HEAR, HEAR! OPTIMISED HEARING DEVICES FEATURING FIBRE-OPTIC TECHNOLOGY MADE IN AUSTRIA
Austria-based Karl Landsteiner University of Health Sciences and partners move closer to developing fully implantable hearing aid
(firmenpresse) - Krems (Austria), 8 May hem to stimulate the acoustic nerves. A joint Austrian-Serbian team including Karl Landsteiner University of Health Sciences, Austria, has now successfully tested this new innovation. The tests produced important findings on future use of the technology on humans. The results were published in the international journal Biosensors and Bioelectronics.
Hearing aids should be heard, not seen. And this is precisely what fully surgically implantable hearing devices can deliver. Their Achilles heel is the microphones, which receive sounds and use a sophisticated process to transform them into impulses for the acoustic nerves. It is essential that they can function error-free inside the human body for many years. With existing technology, this is only possible to a limited extent, so new solutions are urgently needed. One such advance could be the use of fibre-optic measuring technology that picks up vibrations in the ossicles. Working in collaboration with counterparts from Serbia, an Austrian team, in which Karl Landsteiner University of Health Sciences in Krems, Austria, (KL Krems) is playing a decisive part, has now tested the technology under realistic conditions.
AUDIBLE PROGRESS
Speaking about the background to the latest breakthrough, Prof. Georg Mathias Sprinzl, head of the Ear, Nose and Throat Department at St P"Even state-of-the-art hearing aids often require parts outside the ear. This has many disadvantages for people who wear hearing aids: they can be stigmatised if the device is visible, parts of the ear often become inflamed and the wearer"
One highly significant advance is the use of contact-free fibre-optic measuring technology to detect sounds, which would allow the microphone to be positioned inside the ear. The technology is based on low-coherence interferometry, a method which picks up superimposed sound waves. The team used this approach for the optical measurement of nanometre-sized ossicle vibrations. As Prof. Sprinzl explained: "The ability to pick up sound from the ossicles is a huge advantage because it fully preserves the natural amplification function of the outer ear and the eardrum. On the technological side, this also minimises signal distortion and feedback."
SOUND PREPARATION
However, with a view to deploying the system in the human ear, Prof. Sprinzl and his colleagues needed to address a number of fundamental requirements. For example, they had to develop the operative procedure for the implantation, as well as the means of "targeting" the laser used for sensing. Prof. Sprinzl, who performs over 1,000 implants of various types of hearing aid each year, noted: "Obviously, we did not carry out this development work on people. Instead, we used artificial and animal models, which allowed us to optimise the quality of the ossicle vibration sensing system."
The recently published findings confirm the effectiveness of the technology and that, in principle, it could be used inside the ear for long periods. In these initial tests, the team found that the laser beam which is critical for sensing vibrations remained accurately aligned with the selected ossicle for five months. The teams ACMIT GmbH, the Medical University of Vienna, the University of Belgrade, KL Krems and ENT specialists.
The project team includes surgeons working alongside engineers and software developers. KL Krems
Original publication: In-vitro and in-vivo measurement of the animal''s middle ear acoustical response by partially implantable fiber-optic sensing system. Z. Djinović, R. Pavelka, M. Tomić, G. Sprinzl, H. Plenk, U. Losert, H. Bergmeister, R. Plasenzotti. Biosens Bioelectron. 2018 Apr 30;103:176-181. doi: 10.1016/j.bios.2017.12.015. https://www.ncbi.nlm.nih.gov/pubmed/29273266
About Karl Landsteiner University of Health Sciences
Karl Landsteiner University of Health Sciences (KL) is a pioneer for innovation in medical and health sciences education and research, and a catalyst for groundbreaking work which will benefit society at large. Research at KL focuses on niche fields in bridge disciplines such as biomedical engineering, psychodynamics and psychology, as well as topics including water quality and related health issues. Study programmes include health sciences, human medicine, and psychotherapy and counselling and have full European recognition. A network of university hospitals in St Poelten, Krems, and Tulln provides students with quality-assured, research-led education; it enables them to do top-class clinical research that is recognised worldwide. Karl Landsteiner University received accreditation by the Agency for Quality Assurance and Accreditation Austria (AQ Austria) in 2013.
Scientific Contact
Prof. Georg Mathias Sprinzl
Clinical department of ear, nose and throat
University Hospital St.Poelten
Dr.-Karl-Dorrek-Stra
3500 Krems / Austria
T +43 2742 9004-12901
M +43 / 664 / 845 1510
E georgmathias.sprinzl(at)stpoelten.lknoe.at
W http://www.stpoelten.lknoe.at
Karl Landsteiner University of Health Science
Barbara M. Peutz
Communications, PR & Marketing
Dr.-Karl-Dorrek-Stra
3500 Krems / Austria
T +43 2732 72090 230
M +43 664 889 558 49
E barbara.peutz(at)kl.ac.at
W http://www.kl.ac.at/
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PR&D & Education
Ira Paschinger
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1090 Vienna / Austria
T +43 / 1 / 505 70 44
E paschinger(at)prd.at
W http://www.prd.at/
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Datum: 08.05.2018 - 03:30 Uhr
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News-ID 1535717
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Typ of Press Release: Erfolgsprojekt
type of sending: Veröffentlichung
Date of sending: 08.05.2018
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