Hear the Difference

Is every cochlear implant the same? Don’t they all sound the same? The simple answer is no. Only MED-EL cochlear implants are powered by Triformance to enable a more natural sound quality and make the most of your hearing.


You’re choosing a cochlear implant to hear—so why not choose the closest to natural hearing?

By using Triformance technology to send more natural sound signals to your whole cochlea, our cochlear implants can provide the closest to natural hearing possible with a cochlear implant. And more natural hearing isn’t just about enjoying the sound from your implant—it’s about hearing better.1-9

What are the benefits to more natural hearing with MED-EL?


Better Hearing Quickly

Learning to hear with any cochlear implant takes patience and dedication—but with MED-EL, recipients can appreciate much better hearing in the first few months.5,7 Of course, we also have a comprehensive support programme to help you make the most of your new hearing.


Better Hearing in Quiet & Background Noise

Whether you’re relaxing at home or out to dinner with friends, we’ve got you covered. Our cochlear implants are designed for better hearing in everyday life—even in noisy settings like busy restaurants.3,5,6

And with hands-free control that automatically adapts, you don’t have to worry about changing settings or switching programs.

“Immediately after switch on [of MED‑EL implant], music had more oomph. Immediate impact that I never got with my Cochlear, even when it was fully functional.”

Recipient with a MED-EL implant in one ear and a Cochlear brand implant in the other ear2

More Natural Sound Quality

In an interesting study, recipients had a different brand in one ear and later received a MED-EL implant for the other ear. Even though they had less experience with the MED-EL implant, most recipients rated the sound quality of MED-EL as more natural than their other brand of implant. Recipients said “vocals [are] much more clear and resonant” and that MED-EL offered “deeper, more resonant, more natural sound”.2

How did recipients describe their other brand of implant? “More mechanical and tinny.” and “More robotic, tinny and echoey. Cannot differentiate different individuals’ voices as well because more metallic sound. Sounds like a distorted microphone.”


More Enjoyable Music

If you can enjoy listening to music, you’ve reached a whole new level of hearing. Every person has different hearing abilities, but in a study of music enjoyment, more than 90% of MED-EL recipients reported that music sounds pleasant through their cochlear implant.2,8,9,10

9 out of 10
of MED-EL recipients in a study reported that music sounds pleasant through their implant.8

Hearing for Life

A cochlear implant is a choice for life, so you want to be sure you’re making the right decision. When you choose MED-EL, you’re choosing more natural hearing. Are you ready to hear the difference?

Discover More


1. Rader, T., Döge, J., Adel, Y., Weissgerber, T., & Baumann, U. (2016). Place dependent stimulation rates improve pitch perception in cochlear implantees with single-sided deafness. Hear Res., 339, 94–103.
2. Harris, R.L., Gibson, W.P. Johnson, M., Brew, J., Bray, M., & Psarros, C. (2011) Intra-individual assessment of speech and music perception in cochlear implant users with contralateral Cochlear and MED-EL systems. Acta Otolaryngol., 131(12), 1270–1278.
3. Vermeire, K., Landsberger, D.M., Van de Heyning, P., Voormolen, M., Kleine Punte, A., Schatzer, R., & Zierhofer, C.(2015) Frequency-place map for electrical stimulation in cochlear implants: Change over time. Hear Res., 326, 8–14.
4. Schatzer, R., Vermeire, K., Visser, D., Krenmayr, A., Kals, M., Voormolen, M., Van de Heyning, P., & Zierhofer, C. (2014) Electric-acoustic pitch comparisons in single-sided-deaf cochlear implant users: frequency-place functions and rate pitch. Hear Res., 309, 26–35
5. Buchman, C.A., Dillon, M.T., King, E.R., Adunka, M.C., Adunka, O.F., & Pillsbury, H.C. (2014). Influence of cochlear implant insertion depth on performance: a prospective randomized trial. Otol Neurotol., 35(10), 1773–1779.
6. Kleine Punte, A., De Bodt, M., & Van de Heyning, P. (2014) Long-term improvement of speech perception with the fine structure processing coding strategy in cochlear implants. ORL J Otorhinolaryngol Relat Spec., 76(1), 36–43.
7. Helbig, S., Helbig, M., Leinung, M., Stöver, T., Baumann, U., & Rader, T. (2015). Hearing preservation and improved speech perception with a flexible 28-mm electrode. Otol Neurotol. 2015 Jan;36(1):34-42.
8. Müller, J., Brill, S., Hagen, R., Moeltner, A., Brockmeier, S.J., Stark, T., Helbig, S., Maurer, J., Zahnert, T., Zierhofer, C., Nopp, P., & Anderson, I. (2012) Clinical trial results with the MED-EL fine structure processing coding strategy in experienced cochlear implant users. ORL J Otorhinolaryngol Relat Spec. 74(4),185–198.
9. Roy, A.T., Carver, C., Jiradejvong, P., & Limb, C.J (2015) Musical sound quality in cochlear implant users: A comparison in bass frequency perception between Fine Structure Processing and High-Definition Continuous Interleaved Sampling strategies. Ear Hear. 36(5), 582–590.
10. Roy, A.T., Penninger, R.T., Pearl, M.S., Wuerfel, W., Jiradejvong, P., Carver, C., Buechner, A., & Limb, C.J. (2016). Deeper cochlear implant electrode insertion angle improves detection of musical sound quality deterioration related to bass frequency removal. Otol Neurotol., 37(2), 146–151

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