental preparation is also actively used in aesthetic dentistry. If in the first case we are talking about installing dentures and crowns, then in the second, grinding of dental tissue is usually used to put veneers on the teeth, less often - lumineers. Moreover, when installing several veneers, no less amount of work on grinding the teeth may be required than when installing a prosthesis or crown.
Anesthesia of the infraorbital nerve
The purpose of this anesthesia is to block the branches of the inferior orbital nerve, which forms the lesser “crow's foot” in the area of its exit from the bony canal, as well as the middle and superior anterior alveolar branches.
The result of such anesthesia, performed at the lower orbital foramen, is pain relief:
- — Reztsov,
- - Fang,
- — Premolars,
- — The gums adjacent to the premolars in the area of the vestibule of the mouth,
- — Bone tissue of the alveolar process and nasal septum,
- — Shells of the mucous and bone structures of the walls of the maxillary sinus,
- - Skin of the infraorbital region of the lower eyelid and wing of the nose,
- — Mucous membrane and skin of the upper lip.
The projection of the infraorbital foramen, which is oriented towards during an anesthetic injection, is located 5 mm below the edge of the orbit, which corresponds to the axis drawn through the center of the eye pupil when the eye looks forward.
Intraoral access
Using the thumb and forefinger of the left hand, push the upper lip up and out, and with the middle finger hold the projection of the infraorbital foramen. With this type of access, it is located at the intersection of two axes. One of them, horizontal, runs 5-7 mm below the lower orbital margin, and the second, vertical, runs on the corresponding side along the axis of the second upper premolar. The needle must be inserted, retreating 5 mm from the upper edge of the attachment of the transitional fold between the lateral and middle incisors. Then it is pushed upward, forward and outward in the direction of the lower orbital foramen until it stops at the bone. And only there the anesthetic solution is released.
Infraorbital anesthesia technique
With the intraoral method, it is necessary to take into account that the canine fossa is located under the infraorbital foramen; when moving the needle along the surface from below, along the longitudinal axis of the canine or premolars, the tip of the needle will rest against the curvature of the canine fossa and will not reach the infraorbital foramen. To avoid this, the needle is inserted along the transitional fold above the incisors. Then the needle is oriented at an angle to the longitudinal axis of the incisors in the direction of the infraorbital foramen and advanced, sliding along the anterior surface of the upper jaw. With this path, it is possible to bypass the canine fossa and avoid uncertainty in choosing the depth of the needle tip as it moves towards the hole. After bringing the tip of the needle to the infraorbital foramen, the solution is slowly injected. To direct a larger amount of solution deep into the canal, press with a finger on the skin opposite the infraorbital foramen, controlling the release of the anesthetic into the tissue by feeling under the finger. After introducing 1 ml of solution and slowly removing the needle, finger pressure on the skin is continued for another 12 minutes.
Anesthesia at the greater palatine foramen
This method blocks the innervation of the greater palatine nerve, thus achieving an anesthetic effect on the mucous membrane on the desired side of the hard palate, as well as on the alveolar process from the palate from the third molar to the middle of the short part of the canine. The anesthetized area can reach the lateral incisor, as well as the vestibular surface in the area of the third molar. In some patients the area extends to the second premolar.
The greater palatine foramen is located in the horizontal plate of the palatine bone and its pyramidal process at the base of the alveolar process, 5 mm anterior to the border of the soft and hard palate. Above the hole in the mucous membrane there is a small depression. The projection of the hole onto the mucous membrane of the hard palate is located at the intersection of two mutually perpendicular lines. The one that runs vertically goes through the middle of the line that connects the crest of the alveolar process and the center of the upper jaw, and the horizontal one runs through the middle of the coronal part of the third molar.
Anesthesia technique. The mouth should be opened wide, the syringe needle is directed from the opposite corner of the mouth and inserted 1 cm forward and inward in the direction from the projection of the opening of the palate into the mucous membrane. The needle is advanced until it comes into contact with the bone, and 0.5 ml of solution is injected. After a couple of minutes, the analgesic effect occurs. In the case when the solution is injected directly near the greater foramen of the palate, as well as into the opening of the pterygopalatine canal, the effect captures the posterior nerves of the palate emerging from its lesser foramen. As a result, the soft palate is numbed. Injecting the solution into this area may cause nausea and vomiting. Another side effect that may occur due to excessive injection of a solution under pressure is necrosis of the soft tissues of the hard palate. This can occur in patients with vascular atherosclerosis.
Infiltration technique
Infiltration local anesthesia is most often used in dentistry. In this case, the normal transmission of nerve impulses at the site of injection of the anesthetic is blocked. Experts distinguish two types of infiltration anesthesia:
- Direct – impulse transmission is blocked directly at the site of drug administration.
- Indirect - the anesthetic gradually penetrates into the tissue surrounding the injection site, due to which the “freezing” area increases.
Infiltration anesthesia is successfully used to anesthetize manipulations on the upper jaw; on the lower jaw, the effect of anesthesia in some cases may not be sufficiently expressed. This difference in effectiveness is due to the anatomical features of the alveolar processes of both jaws. If on the top the compact plate of the alveolar process is thin and there are many small holes in it (which facilitates rapid and sufficient diffusion of the drug into the bone tissue), then on the bottom the compact plate is thicker and noticeably denser, and there are much fewer holes in it. Therefore, during volumetric manipulations on the lower jaw, the doctor usually chooses another method to numb the area requiring treatment.
The main advantages of infiltration anesthesia in dentistry can be considered:
- Rapid achievement of analgesic effect.
- Safety for the patient, since low concentrations of anesthetic solutions are sufficient to achieve the required effect. In this case, if necessary, you can increase the amount of anesthetic without any harm to the patient’s body.
- The drug is eliminated from the body quickly.
- In addition to the desired nerve, nearby fibers of neighboring nerves are also anesthetized, so the treatment is painless and completely comfortable.
A variation of the infiltration method is intraligamentary (intraligamentous) anesthesia. The anesthetic solution is injected using a very short needle directly into the periodontium under measured pressure (the area of distribution of the anesthetic depends on the magnitude of the pressure). With this technique, the soft tissues of the oral cavity will not become numb, so it is often used in the treatment of baby teeth in young children - so that the child, who does not feel the numb areas of the soft tissues, does not accidentally injure them.
Anesthesia at the incisive foramen
Such anesthesia is carried out by neutralizing the nasopalatine nerve in order to anesthetize the anterior region of the mucous membrane of the hard palate in the area of the anterior teeth.
The incisive foramen is located between the front incisors 7-8 mm from the edge of the gum at the intersection of the lines that connect the distal edges of the median palatal suture and the necks of the canines.
Anesthesia technique: the patient is in a chair, his head is thrown back, his mouth is open wide. The needle is inserted into the mucous membrane near the incisive opening to a depth of 3-4 mm. The anesthetic solution is released slowly. The process of inserting a needle into the papilla itself is very painful, so thin needles are used for such injections, and additional pain relief is performed. The anesthetic effect is achieved within a few minutes.