Bone ablation with Er:YAG and CO2 laser: Study of thermal and acoustic effects

Background and Objective: Er:YAG lasers are known to superficially ablate skin and other tissues with minimal thermal coagulation zones. The ablation efficacy and thus the clinical applicability of these lasers, however, was limited due to small beam diameters and repetition rates. Aim of this study

## Background and objectives: The aim of the present pilot study was to determine therapeutic responses to er:yag- and co(2)-laser ablation in patients with oral leukoplakia as evaluated by means of exfoliative cytology (ec) and dna-image-cytometry (dna-i). ## Study design/materials and methods:

The wavelength dependence of the ablation threshold of a variety of tissues has been studied by using a tunable pulsed Co:MgF, laser to determine how closely it tracks the optical absorption length of water. The Co:MgF, laser was tuned between 1.81 and 2.14 pm, a wavelength region in which the absor

Background and Objective: Craniotomy by using a drill and saw frequently results in fragmentation of the skull plate. Lasers have the potential to remove the skull plate intact, simplifying the reconstructive surgery. Study Design/Materials and Methods: Transverseexcited CO 2 lasers operating at the

When intending to use pulsed erbium:YAG laser radiation for the ablation of small bones, e.g., the ossicular chain or footplate, not only temperature and thermal damage, but also mechanical side effects become important. In studies on desiccated bone the total recoil momentum caused by laser ablatio

## Abstract ## Background and Objectives Zirconia implants (ZI) are becoming more popular in implant dentistry, as a result of their favorable esthetic outcome. However, little is known about the impact laser application has on this material in the course of peri‐implantitis treatment. The objecti