The effect of surface roughness on the Er:YAG laser-induced photoacoustic removal of bacteria in zero-gap periodontal/peri-implant pocket model
Dominik Šavli, Marko Volk, Katja Molan, Saša Terlep, Špela Levičnik-Höfferle, Aleš Babnik, Mojca Trost, Boris Gašpirc, Matjaž Lukač, David Stopar, Matija Jezeršek

TL;DR
This study explores how surface roughness affects the ability of Er:YAG lasers to remove bacteria in simulated dental pockets, revealing that rough surfaces enhance cleaning efficiency.
Contribution
The study introduces the novel concept of distant-field cleaning via surface roughness in Er:YAG laser treatment for bacterial removal.
Findings
Bacterial removal correlates strongly with cavitation occurrence during Er:YAG laser treatment.
Surface roughness facilitates distant-field cleaning by enabling deeper water penetration and pressure wave propagation.
Smooth surfaces suppress fluid dynamics, while textured surfaces enhance bacterial disruption.
Abstract
Effective biofilm removal from periodontal and peri-implant pockets remains a challenge due to constrained geometry and limited access. This study investigates a novel phenomenon of distant-field cleaning utilizing Er:YAG laser treatment, where removal of bacteria occurs in areas without previously observed cavitation under high-speed imaging. To understand this effect, we developed a transparent zero-gap model simulating a tooth or implant and surrounding soft tissue. We systematically examined the impact of laser fiber insertion depth, cavitation bubble dynamics, the stiffness and roughness of the material, and laser parameters on the cleaning efficiency. Our findings reveal that the removal of bacteria indeed correlates strongly with cavitation occurrence. Deeper optical fiber insertion into the pocket model only enhanced cleaning efficiency by moving the fluid dynamics and enabling…
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Taxonomy
TopicsLaser Applications in Dentistry and Medicine · Dental Implant Techniques and Outcomes · Oral microbiology and periodontitis research
