Importance of MRI compatibility

MRI (Magnetic Resonance Imaging) is the fastest growing medical imaging technology in the world.¹ In fact, it’s predicted that most people will need at least one MRI in their lifetime.

MRI uses a very powerful magnet to provide detailed images of a person’s internal organs and tissue. It is often used to provide early detection of many different conditions so that treatment can be more effective.

As implanted medical devices can interfere with MRI scans, it’s important to consider the compatibility of this increasingly popular technology with your choice of cochlear implant.

How does a Cochlear Implant affect MRI?

The internal implant contains a magnet, which holds the external sound processor coil in place. When placed in an MRI scanner, this magnet can cause a blur or ‘artifact’ over the medical image, which may hinder the Doctor’s ability to make an accurate diagnosis of brain scans. As a quarter of all MRI scans are performed on the brain, having the flexibility to remove the internal magnet if required is an important consideration when choosing a cochlear implant.

Other brands may not feature a removable magnet. This means that recipients may be limited by older MRI technology or may need their entire implant  removed, even for a scan of a different part of the body such as the knee.

Implant removal requires surgery. Once an implant is removed, it cannot be re-used, meaning a new implant is required. Recipients will also require further rehabilitation once the new implant is in place.

Why is compatibility with high strength MRI so important?
1.5 Tesla strength MRIs are considered standard at present, however 3.0 Tesla scans are becoming increasingly popular due to their superior image quality. With the continuing trend towards higher strength MRIs, the compatibility of cochlear implants with MRI is an important lifetime decision.

Why MRI over X-ray or other types of imaging devices?
There are a variety of imaging techniques available to obtain images of the body such as X-rays, CT scans, PET scans and ultrasounds. Different techniques are required for different reasons. MRI is becoming increasingly popular thanks to its ability to capture detailed images of soft tissue and joints, plus its ability to diagnose other conditions such as heart disease and breast cancer. Additionally, MRI does not use radiation such as other techniques like X-Ray, making it a safer option.

Do all cochlear implants have the same MRI compatibility?
No. MRI compatibility differs between cochlear implant manufacturers. Nucleus implants from Cochlear are approved for MRI scans at 1.5 Tesla with the internal magnet in place and 3.0 Tesla with the magnet removed.³ No other implant manufacturer can offer this level of MRI compatibility.

How does the removal procedure work?
The magnet can be removed in a simple outpatient procedure before the MRI takes place. A temporary fixing disc is then used to hold the external coil in place, meaning that the recipient only experiences hearing downtime during the actual scan, when the sound processor cannot be worn. Once
the MRI is complete, a sterile magnet is re-inserted into the implant.

Other considerations
The magnetic field used in MRI can cause a weakening of the internal magnet in a cochlear implant. As a result, the sound processor coil may not remain firmly in place. The ability to replace the internal magnet resolves this issue.

1. www.mediexchange.com website, showing USA figures for 2007.
2. Risi F. Saldanha A, Leigh R, Gibson R. Magnetic resonance imaging safety of Nucleus 24 cochlear implants at 3.0 T. International Congress Series; 1273 (2004) 394–398.
3. MRI compatibility varies by country depending on regulatory approvals in each country. Regulatory approval in Japan, Thailand and Indonesia clears recipients for 1.5 Tesla scans with the internal magnet removed. Scans at 3.0 Tesla are not currently approved for cochlear implant recipients in Japan, Thailand or Indonesia. Please contact your local Cochlear representative or clinic for further details.