Accommodating intraocular lens review
Because there is only one focusing distance in the lens, there is no loss of quality of distance vision (unlike a multifocal).However, accommodating IOLs do not provide the same range of focus as young eyes, and may not allow you to see at very close distances without reading glasses, like you can with multifocal IOLs.FDA-approved IOLs have been available since the early 1980s.Before the use of intraocular lenses, if you had cataracts removed, you had to wear very thick eyeglasses or special contact lenses in order to see after cataract surgery, since no device was implanted in the eye to replace the focusing power of the natural lens.There are several different types of multifocal IOLs approved by the FDA for use in the U. The lenses below are the most commonly used multifocal IOLs in the U.S., but you can speak with your surgeon about what other options may be available.In some cases, surgeons recommend placing a multifocal lens in one eye, in order to achieve good near vision, and a monofocal lens in the other eye, in order to achieve good distance vision.
If you require the best possible distance vision for work or are otherwise unwilling to accept this sort of compromise, a more traditional monofocal IOL is likely a better fit.
Furthermore, because a multifocal IOL is considered a premium lens, it is not typically covered by insurance or Medicare.
That means that if you opt for multifocal IOL implantation as part of cataract surgery, you will be required to pay the difference (most insurance policies cover cataract surgery).
You might find it surprising that after undergoing vision correction surgery, you still require eyeglasses for near vision reading.
Well, what if there was a way to have cataract surgery and restore vision at all distances? As the name implies, a multifocal IOL offers more than one lens power.
Acry Sof IQ Re STOR IOL – Developed by Alcon and FDA approved since 2005, Acry Sof IQ Re STOR IOLs boast patented optical technology called apodization which is responsible for the optimal distribution of light across varying distances and lighting conditions.