The procedure is often complicated and may involve multiple visits over a period of weeks.
Diagnosis and preparation Before
endodontic therapy is carried out, a correct diagnosis of the
dental pulp and the surrounding periapical tissues is required. This allows the endodontist to choose the most appropriate treatment option, allowing preservation and longevity of the tooth and surrounding tissues. Treatment options for an irreversibly inflamed pulp (irreversible pulpitis) include either extraction of the tooth or removal of the
pulp. Partial pulp amputation (pulpotomy) is the treatment of choice to preserve the pulp in teeth with open apical foramen. Removing the infected/inflamed pulpal tissue enables the endodontist to preserve the longevity and function of the tooth. The treatment option chosen involves taking into account the expected
prognosis of the tooth, as well as the patient's wishes. A full history is required, along with a clinical examination (both inside and outside the mouth), and the use of diagnostic tests. There are several tests that can aid in the diagnosis of the dental pulp and the surrounding tissues: •
Palpation (this is where the tip of the root is felt from the overlying tissues to see if there is any swelling or tenderness present) • Mobility (this is assessing if there is more than normal movement of the tooth in the socket) • Percussion (TTP, tender to percussion; the tooth is tapped to see if there is any tenderness) • Transillumination (shining a light through the tooth to see if there are any noticeable fractures) • Tooth Slooth (this is where the patient is asked to bite down upon a plastic instrument; useful if the patient complains of pain on biting as this can be used to localise the tooth) • Radiographs •
Dental pulp tests If a tooth is so compromised (because of decay, cracking, etc.) that future infection is considered very likely or inevitable, a pulpectomy (removal of the pulp tissue) is advisable to prevent such infection. Usually, some inflammation and/or infection is already present within and/or below the tooth. To cure the infection and save the tooth, the dentist drills into the pulp chamber and removes the infected pulp. To eliminate bacteria from the
pulp chamber and root canals, the use of efficient antiseptics and disinfectants is necessary. The soft tissues are either drilled out of the root canal(s) with engine driven rotary files, or with long needle-shaped
hand files.
Opening the crown The endodontist makes an opening through the
enamel and
dentin tissues of the tooth, usually using a
dental drill fitted with a
dental burr.
Isolating the tooth The use of a rubber dam for tooth isolation is mandatory in
endodontic treatment for several reasons: • It provides an
aseptic operating field, isolating the tooth from oral and salivary contamination. Root canal contamination with saliva introduces new microorganisms to the root canal which compromise the prognosis. • It facilitates the use of the strong medicaments necessary to clean the root canal system. • It protects the patient from the inhalation or ingestion of endodontic instruments.
Removal of pulp tissue There have been a number of progressive iterations to the mechanical preparation of the root canal for endodontic therapy. The first, referred to as the
standardized technique, was developed by Ingle in 1961, and had disadvantages such as the potential for loss of working length and inadvertent ledging, zipping or perforation. Subsequent refinements have been numerous, and are usually described as
techniques. These include the step-back, circumferential filing, incremental, anticurvature filing, step-down, double flare, crown-down-pressureless, balanced force, canal master, apical box, progressive enlargement, modified double flare, passive stepback, alternated rotary motions, and apical patency techniques. The
step back technique, also known as telescopic or serial root canal preparation, is divided in two phases: in the first, the working length is established and then the apical part of the canal is delicately shaped since a size 25
K-file reaches the working length; in the second, the remaining canal is prepared with manual or rotating instrumentation. This procedure, however, has some disadvantages, such as the potential for inadvertent apical transportation. Incorrect instrumentation length can occur, which can be addressed by the modified step back. Obstructing debris can be dealt with by the passive step back technique. The
crown down is a procedure in which the dentist prepares the canal beginning from the coronal part after exploring the patency of the whole canal with the
master apical file. There is a hybrid procedure combining step back and crown down: after the canal's patency check, the coronal third is prepared with hand or Gates Glidden drills, then the working length is determined and finally the apical portion is shaped using step back techniques. The double flare is a procedure introduced by Fava where the canal is explored using a small file. The canal is prepared in crown down manner using K-files then follows a "step back" preparation with 1 mm increments with increasing file sizes. With early coronal enlargement, also described as "three times technique", apical canals are prepared after a working length assessment using an
apex locator; then progressively enlarged with Gates Glidden drills (only
coronal and middle third). For the eponymic third time the dentist "arrives at the
apex" and, if necessary, prepares the foramen with a size 25 K-file; the last phase is divided in two refining passages: the first with a 1-mm staggered instrument, the second with 0.5-mm staggering. From the early nineties engine-driven instrumentation were gradually introduced including the ProFile system, the Greater Taper files, the ProTaper files, and other systems like Light Speed, Quantec, K-3 rotary, Real World Endo, and the Hero 642. All of these procedures involve frequent irrigation and recapitulation with the master apical file, a small file that reaches the
apical foramen. High frequency
ultrasound based techniques have also been described. These can be useful in particular for cases with complex anatomy, or for retained
foreign body retrieval from a failed prior endodontic procedure. File:Step back.png|An example of step back technique File:Passive step back.png|An example of passive step back technique File:Crown down.png|An example of crown down technique There are two slightly different anti-curvature techniques. In the balanced forces technique, the dentist inserts a file into the canal and rotates clockwise a quarter of a turn, engaging dentin, then rotates counter-clockwise half/ three-quarter of a revolution, applying pressure in an apical direction, shearing off tissue previously meshed. From the balanced forces stem two other techniques: the reverse balanced force (where GT instruments are rotated first anti-clockwise and then clockwise) and the gentler "feed and pull" where the instrument is rotated only a quarter of a revolution and moved coronally after an engagement, but not drawn out.
Use of anesthetics Since 2000,
lidocaine is the most commonly used
local anesthetic for root canal therapy.
Irrigation The root canal is flushed with an irrigant. Some common ones are listed below: •
Sodium hypochlorite (NaClO) in concentrations ranging between 0.5% and 5.25% • 6% sodium hypochlorite with surface modifiers for better flow into nooks and crannies • 2%
chlorhexidine gluconate • 0.2%
chlorhexidine gluconate plus 0.2%
cetrimonium chloride • 17%
ethylenediaminetetraacetic acid (
EDTA) •
Framycetin sulfate • Mixture of
citric acid,
doxycycline, and
polysorbate 80 (detergent) (MTAD) •
Saline • Near anhydrous
ethanol The primary aim of chemical irrigation is to kill microbes and dissolve pulpal tissue. Certain irrigants, such as sodium hypochlorite and chlorhexidine, have proved to be effective antimicrobials
in vitro Root canal irrigation systems are divided into two categories: manual agitation techniques and machine-assisted agitation techniques. Manual irrigation includes positive-pressure irrigation, which is commonly performed with a syringe and a side vented needle. Machine-assisted irrigation techniques include sonics and ultrasonics, as well as newer systems which deliver apical negative-pressure irrigation.
Filling the root canal The standard filling material is
gutta-percha, a natural polymer prepared from latex from the percha tree (
Palaquium gutta). The standard endodontic technique involves inserting a gutta-percha cone (a "point") into the cleaned-out root canal along with a sealing cement. Another technique uses melted or heat-softened gutta-percha which is then injected or pressed into the root canal passage(s). However, since gutta-percha shrinks as it cools, thermal techniques can be unreliable and sometimes a combination of techniques is used. Gutta-percha is
radiopaque, allowing verification afterwards that the root canal passages have been completely filled and are without voids. Pain control can be difficult to achieve at times because of anesthetic inactivation by the acidity of the abscess around the tooth apex. Sometimes the abscess can be drained, antibiotics prescribed, and the procedure reattempted when inflammation has been mitigated. The tooth can also be unroofed to allow drainage and help relieve pressure. A root treated tooth may be eased from the occlusion as a measure to prevent tooth fracture prior to the cementation of a crown or similar restoration. Sometimes the dentist performs preliminary treatment of the tooth by removing all of the infected pulp of the tooth and applying a dressing and temporary filling to the tooth. This is called a pulpectomy. The dentist may also remove just the coronal portion of the dental pulp, which contains 90% of the nerve tissue, and leave intact the pulp in the canals. This procedure, called a "pulpotomy", tends to essentially eliminate all the pain. A
pulpotomy may be a relatively definitive treatment for infected
primary teeth. The pulpectomy and pulpotomy procedures aim to eliminate pain until the follow-up visit for finishing the root canal procedure. Further occurrences of pain could indicate the presence of continuing infection or retention of vital nerve tissue. Some dentists may decide to temporarily fill the canal with
calcium hydroxide paste in order to thoroughly sterilize the site. This strong
base is left in place for a week or more to disinfect and reduce inflammation in surrounding tissue, requiring the patient to return for a second or third visit to complete the procedure. There appears to be no benefit from this multi-visit option, however, and single-visit procedures actually show better (though not statistically significant) patient outcomes than multi-visit ones.
Temporary filling Temporary filling-materials allow the creation of hermetic coronal-seals preventing from
coronal microleakage (i.e. contamination of the root canal by bacteria); their presence over the entire time-period to fill the root canal and restore the tooth crown is mandatory, for increasing the probability of the endodontic-treatment success. However, these temporary filling-materials create coronal seals which only remain hermetic during less than 30 days in average (mainly because of the bacteria the saliva contains). If the tooth is not perfectly sealed, the canal may leak, causing eventual failure. A tooth with a root canal treatment still has the ability to decay, and without proper home care and an adequate
fluoride source the tooth structure can become severely decayed (often without the patient's knowledge since the nerve has been removed, leaving the tooth without any
pain perception). Thus, non-restorable
carious destruction is the main reason for extraction of teeth after root canal therapy, accounting for up to two-thirds of these extractions. Exposure of the obturation material to the oral environment may mean the gutta-percha is contaminated with oral bacteria. If complex and expensive restorative dentistry is contemplated then ideally the contaminated gutta percha would be replaced in a retreatment procedure to minimise the risk of failure. The type of bacteria found within a failed canal may differ from the normal infected tooth.
Enterococcus faecalis and/or other facultative enteric bacteria or
Pseudomonas sp. are found in this situation. Endodontic retreatment is technically demanding; it can be a time-consuming procedure, as meticulous care is required by the
dentist. Retreatment cases are typically referred to a specialist
endodontist. Use of an
operating microscope or other magnification may improve outcomes. Currently, there is no strong evidence favoring surgical or non-surgical retreatment of periapical lesions. However, studies have reported that patients experience more pain and swelling after surgical retreatment compared to non-surgical. When comparing surgical techniques, the use of ultrasonic devices may improve healing after retreatment. Application of
nanomotor implants have been proposed to achieve thorough disinfection of the dentine. There is no evidence that the use of antibiotics after endodontic retreatment prevents post-operative infection.
Postoperative pain Several randomized clinical trials concluded that the use of rotary instruments is associated with a lower incidence of pain following the endodontic procedure when compared to the use of manual hand instruments.
Corticosteroid intra-oral injections were found to alleviate pain in the first 24 hours in patients with symptomatic irreversible pulp inflammation. == Complications ==