New polysomnography electrode set enables easy at-home assessment of sleep bruxism

An easy-to-use electrode set can assess sleep bruxism severity as well as a conventional polysomnography, a new study from the University of Eastern Finland shows

FRI, OCT 18, 2019 09:28 CET

An easy-to-use electrode set can assess sleep bruxism severity as well as a conventional polysomnography, a new study from the University of Eastern Finland shows
Sleep bruxism, commonly known as clenching or grinding of the teeth during sleep, affects approximately 8-15% of the population. Sleep bruxism can lead to various negative health consequences, such as tooth wear, facial pain and headaches. Sometimes, teeth grinding can be so loud that it disturbs the sleep of others in the same room.

Currently, the treatment of sleep bruxism is mainly focused on managing its consequences. One reason behind our lack of understanding of sleep bruxism and its treatment is the fact there is no single severity assessment method that would at the same time be reliable, accurate, cost-effective and easily available. Accurate assessment of sleep bruxism severity requires bioelectric measurements, of which sleep laboratory polysomnography is the most accurate one. Unfortunately, it has limited availability and is considered expensive, which is why it is prioritised for the diagnosis of the most severe sleep disorders only.

Some user-friendly devices for sleep bruxism assessment that measure masticatory muscle activity have been introduced to the markets, allowing patients to use them in the comfort of their own home. However, these devices often fall short in accuracy, failing to differentiate between sleep bruxism and other masticatory muscle activity, such as yawning and swallowing.

Previously, researchers at the University of Eastern Finland and Kuopio University Hospital in Finland have developed a screen-printed emergency EEG electrode set, which has been shown to be quick and easy to use and to have high signal quality in clinical settings. In addition, the electrode set can be used for sleep stage determination during sleep laboratory polysomnography.

Now, the technology used in the emergency EEG set was further developed as part of a doctoral thesis project in order to provide a highly accurate method for polysomnographic sleep bruxism assessment in research and clinical settings in patients’ own homes. The diagnostic accuracy of the electrode set was compared to the diagnostic accuracy of a conventional polysomnography and other bioelectric measurements.

“The upgraded version of the electrode set is extremely well-suited for accurate assessment of sleep bruxism severity. In fact, its diagnostic accuracy is similar to that of a conventional polysomnography, when using the same methods for differentiating sleep bruxism related activity from other nocturnal events,” PhD Student Tomi Miettinen, MSc, from the University of Eastern Finland says.

According to the study, the electrode set is reliable and easy enough to be used by patients in their own home. Nine out of ten at-home polysomnography recordings were of good quality, and the electrical impedance of the electrodes was at an acceptable level 90% of the time. Only one out of 101 recordings failed due to problems related to the electrode set. Supporting evidence was also found for a previous finding that some patients may present altered results on the first night due to the so-called first night effect, and sleep bruxism assessment may require more than one night of recording.

“The electrode set is especially well suited for recordings that are more demanding in assessing sleep bruxism activity accurately over the duration several nights. The electrode set could be considered especially applicable for solving different research questions related to sleep bruxism, such as unclear connections between sleep bruxism activity and its presumed consequences and co-morbidities, as well as long-term efficacy of the management methods. As a tool, the electrode set has potential to increase our understanding of sleep bruxism, possibly resulting in more efficient methods to manage, or even treat sleep bruxism.” Miettinen concludes.

The findings were presented by Tomi Miettinen, MSc, in his doctoral dissertation entitled Suitability of a Self-applicable Electrode Set for Polysomnographic Assessment of Sleep Bruxism in the Home Environment, which is available for download at: http://epublications.uef.fi/pub/urn_isbn_978-952-61-3184-9/urn_isbn_978-952-61-3184-9.pdf

For further information, please contact:
PhD Student Tomi Miettinen, MSc, tomi.miettinen@uef.fi

Original article:
Miettinen, T., Myllymaa, K., Muraja-Murro, A. et al. Sleep Breath (2019). https://doi.org/10.1007/s11325-019-01915-2
The University of Eastern Finland, UEF, is one of the largest universities in Finland. The activities of the UEF underscore multidisciplinarity, and the university is especially strong in research related to forests and the environment, health and well-being, and new technologies and materials.The UEF offers teaching in more than 100 major subjects. In addition to the high standard of teaching, the university offers its students a modern study environment, which is under constant development.The university comprises four faculties: the Philosophical Faculty, the Faculty of Science and Forestry, the Faculty of Health Sciences, and the Faculty of Social Sciences and Business Studies. The university’s campuses are located in the heart of beautiful eastern Finland in Joensuu, Kuopio and Savonlinna.The UEF is home to approximately 15 000 students and nearly 2 800 members of staff.

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