|Year : 2008 | Volume
| Issue : 4 | Page : 185-191
Critical evaluation of various methods of recording centric jaw relation
Sanjay Bansal, Jayant Palaskar
Department of Prosthodontics, M.M. College of Dental Sciences and Research, Mullana, Ambala, India
|Date of Web Publication||7-Apr-2009|
H. No. 30, Sector 7, HUDA, Karnal
Source of Support: None, Conflict of Interest: None
The rationale of recording Centric Relation records is to establish guidelines as starting point to develop occlusion with artificial teeth in harmony with the various structures of masticatory apparatus including TMJ. It aids to maintain physiologic as well as anatomic health of tissues. When maximum intercuspation is coinciding with centric position, it provides stability to the prosthesis thereby preserving the health of remaining tissues (edentulous foundation, remaining natural teeth, musculature and TMJ) is accomplished.
Keywords: Centric relation, direct recording, functional recording, gothic arch tracing
|How to cite this article:|
Bansal S, Palaskar J. Critical evaluation of various methods of recording centric jaw relation. J Indian Prosthodont Soc 2008;8:185-91
|How to cite this URL:|
Bansal S, Palaskar J. Critical evaluation of various methods of recording centric jaw relation. J Indian Prosthodont Soc [serial online] 2008 [cited 2020 Apr 5];8:185-91. Available from: http://www.j-ips.org/text.asp?2008/8/4/185/49180
| Classification of the Methods of Recording Centric Relation|| |
Centric Relation Record Methods - Review and Evaluation
As in the classification of various methods of recording Centric Relation records a review and evaluation of these methods is presented:
Direct Checkbite Inter-Occlusal Recordings:
- The direct interocclusal record is the oldest type of Centric Relation record.
The interocclusal check record method is referred to as a physiologic method. The normal functioning of the patient's proprioception and the tactile sense [Additional file 1] is essential in the making of an accurate record.
The visual acuity and the sense of touch of the dentist also enter into the making of a Centric Relation record using the physiologic method. This phase of the procedure is developed with experience and is exceedingly difficult to teach to another individual.
In 1756, Phillip Pfaff,  the dentist of Fredrick the Great of Germany, was the first to describe this technique of "taking a bite." Until the end of nineteenth century it was the most commonly used method.
- The direct interocculusal record during that period, was a non-precision jaw record obtained by placing a thermoplastic material, usually wax or compound, between the edentulous ridge and having the patient close into the material. This was known as the "Mush, "Biscuit", or "Squash" Bite.
One early method was to adjust the occlusion rims to the chosen vertical dimension of occlusion, have the patient close in a retruded position, and attach the rims together for mounting on an articulator.
In 1954, Brown  recommended repeated closure into softened wax rims. Greene  had his patients hold their jaws apart for 10 seconds to fatigue the muscles and then had them snap the rims together. He then made lines in the rims to orient them after removal from the mouth.
- Gradually, these procedures evolved into interocclusal records as they are usually done today. Small amounts of wax, compound, plaster, and zinc-oxide eugenol impression paste were placed between the occluding rims, and the patient closed the jaws into centric relation. These improvements were an attempt to equalize the pressure of vertical contact.
| Indications|| |
Interocclusal check record is particularly indicated in following situations:
It is the most practical acceptable method to check teeth that have been arranged as trial dentures.
- Abnormally related jaws.
- Supporting tissues that are excessively displaceable.
- Large awkward tongue.
- Uncontrollable or abnormal mandibular movements.
- Check the occlusion of the teeth in existing dentures.
| Critical Evaluation|| |
- There are many opinions regarding the best material for interocclusal record.
Trapozzano  in 1955 stated that the wax "CHECKBITE METHOD" is the technique of preference in recording and checking centric relation.
Schuyler  in 1932 observed that if the recording medium was not of uniform density and viscosity, uneven pressures would be transmitted to the record bases which would cause a disharmony of occlusion. He said that modeling compound was preferable to wax for occlusal records because it can be softened more evenly, cools slower, and doesn't distort as much as wax.
Payne  in 1955 and Hickey  in 1964 stated a preference for dental plaster because less material had to be placed in the patient's mouth for the record.
- Wright  in 1939 described the four factors he believed affected the accuracy of records:
- Resiliency of tissue.
- Saliva film.
- Fit of bases.
- Pressure applied.
He concluded that the dentist wouldn't control the pressure at which the record was made, so the best technique was to record the occlusal record at zero pressure. It could thus be duplicated.
Hanau  in 1923, considered various factors that influenced the recording of Centric Relation and he modified the intra-oral wax method. He pointed out the "Resiliency And Like Effect" (REALEFF) of the denture supporting tissues. He advocated making the registrations of the positional relationships under zero pressure in order to minimize the error caused by "REALEFF".
Hanau,  Block,  and others  agreed with zero pressure philosophy, Schuyler, Payne and Trapozzano, among others advocated the use of light pressure.
Criticisms of Interocclusal Method of Recording Centric Relation
i. There have been many criticisms of "Checkbites" for Centric Relation records. Most of these criticisms were from individuals who favored some type of graphic recordings.
Schuyler  in 1932 stated that he did not "consider a record secured on compound or wax occluding rims sufficiently free from error to compete the restorations without additional checks.
Simpson  felt that wax records were unscientific and commented that "such methods as holding the jaw back on closing the mandible, elevating the tongue, and having the patient swallow as he closes the jaw, and the like, are condemned for the paramount reason that they are unscientific and always carry with them the fallacy of guess".
Phillips  stated that "in the hands of, by for the largest majority of operators, it is worse than useless".
Gysi  tested this method on manikins and never got the same recording twice with wax or compound. He concluded that the uneven cooling of the material produced distortion.
Schuyler  stated that when records were made using compound, the uneven or premature contact of areas of occluding surfaces, due to uneven thickness or density of occluding rims, may disturb the relation of the record bases.
| Graphic Method|| |
| Introduction|| |
The graphic methods record a tracing of mandibular movements in one plane, an arrow point tracing. It indicates the horizontal relation of the mandible to the maxillae. The apex of a properly made tracing presumably indicates the most retruded relation of the mandible to the maxillae from which lateral movements can take place. Do not confuse this with other graphic tracings that are made in additional planes. Pantographic tracings, for example, are made in three planes.
Graphic methods are either intraoral or extraoral, depending upon the placement of the recording devise. The intraoral tracings cannot be observed during the tracing; therefore the method looses some of the value of a visible method.
The earliest graphic recordings were based on studies of mandibular movements by Balkwill  in 1866. The intersection of the arcs produced by the right and left condyles formed the apex of what is known as the Gothic Arch tracing.
The first known "Needle Point Tracing" was by Hiesse in 1897, and the technique was improved and popularized by GYSI around 1910. The tracer made by GYSI was an extraoral incisal tracer. The tracing plate coated with wax, was attached to the mandibular rim. A spring-loaded pin or marker was mounted on the maxillary rim. The rims were made of modeling compound to maintain the vertical dimension of occlusion. When a good tracing was recorded, the patient held the rims in the apex of the tracing while notches were scored in the rims for orientation.
Clapp  in 1914 described the use of a GYSI tracer which was attached directly to the impression trays.
Sears  used lubricated rims for easier movement. He placed the needle point tracer on the mandibular rim and the plate on the maxillary rim. He believed this made the angle of the tracing more acute and more easily discernible. He would then cement the rims together for removal.
Phillips  in 1927 recognized that any lateral movements of the jaw would cause interference of the rims which could result in a distorted record. He developed a plate for the upper rim and a tripoded ball bearing mounted on a jackscrew for the lower rim. The occlusion rims were removed, and when the patient had produced the proper extraoral tracing, softened compound was inserted between the trial bases. This innovation was named the "Central Bearing Point".
In 1929, Stansbery  introduced a technique which incorporated a curved plate with a 4-inch radius (corresponding to Monson's curve) mounted on the upper rim. A central bearing screw was attached to the lower plate with a 3-inch radius curve (reverse-Monson curve). After the extraoral tracing was made, plaster was injected between the rims to form a biconcave centric registration.
Hall  in 1929 used Stansbery's method but substituted compound for Centric Relation record.
Later graphic recording methods used the central bearing point to produce the Gothic Arch tracing. Hardy  and Pleasure  described the use of Coble Balancer, and Hardy later designed a modified intraoral tracer similar to the cobles. Hardy and Porter in 1942 made a depression with a round bur at the apex of the tracing. The patient would hold the bearing point in the depression while plaster was injected for the centric record.
Pleasure  in 1955 used a plastic disk which was attached to the tracing plate with a hole over the apex of the Gothic Arch. The Centric Relation record could then be made without a change of vertical dimension.
Various tracing devices were designed by Hights, Phillips, Terrel, Sears, House, Misserman and others. , The Sears Recording Trivet had an intraoral central bearing point and two extraoral tracing plates. The maxillary and mandibular tracing arms were locked into Centric Relation with two lumps of plaster.
Silverman  in 1957, used an intraoral Gothic Arch tracer to locate the "biting point" of a patient. The patient was told to bite hard on the tracing plate. This developed the functional resultant of the closing muscles which would retrude the mandible. The indentation made by the patient would be used for the centric record whether or not it corresponded to the Gothic arch apex.
Chandrasekharan Nair  developed Chandra Tracer. Nandini et al .  conducted - "A Comparative Evaluation of Hight Tracer, Chandra Tracer, Intraoral Tracer, Functiograph and Checkbite" and they found that there was no significant difference between Hight tracer, Chandra tracer, Intraoral tracer, Functiograph and Checkbite method.
Important Factors in Graphic Recording Method:
This record should be checked with an interocclusal check record when the anterior teeth are arranged and the wax is contoured.
- When any graphic tracing is made, these factors are important:
- Displacement of the record bases may result from pressure if the central bearing point is off center, when the mandible moves into eccentric relations to the maxillae.
- If a central bearing device is not used, the occlusion rims offer more resistance to horizontal movements.
- It is difficult to locate the center of the true arches to centralize the forces with a central bearing device when the jaws are in favorable relation and far more difficult if the jaws are in excessive protrusive or retrusive relation.
- It is difficult to stabilize a record base against horizontal force on residual ridge that have no vertical height.
- It is difficult to stabilize a record base against horizontal forces on tissues that are pendulous or otherwise easily displaceable.
- It is difficult to stabilize a record base or bearing device with patients who have large awkward tongues.
- Recording devices are not usually considered compatible with normal physiologic simulation in mandibular movement.
- The tracing is not acceptable unless a pointed apex is developed, a blunt apex usually indicates an acquired functional relationship and a sharp apex usually indicates the position of centric relation.
- Double tracings usually indicate lack of coordinated movements or recordings at a different vertical dimension of jaw separation. In either event, additional tracings are necessary.
- A graphic tracing to determine Centric Relation is made at the predetermined vertical dimension of occlusion. This harmonizes Centric Relation with centric occlusion and the antero-posterior bone-to-bone relation with the tooth-to-tooth contact.
- Graphic methods can record eccentric relations of the mandible to the maxillae.
- Graphic methods are the most accurate visual means of making a Centric Relation record with mechanical instruments; however, all graphic tracings are not necessarily accurate.
Critical Analysis of Graphic Recording Methods:
Intra oral v/s extra oral graphic recording methods:
The intraoral tracings cannot be observed during the tracing; therefore the method loses some of the value of a visible method. While the extraoral tracings are visible while the tracing is being made. Hence, the patient can be directed and guided more intelligently during the mandibular movements.
Since the intraoral tracings are small, it is difficult to find the true apex. The tracer must be definitely seated in a hole at the point of the apex to assure accuracy when injecting plaster between the occlusion rims. If the patient moves the mandible before the occlusion rims are secured, the records shift on their basal seat; this destroys the accuracy of the record. While in extra oral tracing, the stylus can be observed in the apex of the tracing during the process of injecting plaster between the occlusion rims.
The graphic recordings, received much praise and criticism:
Hanau  in 1923 wrote. "The most naive of our genius had intuitions, molded into metal, attached a decorative theory onto their accomplishment and, it must be admitted, they found a goodly number of fanatical believers and blind followers, whose mental inertial probably did not care to penetrate even the polish of the nickel-plated instrument under consideration".
In 1927, Hanau  conceded that the Gysi tracing was satisfactory to check records, but that universal usage was not good.
Tech  in 1926, stated that the Gysi tracing technique was the only means that should be used for centric records, all other methods were "mere deceptions and playthings".
Gysi  in 1929 concluded that his tracing technique had only a 5-degree error, whereas wax and compound bites had a 25-degree error.
Granger  in 1952 insisted that needle point tracing is not a reliable means of determining centric relation, since it is recorded in horizontal plane only; he believes that Centric Relation should be considered as a vertical rotational relationship related to the hinge axis.
Brill  in 1957, claimed that the retruded position of the mandible (stylus at the apex of the tracing) does not coincide with the maximum intercuspation in all persons.
Trapozzano  in 1955, insisted that the retruded unstrained relation is the only proper position and that the position is constant throughout the life.
Boos  in 1952, claimed that 35 percent of 400 subjects had their "best" centric position 1 to 7 mm distal to the apex of the Gothic arch tracing.
Brown  believes that the needle point tracing is unreliable and recommends repeated closures into wax under close observations.
Moylan in 1953 wrote, "The apex of the Gothic arch is full of vagaries".
The National Society of Denture Prosthetics reported that "the use of the needle point tracing device for the purpose of determining and checking centric jaw relation is recommended as being both scientific and practical. This society recognizes no other means of verifying centric jaw relationships."
Payne  in 1955, described the intraoral tracer as, "difficult to see and does not work as well where flat ridges or flabby tissue occur. Extraoral tracing provides visibility but retain the other difficulties if central bearing plates are used. The more equipment we put into the mouth, the more difficult it is for the patient."
Kingery  in 1952 pointed out several drawbacks in the use of the central bearing point and added that the "central bearing point allows for no control over the amount of closing pressure applied by the patient."
Phillips  pointed to various errors produced by GYSI's  technique and stated that, "if one occlusal rim is allowed to touch the other during the lateral extreme positions, undue pressure is bound to be exerted on the contact side, and on account of resiliency of the underlying tissues the side not in contact will be unseated just enough to cause a false reading for the horizontal inclination of the condylar path".
Smith in 1941 also pointed out drawbacks in the method where vertical dimension was maintained by occlusal rims, commenting that, "the contacting surfaces of the bite rims will not glide easily upon each other, horizontal stresses are set up and the shifting of the bases may easily occur, and under these conditions, it is difficult for the patient to make accurate recording.
- Criticisms of Gothic arch tracing stated that equalization of pressure did not occur, prognathic or retrognathic patients it could not be used, and flabby tissues or large tongues could cause shifting of bases.
Greene  in 1910, used pumice and plaster mixture in one of the rims and instructed the patient to grind the rims together. The denture teeth were set to the generated pattern.
- Functional records were described in dental literature as early as 1910 and are based on principle that the patient produces a pattern of mandibular movements by moving the mandible to protrusion, retrusion, and right and left lateral.
Needles  in 1923, mounted three studs on maxillary rims which cut arrow tracings into mandibular compound rims. After removal from the mouth, the rims were reassembled with the functional grooves.
House modified the needles technique and he used four styli to make the needle point tracings.
Patterson  in 1923, used wax occlusion rims and he cut a trough in the upper and lower rims. These were filled with a carborundum and plaster mixture. The patient would move his jaw and grind the rims until the proper curvature had been established. This would ensure equalized pressure and uniform tooth contract in all excursions.
The functional technique developed by Meyer  in 1934 used soft wax occlusion rims. Tinfoil was placed over the wax and lubricated. The patient performed the functional movements to produce a wax path. A plaster index was made of the wax path and the teeth were set to the plaster index.
Boos  in 1940, used the Gnathodynamo-Meter to determine the vertical and horizontal position at which a maximum biting force could be produced. His Bimeter was mounted on the lower occlusion rim with a central bearing point against a plate on the upper occlusion rim. Plaster registrations were made with the Bimeter in the mouth and the patient exerting pressure. Boos theorized that optimum occlusal position and the position of maximum biting force would coincide. He also thought that it was essential that all registration be made under biting force so that the displacement of soft tissues which occur in function, would occur during bite registration.
Shanahan  in 1955, in his Physiologic Technique, placed cones of soft wax on the mandibular rim and had the patient swallow several times. During swallowing, the tongue forced the mandible into its Centric Relation position. The cones of soft wax were moved and the physiologic Centric Relation was recorded.
Bilateral manipulation  suggested by Peter Dawson in 1974 is the method largely used by those who adhere to functionally generated path techniques. They have suggested that the condyles do not always move superiorly, but sometimes, in response to posterior guidance from the operators, they move inferiorly. Because of this clinical observation, they emphasized the importance of superior placement of the condyles in the fossa when attempting to record centric relation.
Mc Collum  and Granger  stated that Centric Relation is that position where the mandible rotates around the hinge axis. In securing maxillo-mandibular records, both investigators recommended the use of chin point guidance recommended by Gutchet in 1970 in retruding the mandible. Others who advocated this technique include Kornfeld,  Thompson,  Aull,  and Sloan. 
Criticism of Functional Recording Method:
- The functional methods of recording Centric Relation requires very stable record bases. Forces which can dislodge the record bases occur in any method, that requires the mandible to move into eccentric jaw position with the recording medium in contact. The record will not be accurate unless the bases are stable.
- The displaceable basal seat tissues, the resistance of the recording mediums, and the lack of control of equalized pressure in the eccentric relations contribute to inaccuracy in these methods.
- Patients not only must have good neuromuscular coordination to participate in the functional methods of recording centric relations but also must be capable of following instructions if accurate records are to be obtained.
The use of cephalometrics to record Centric Relation was described by Pyott and Schaeffer. Centric Relation and vertical dimension of occlusion were determined by cephalometric radiographs. This method, however, was somewhat impractical and never gained widespread usage.
Discussion and Review of Literature:
Kantor et al .  in 1972 conducted a comparative investigation on Centric Relation recording techniques by considering the four techniques i.e. swallowing or free-closure, chin point guidance, chin point guidance with anterior jig and bilateral manipulation and concluded that:
Kapur et al .  in 1957 conducted a study "An evaluation of Centric Relation records obtained by various techniques" using the three standard methods of recording centric relation, i.e. i) the intraoral tracing procedure (Hardy), ii) the wax registration procedure (Hanau), and iii) the extraoral tracing procedure (Stansbery) and they came to a conclusion that:
- Bilateral manipulation produced the smallest area of displacement of maxillo-mandibular relation record when compared with the other recording techniques tested.
- The most protrusive positions were recorded with free closure or myo-monitor techniques.
- The most retrusive records were produced with the technique of chin point guidance with an anterior jig.
- Centric relation can be located by using any one of many techniques. There is variability in the result obtained by any techniques. Dentists should evaluate and compare their registrations so that an objective technique selection can be made.
Hobo  in 1985, conducted a study "Reproducibility Of Mandibular Centricity In Three Dimensions" and he used three centric recording techniques: i) unguided closure, ii) chin-point guidance and iii) bilateral manipulation and concluded that:
- The intraoral tracing procedure and the extraoral tracing procedure were more consistent as compared to the wax registration method.
- In patients with flabby ridges, the intraoral tracing procedure and extraoral tracing procedure became less consistent as compared to the wax registration method.
- In patients with flabby ridges, the intraoral and extra oral tracing procedure became less consistent as compared to their consistencies in patients with good and flat ridges.
- The wax method seemed less consistent than the extra and intraoral tracing procedure. It showed the least consistency on flat ridges and highest consistency in the flabby ridge groups.
- The differences in consistency between the intraoral tracing procedure and the extraoral tracing procedure were not statistically significant.
Berman MH  in 1960 conducted a study - "Accurate Inter Occlusal Records" and he tested that the resistance of various interocclusal recording media and concluded that:
- Approximately 0.2 to 0.3 mm of the maximum condylar displacement was recorded by three Centric Relation registration methods. The amount of displacement coincided with the freedom reported in the literature.
- Bilateral manipulation showed the most consistent reproducibility and is recommended for Centric Relation registration. The minimal condylar displacement by this technique indicated the existence of point centric position.
- Condylar positions obtained by bilateral manipulation and unguided closure technique were similar antero-posteriorly and superioinferiorly. If the condylar position obtained by unguided closure technique is physiologic, then the position obtained by bilateral manipulation is also physiologic.
- Unguided closure revealed appreciable lateral displacement, which indicates that muscular position is less reproducible laterally, and condylar displacement can be expected.
- Chin-point guidance placed the condyle posteriorly, inferiorly, and right-laterally and is not recommended. Posterior displacement may result in harmful effect on the bilaminar zone, and inferior displacement may cause an occlusal discrepancy.
- Whether dental waxes make accurate interocclusal records is questioned. Tests with various waxes indicate that all offer some resistance to closure.
- Zinc oxide eugenol impression paste offers no resistance to closure and possesses many qualities favorable for obtaining
Lassila V  in 1986, conducted a study "Comparison Of Five Interocclusal Recording Materials" using silicone putty, polyether, zinc, oxide and eugenol impression paste, eugenol free zinc oxide, acrylic resin and baseplate wax and concluded that:
- The initial resistance of interocclusal recording materials to closure changed from 0.5N to 13.8N, and a rapid rise in the working time was seen in all elastomers.
- The resistance offered by wax at 60 o C was about 7N
- The volumetric contraction of elastomers in polymerization was clinically slight.
- The dimensional stability of rigid materials, acrylic resin, and zinc oxide pastes was good.
- Elastomers maintained their reliability for a relatively long time when stored in a tightly sealed plastic bag.
| Conclusion|| |
It is apparent from the dental literature, that there are many opinions and much confusion concerning Centric Relation records. A certain technique might be required for an unusual situation or a problem patient. In the final analysis, the skill of the dentist and the cooperation of the patient are probably the most important factors in securing an accurate Centric Relation record.
| References|| |
Myers ML. Centric relation records: Historical review. J Prosthet Dent 1982;47:141-5.
Brown JC. Articular mechanism for inducing condyle migration. J Prosthet Dent 1954;4:208-10.
Trapozzano VR. Occlusal record. J Prosthet Dent 1955;5:325-32.
Payne SH. Selective occlusion. J Prosthet Dent 1955;5:301-4.
Hickey JC. Centric relation: A must for complete dentures. Dent Clin North Am 1964 Nov.
Kapur KK, Yurkstas AA. An evaluation of centric relation records obtained by various techniques. J Prosthet Dent 1957;7:770-86.
Block LS. Common factor in complete denture prosthesis. J Prosthet Dent 1953;5:764-82.
Jamisson CH. A modern concept of complete dentures. J Prosthet Dent 1956;6:582-92.
Boos RH. Basic anatomic factors of Jaw position. J Prosthet Dent 1952;2:723-29.
Pleasure MA. Occlusion of cuspless teeth for balance and comfort. J Prosthet Dent 1955;5:305-12.
Watanabe Y. Use of personal computers for gothic arch tracing: Analysis and evaluation of horizontal mandibular position with edentulous prosthesis. J Prosthet Dent 1999;82:562-72.
Silverman MM. Centric occlusion and fallacies of current concepts. J Prosthet Dent 1957;7:750-69.
Nandini VV, Nair KC, Sudhakar MC, Poduval TS Comparative evaluation of hight tracer, Chandra tracer, intraoral tracer, functiograph and checkbite. J Indian Prosthod Soc 2005;5:26-32.
Boos RH. Centric relation and functional areas. J Prosthet Dent 1959;9:191-96.
Brill N. Reflexes, registration and prosthetic therapy. J Prosthet Dent 1957;7:341-60.
Boos RH. Occlusion from rest position. J Prosthet Dent 1952;2:575-88.
Hughes GA, Regli CP. What is centric relation? J Prosthet Dent 1961;11:16-22.
Shanahan TE. Physiologic jaw relation and occlusion of complete dentures. J Prosthet Dent 1955;5:319-24.
Kantor ME, Silverman SI, Garfinkel L. Centric relation recording techniques: A comparative investigation. J Prosthet Dent 1972;28:593-600.
Granger ER. Centric relation. J Prosthet Dent 1952;2:160-71.
Kornfeld M. Problems of function in restorative dentistry. J Prosthet Dent 1955;5:670-76.
Aull AE. A study of transverse axis. J Prosthet Dent 1963;13:469-79.
Sloan RB. Recording and transferring the mandibular axis. J Prosthet Dent 1952;2:172-81.
Hobo S, Iwata T. Reproducibility of mandibular centricity in three dimensions. J Prosthet Dent 1985;53:649-54.
Berman MH. Accurate interocclusal records. J Prosthet Dent 1960;10:620-30.
Lassila V. Comparison of five interocclusal recording materials. J Prosthet Dent 1986;55:215-8.