Ziad Al-Ani

Practical Procedures in Dental Occlusion


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      Introduction

      What is the role of the teeth? An important question which underpins our clinical dentistry because we are routinely involved in possibly changing it if we don't follow a careful process.

      The roles of the teeth can be thought of as follows.

       Mastication.

       Swallowing.

       Speech/phonetics.

      This is a simplified view because the impact of teeth is far greater for both the individual but also when interacting with the wider community.

       Aesthetics – emotional and psychosocial perspective; this is specific to the individual and also has an impact on their self‐esteem.

       Psychophysical – the ability to appreciate the food via texture, volume and taste.

       Occlusal stability and jaw support – maintain the elements that maximise function.

       Cognition – decreased mastication is a risk factor for dementia.

       Mortality – Osterberg et al. 2008 in numerous studies demonstrate the statistically significant correlation between the number of teeth remaining and mortality, with the data suggesting a 4% decrease in mortality for each remaining tooth above 20 occluding pairs. I am not suggesting that we tell our patients they will live longer if we provide more teeth but the link between quality of life and having fixed teeth is certain.

      So how do we avoid altering this system in an uncontrollable manner? We use protocols and processes. The acronym for the process is STOP! STOP picking up that drill before you assess the occlusion. A preassessment of the occlusion is crucial to ensure we have not potentially affected the role or performance of the teeth. Therefore, we use our senses to preassess the occlusion. This is essential in both conformative and reorganised occlusion.

       S – Survey – visual assessment using coloured paper to analyse contacts.

       T – Touch – fremitus.

       O – Observe and listen.

       P – Patient feedback.

      The goals of occlusion are as follow.

       To provide equal contacts on as many teeth as possible when the patient swallows – centric occlusion position. This will aid muscle health.

       To provide incisional guidance (protrusive guidance) on the anterior teeth. This will aid temporomandibular joint health.

       To provide group function when chewing using cuspal inclines.

       To avoid introducing new contacts (unless in a controlled manner) which may strain the adaptive capacity of the patient.

       To biomechanically distribute the forces so as not to cause failure of the restoration or other teeth.

      The aim of this chapter is to provide a clear understanding of the complex neural framework involved in mastication, swallowing and speech. The key objective is the information the brain requires to understand the position of the jaw in space and it acquires this information from the teeth, temporomandibular joint (TMJ), muscles and soft tissues.

      An understanding of the neural framework involved in dental occlusion is essential in determining the protocols within clinical dentistry. The neural framework comprises the central nervous system (CNS) (spinal cord and brain) and the peripheral nervous system (connects the rest of the body to the spinal cord and brain). This is a feedback and feedforward system made up of sensory fibres (registering pain, pressure and temperature) and motor fibres (providing a function such as muscle contraction).

      Anatomically, another structure which is important in our understanding of the masticatory system is the brainstem, which is the posterior part of the brain continuous with the spinal cord which is composed of three regions:

       medulla oblongata

       pons

       mesencephalic area.

      Why do I need to know this, I hear you ask? Well, within this area are the central pattern generators (CPGs) generally defined as a network of neurons (nerve cells) capable of enabling the production of central commands, specifically controlling stereotyped rhythmic motor behaviours such as mastication, deglutition, respiration and locomotion, among others. There is increasing evidence suggesting that some of these CPGs are interconnected for co‐ordinated control.

      In this chapter we will only be dealing with mastication and deglutition. For further reading, the article by Steuer and Guertin (2019) goes into greater detail. Kandel (2012) stated that the brainstem is an important element of motor and sensory function and plays a key role in the control of mastication and deglutition.

      Most foods that we are used to eating do not require attention, but when we try a new food the higher order brain centres are involved as we investigate (attention is required) this new substance in regard to texture and taste and a decision is made whether we will eat this again. This is feedforward learning. Age and types of food can also modulate mastication activity as stated by Peyron et al. (2004).

      What is the Goal of Mastication?

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