Quantitative and qualitative analysis of particulate production during simulated clinical orthodontic debonds.

Objectives: The objectives of this investigation were firstly to quantitatively and qualitatively determine particulate production during orthodontic debond and enamel cleanup procedures, and secondly to examine what methods can be employed to minimize operator exposure to such dust particles.

Methods: A qualitative study was performed to determine the aerodynamic diameters and compositions of particulates produced during simulated clinical debonds and enamel cleanup procedures on extracted teeth. In each case the enamel was cleaned using tungsten carbide burs in either a high or slow speed handpiece, with or without water coolant spray, with or without high volume evacuation (HVE) or a face mask.

Inhalation of aerosols produced during the removal of fixed orthodontic appliances: a comparison of 4 enamel cleanup methods.

Introduction: During enamel cleanup after the removal of fixed appliances, aerosols, splatter, and dust are produced that can be inhaled. Although most inhaled particles are harmless, some might be associated with chronic diseases. Modern laboratory methods can now accurately simulate the human lung and predict the site of deposition of these inhaled particles.

Aerosols and splatter in dentistry--a neglected menace?

Two main types of particulate matter may be produced during routine dental procedures, namely aerosols and splatter. The principal difference between them is the size of the particles from which they are made. The behaviour of such particles in air and their possible health risks are complex.

Three-dimensional assessment of the facial soft tissue changes that occur postoperatively in orthognathic patients.

With the development of 3-dimensional technology it has become increasingly possible to record the facial soft tissue changes that occur with growth and following orthodontic treatment. This article describes the use of the optical surface laser scanner to record and quantify the facial soft tissue changes following orthognathic surgery. Ten skeletal Class III patients were laser scanned, at previously determined time intervals, over a 6-month period following orthognathic surgery.