|Year : 2019 | Volume
| Issue : 2 | Page : 30-34
A clinical comparative study of four interocclusal recording materials
Mohammad Kinan Seirawan1, Sham Alobeissi2, Mazen Doumani3, Bilal D Mourshed4, Mohammad Yaman Seirawan5, Khaled Al-Hallak1, Eyad Alshaarani2
1 Department of Removable Prosthodontics, Faculty of Dentistry, University of Damascus, Damascus, Syria; Department of Prosthetic Dental Sciences, Al-Farabi College for Dentistry and Nursing, Riyadh, Saudi Arabia, Syria
2 Department of Removable Prosthodontics, Faculty of Dentistry, University of Damascus, Damascus, Syria
3 Department of Restorative Dental Sciences, Al-Farabi Collsege for Dentistry and Nursing, Riyadh, Saudi Arabia
4 Department of Prosthetic Dental Sciences, Al-Farabi College for Dentistry and Nursing, Riyadh, Saudi Arabia; Department of Prosthodontics, Propaedeutics, and Dental Materials, School of Dentistry, Christian-Albrechts University at Kiel, Kiel, Germany, Saudi Arabia
5 Department of Endodontics and Restorative Dentistry, Faculty of Dentistry, University of Damascus, Damascus, Syria
|Date of Web Publication||29-Aug-2019|
Dr. Mazen Doumani
Department of Restorative Dental Sciences, Al-Farabi College for Dentistry and Nursing, Riyadh
Source of Support: None, Conflict of Interest: None
Objective: The aim of the study was to evaluate the accuracy of four interocclusal recording materials and its effect on the relationship of the casts. Materials and Methods: The study was conducted on a group of 25 partially edentulous patients with upper complete natural dentition and lower bilateral free end edentulous areas. Ten pairs of reference points were drawn on the lateral surfaces of the base of each cast pair when the casts were manually articulated in maximum intercuspation position. The vertical distances between each pair of reference points were measured by a scanner and computerized software. Four interocclusal records were made for each patient by four interocclusal recording materials: zinc oxide eugenol paste, polyvinyl siloxane, Aluwax, and Baseplate wax. The casts were fixed on each record, and the vertical separation, anteroposterior, and lateral displacement were measured and calculated. Results: Polyvinyl siloxane was significantly more likely to lead to successful articulation than other interocclusal recording materials. Aluwax caused the highest vertical separation whereas Baseplate wax caused the greatest lateral displacement between the casts. Conclusion: Polyvinyl siloxane interocclusal recording material was the most accurate whereas Waxes were the least reliable materials.
Keywords: Accuracy, interocclusal recording materials, manual articulation
|How to cite this article:|
Seirawan MK, Alobeissi S, Doumani M, Mourshed BD, Seirawan MY, Al-Hallak K, Alshaarani E. A clinical comparative study of four interocclusal recording materials. Int J Oral Care Res 2019;7:30-4
|How to cite this URL:|
Seirawan MK, Alobeissi S, Doumani M, Mourshed BD, Seirawan MY, Al-Hallak K, Alshaarani E. A clinical comparative study of four interocclusal recording materials. Int J Oral Care Res [serial online] 2019 [cited 2019 Sep 21];7:30-4. Available from: http://www.ijocr.org/text.asp?2019/7/2/30/261652
| Introduction|| |
An accurate transfer of the intraoral maxillomandibular relationship to the articulator is responsible for occlusal quality and essential fabrication of a prosthetic restoration., Many materials have been used for interocclusal records. These materials are basically impression materials but have been modified to give better handling characteristics. They include dental waxes, metal oxide pastes (such as zinc oxide pastes), acrylic resins, and elastomeric materials, such as polyethers and addition silicones. These materials should possess attributes as similar as possible to the requirements for ideal bite registration material., An ideal occlusal registration material should provide dimensional stability, resistance to compression force after setting, accurate recording, ease of handling, biocompatibility with the tissues involved in the procedure and ease of verification. The accuracy of an interocclusal record is influenced not only by the material properties, but also by the recording technique, as well as the reliability of the mandibular position influenced by the occlusal contacts, muscular action, or tissue changes within the joints. However, apart from the operator’s clinical ability and the technique followed, the chosen material can critically affect the accuracy of the interocclusal registration. The purpose of this study was to evaluate and compare four different interocclusal recording materials used to obtain interocclusal records for bilateral free end edentulous cases.
| Materials and Methods|| |
The study was conducted on a group of 25 partially edentulous patients (11 males, 14 females—mean age: 43.2 ± 7.5 years). Selected patients were invited to participate in the study and offered a consent form. All the patients had upper complete natural dentition and bilateral free end edentulous areas with remaining sound anterior teeth up to premolars in the mandible in order to allow manual articulation of the casts in maximum intercuspation position. Preliminary and final impressions were made for each patient. The bases of the master casts were cut the same as in orthodontic casts with modified octagonal shape. The upper and lower casts were manually articulated in maximum intercuspal position and fixed by wooden rods and impression compound [Figure 1].
|Figure 1: The manual articulation of the casts in maximum intercuspal position|
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Ten pairs of reference points were drawn on the lateral surfaces of the base of each cast pair (upper cast U1–U10, lower cast L1–L10). The lateral surfaces of the bases of the attached casts were scanned using a scanner (HP F2180, HP Corporation, Indonesia). During all scanning procedures, the base of the upper cast was fitted to the edge of the scanning screen to provide horizontal position of the base of the upper cast [Figure 2].
|Figure 2: Scanning of the lateral surfaces of the bases of the attached casts|
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The vertical distances between each pair of reference points on the scanned photos were measured by computerized software (Adobe Photoshop CS2) [Figure 3].
|Figure 3: Measurement of the vertical distances between reference points by computerized software|
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Four interocclusal records were made for each patient by four interocclusal recording materials: zinc oxide eugenol paste (Superbite; Bosworth, USA), polyvinyl siloxane (Virtual CADbite Registration Material; Ivoclar Vivadent, Italy), Aluwax (Aluwax Bite Registration Wax, Aluwax Dental Products, USA), and Baseplate wax (Tena Tex Red [Kemdent]; Associated Dental Products Ltd, Purton, Swindon, Wiltshire, UK). The materials were handled according to the manufacturer’s instructions. After completing the recording procedures, the excess material was trimmed using a surgical blade. Each record was interposed between the casts then fixed by wooden rods and impression compound. The lateral surfaces of the bases of the attached casts were scanned, and the photos were analyzed by computerized software. The same procedure of measuring maximum intercuspation position (measurement of upper point to lower) was applied again after the application of interocclusal records. A vertical line was drawn from each upper point perpendicular to the lower points. The line might pass by the lower point or away from it. If the line is not passing the lower point, a new lower point will be formed by drawing a horizontal line intersects the vertical line; the horizontal distance between the two points was measured [Figure 4]. The procedure was repeated for all scanned photos of the lateral surfaces of the bases of the attached casts on each interocclusal record.
|Figure 4: Drawing a horizontal line intersects the vertical line drawn from the upper point to measure the vertical and horizontal distances between the reference points after applying interocclusal records between the casts|
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The vertical distance between each pair of upper and lower point (or the new lower point if present) was measured and compared to those made in maximum intercuspation position. These differences referred to the vertical separation values caused by each interocclusal recording material. The horizontal distance between each lower point and the new lower point (if present) was measured. The distances measured on the scanned photos of the right and left lateral sides of the bases of the casts referred to the anteroposterior displacement values caused by each interocclusal recording material [Figure 4]. On the other hand, the distances measured on the scanned photos of the anterior and posterior lateral sides of the bases of the casts referred to the lateral displacement values.
| Results|| |
The data were collected and statistically analyzed using one-way analysis of variance (ANOVA) and Bonferroni test (P ≤ 0.05). One-way ANOVA showed significant differences in vertical separation among the tested interocclusal recording materials [Table 1].
|Table 1: Comparison of vertical separation between four interocclusal recording materials|
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Bonferroni’s method showed that polyvinyl siloxane differed significantly at 5% level from both of Baseplate wax and Aluwax. Polyvinyl siloxane showed the least mean value of vertical separation between the casts. On the other hand, Aluwax caused the highest mean value of vertical separation. No statistically significant differences in vertical separation mean value were observed between zinc oxide eugenol paste and the other tested materials [Table 2].
|Table 2: Bonferroni test: Comparison of vertical separation between the groups|
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Analysis of values of lateral displacement showed that polyvinyl siloxane differed significantly at 5% level from Baseplate wax; polyvinyl siloxane showed the least mean value of lateral displacement. Baseplate wax caused the highest mean value of lateral displacement. However, no statistically significant differences were observed among the other tested materials [Table 3] and [Table 4].
|Table 3: Comparison of lateral displacement between four interocclusal recording materials|
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|Table 4: Bonferroni test: Comparison of lateral displacement between the groups|
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The tested materials did not show significant differences in the mean value of anteroposterior displacement [Table 5].
|Table 5: Comparison of anteroposterior displacement between four interocclusal recording materials|
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| Discussion|| |
Interocclusal record is one of the most important steps in any prosthetic treatment in order to make a successful prosthesis. It is a registration of the positional relationship of the opposing teeth or arches and has become the most popular method of transferring maxillomandibular relations from the mouth to the articulator.,, Due to introduction of different interocclusal recording materials, dentists encounter difficulties in the selection of optimum material for the registration and transfer of occlusal records to the articulator. However, the clinician needs to decide the most suitable material–technique combination according to the existing intraoral conditions. This study was planned to evaluate four interocclusal recording materials commonly used in bilateral free end edentulous patients. In all cases included in this study, the presence of the lower anterior teeth up to premolars provided tripod of vertical support with satisfactory horizontal stability between the casts, which allowed their manual articulation in maximum intercuspation.,,
Waxes are the most commonly used interocclusal recording materials because of their ease of manipulation and cost-effectiveness. Aluwax consists of low-viscosity wax with impregnated aluminum particles to evenly disperse the heat and to avoid excessive cooling contraction., In this study, Aluwax caused the highest mean value of vertical separation, and Baseplate wax showed the highest mean value of lateral displacement and the second highest mean value of vertical separation with statistically significant differences from polyvinyl siloxane. There is general agreement that waxes, in any of the numerous forms available (Baseplate, beauty hard wax, metallized, or metallized with an aluminum laminate) are the least accurate materials. Waxes have low ability to reproduce the occlusal surfaces accurately. They can be distorted upon removal and have a dimensional change by release of internal stresses. Furthermore, wax records may cause mandibular deflection and resistance to closure. These results were in accordance with previous studies that showed wax was the most variable and least reliable of all interocclusal recording materials.,, Pagnano et al. also found that wax provided the highest range of vertical variation. On the other hand, these results disagreed with the finding of another study by Pagnano et al., which showed that wax caused the lowest vertical separation. This may be attributed to the difference in sample size and evaluation technique.
Zinc oxide eugenol is a traditional bite registration paste that is being used for a long time and has gained wide acceptance as impression as well as bite registration material because of its ease of manipulation and economy., It is shown to reproduce accurate surface details mainly because of its low initial viscosity coupled with its pseudo elastic nature, which allows fine detail reproduction. In addition, zinc oxide eugenol offers no resistance to closure of mandible, thus allowing a more accurate interocclusal relationship record to be formed. Nevertheless, it dehydrates, cracks, and sticks to the teeth, and vital portions of the record can be lost through breakage. In this study, Zinc oxide eugenol showed acceptable results without statistically significant differences from other tested materials. Currently, polyether and polyvinyl siloxane bite recording materials are increasing in popularity due to their handling characteristics, accuracy, and dimensional stability. These materials are very similar to dental impression materials, but their properties have been modified by addition of plasticizers and catalysts., Polyvinyl siloxane bite registration material is characterized by short working time, setting time, high stiffness, low-percent strain in compression, and low flow. The results of this study revealed that polyvinyl siloxane was found to be the most accurate of all the tested materials. It showed the least mean value of vertical separation and lateral displacement. This may be attributed to its high stiffness and low permanent deformation at the time of removal. In addition, polyvinyl siloxane found to be the more accurate interocclusal recording material when articulating digital models.
| Conclusion|| |
On the basis of the findings of this study, the following conclusions were drawn:
- Polyvinyl siloxane interocclusal recording material was the most accurate material among the four tested materials and waxes were the least reliable interocclusal recording materials.
- It caused the least vertical separation between the casts followed by zinc oxide eugenol paste, Baseplate wax, and Aluwax.
- Polyvinyl siloxane caused the least lateral displacement followed by zinc oxide eugenol paste, Aluwax, and Baseplate wax.
- No statistically significant differences were observed among the tested materials in the anteroposterior displacement mean value.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Michalakis KX, Pissiotis A, Anastasiadou V, Kapari D. An experimental study on particular physical properties of several interocclusal recording media. Part I: consistency prior to setting. J Prosthodont 2004;13:42-6.
Hatzi P, Tzakis M, Eliades G. Setting characteristics of vinyl-polysiloxane interocclusal recording materials. Dent Mater 2012;28:783-91.
Michalakis KX, Pissiotis A, Anastasiadou V, Kapari D. An experimental study on particular physical properties of several interocclusal recording media. Part II: linear dimensional change and accompanying weight change. J Prosthodont 2004;13:150-9.
Megremis S, Tiba A, Vogt K. An evaluation of eight elastomeric occlusal registration materials. J Am Dent Assoc 2012;143:1358-60.
Tejo SK, Kumar AG, Kattimani VS, Desai PD, Nalla S, Chaitanya KK. A comparative evaluation of dimensional stability of three types of interocclusal recording materials-an in-vitro multi-centre study. Head Face Med 2012;8:27.
Ghazal M, Kern M. Mounting casts on an articulator using interocclusal records. J Prosthet Dent 2008;100:408-9.
Small BW. Centric relation bite registration. Gen Dent 2006;54:10-1.
Nagrath R, Lahori M, Kumar V, Gupta V. A comparative study to evaluate the compression resistance of different interocclusal recording materials: an in vitro study. J Indian Prosthodont Soc 2014;14:76-85.
Campos AA, Nathanson D. Compressibility of two polyvinyl siloxane interocclusal record materials and its effect on mounted cast relationships. J Prosthet Dent 1999;82:456-61.
Wieckiewicz M, Grychowska N, Zietek M, Wieckiewicz W. Evaluation of the elastic properties of thirteen silicone interocclusal recording materials. Biomed Res Int 2016;2016:7456046.
Postol IM. Interocclusal registration at the vertical dimension of occlusion using acrylic resin copings. J Prosthet Dent 1982;48:39-43.
Urstein M, Fitzig S, Moskona D, Cardash HS. A clinical evaluation of materials used in registering interjaw relationships. J Prosthet Dent 1991;65:372-7.
Pagnano VO, Bezzon OL, de Mattos MG, Ribeiro RF. A clinical evaluation of materials for interocclusal registration in centric relation. Braz Dent J 2000;11:41-7.
Millstein PL, Kronman JH, Clark RE. Determination of the accuracy of wax interocclusal registrations. J Prosthet Dent 1971;25:189-96.
Mullick SC, Stackhouse JA Jr, Vincent GR. A study of interocclusal record materials. J Prosthet Dent 1981;46:304-7.
Lassila V. Comparison of five interocclusal recording materials. J Prosthet Dent 1986;55:215-8.
Walls AW, Wassell RW, Steele JG. A comparison of two methods for locating the intercuspal position (ICP) whilst mounting casts on an articulator. J Oral Rehabil 1991;18:43-8.
Müller J, Götz G, Hörz W, Kraft E. An experimental study on the influence of the derived casts on the accuracy of different recording materials. Part I: plaster, impression compound, and wax. J Prosthet Dent 1990;63:263-9.
Fattore L, Malone WF, Sandrik JL, Mazur B, Hart T. Clinical evaluation of the accuracy of interocclusal recording materials. J Prosthet Dent 1984;51:152-7.
Pagnano Vde O, Bezzon OL, de Mattos Mda G, Ribeiro RF, Turbino ML. Clinical evaluation of interocclusal recording materials in bilateral free end cases. Braz Dent J 2005;16:140-4.
Dixon DL. Overview of articulation materials and methods for the prosthodontic patient. J Prosthet Dent 2000;83:235-47.
Dua P, Gupta SH, Ramachandran S, Sandhu HS. Evaluation of four elastomeric interocclusal recording materials. Med J Armed Forces India 2007;63:237-40.
McCabe JF, Walls AWG. Applied dental materials. 8th ed. London, United Kingdom: Blackwell science; 1998. p. 130-2.
Anup G, Ahila SC, Vasanthakumar M. Evaluation of dimensional stability, accuracy and surface hardness of interocclusal recording materials at various time intervals: an in vitro study. J Indian Prosthodont Soc 2011;11:26-31.
Ockert-Eriksson G, Eriksson A, Lockowandt P, Eriksson O. Materials for interocclusal records and their ability to reproduce a 3-dimensional jaw relationship. Int J Prosthodont 2000;13:152-8.
Sweeney S, Smith DK, Messersmith M. Comparison of 5 types of interocclusal recording materials on the accuracy of articulation of digital models. Am J Orthod Dentofacial Orthop 2015;148:245-52.
[Figure 1], [Figure 2], [Figure 3], [Figure 4]
[Table 1], [Table 2], [Table 3], [Table 4], [Table 5]