Martin F Land1, Alejandro Peregrina
1Section of Fixed Prosthodontics, School of Dental Medicine, Southern Illinois University, Alton 62002, USA. mland@siue.edu
This article describes a straightforward way to make an anterior deprogramming device using a thermoplastic material. The process involves heating the material until it becomes moldable, then shaping it around the maxillary incisors. As the material cools and hardens, the mandible is guided into closure to capture the correct occlusal position. After trimming, a posterior centric relation record is made using the chosen recording material. The method is described as simple and efficient, requiring minimal equipment and time. The device maintains its shape and function after fabrication. The authors do not claim this is the only method available, but they propose it as a practical alternative for clinicians.
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Area of Science:
Background:
Dental professionals often seek streamlined methods to create anterior deprogramming devices, which are used to manage occlusal relationships in patients with temporomandibular disorders. Prior research has shown that these devices help reduce muscle strain and improve jaw function. However, no prior work had resolved the most efficient fabrication technique using thermoplastic materials. Traditional methods may involve multiple steps or specialized tools, which can increase time and cost. This gap motivated the development of a simplified approach. The challenge lies in adapting the material to the correct anatomical shape while maintaining functional accuracy. The maxillary incisors serve as a critical reference point in this process. Existing literature suggests that softened thermoplastic materials can conform well to dental structures when applied correctly. That uncertainty drove the need for a reproducible and user-friendly fabrication protocol.
Purpose Of The Study:
The main outcome is a stable, anatomically accurate device that conforms to the maxillary incisors after heating and molding.
The maxillary incisors serve as a reliable reference for shaping due to their consistent anatomical position and function.
The record ensures accurate alignment of the mandible relative to the maxilla after device placement.
The material is softened by heating and then molded to the maxillary incisors while still pliable.
The aim of this study is to describe a straightforward fabrication method for anterior deprogramming devices using thermoplastic materials. The specific problem addressed is the need for a simplified and efficient technique that minimizes steps and equipment. The motivation stems from the desire to improve accessibility and reduce time spent in clinical settings. Current methods may require additional tools or complex procedures. This paper's contribution is to present a step-by-step process that can be replicated easily. The focus is on the maxillary incisors as the primary shaping point. The study also seeks to clarify the role of thermoplastic material in achieving accurate posterior centric relation records. The goal is to provide a practical alternative for clinicians.
Main Methods:
The fabrication process begins with heating a thermoplastic sheet until it becomes moldable. The softened material is then placed over the maxillary incisors while still pliable. The operator carefully shapes the material to fit the dental anatomy. As the material cools, it hardens into a stable form. The mandible is guided into closure during this setting phase. Once the device is formed, excess material is trimmed for a precise fit. A posterior centric relation record is then created using the selected recording material. The entire process is designed to be repeatable and user-friendly.
Main Results:
The fabricated device successfully conforms to the maxillary incisors after heating and molding. The material sets firmly as the mandible is guided into closure. The trimming step ensures a snug fit without compromising function. A posterior centric relation record is obtained using the chosen recording material. The technique requires minimal equipment and can be completed in a single session. The device maintains its shape and function after cooling. No additional tools are needed beyond standard dental instruments. The method proves to be both efficient and reproducible.
Conclusions:
The authors propose that this technique offers a practical solution for fabricating anterior deprogramming devices. The method relies on thermoplastic material's ability to conform and set accurately. The process is described as simple and efficient, suitable for clinical use. The device's fit and function are achieved through careful shaping and trimming steps. The posterior centric relation record is made using the selected material. The study does not suggest that this is the only method available. The findings are specific to the described procedure and materials. The authors do not claim this is the definitive approach for all cases.
This step ensures the device captures the correct occlusal relationship as the material hardens.
No, the authors do not claim this is the only method, but they propose it as a practical and efficient alternative.