Sleep Foundation (SleepFoundation.org) is a prominent voice in the world of sleep science and health for almost 30 years and counting. Their dedicated panel of sleep researchers, medical professionals, and technical editors work tirelessly in their pursuit of bringing unbiased research into the public domain so consumers can make informed decisions on their sleep health.
Our Airfoam™ 10” Original mattress has been awarded a Top Pick in the category of Best Mattress for Side Sleepers from SleepFoundation.org. Needless to say, we’re thrilled and incredibly humbled that such a distinguished voice in the world of sleep science and health has recognized our side sleeper mattress as a worthy consumer choice.
Here’s what they had to say:
‘The Nolah mattress is a foam mattress made without memory foam. Since it is made without traditional memory foam, there is better air circulation around the body and less of a feeling of sinking into the mattress too deeply. This mattress was designed with side sleepers in mind, and offers pressure point relief for the hips and shoulders.
The viscose cover of the Nolah mattress wicks away moisture, while the top layer of AirFoam relieves pressure points and supports the shoulders and hips. Compared to traditional memory foam, Nolah’s AirFoam has air bubbles throughout the foam that dissipate heat and cool the mattress. A transition layer of high resilience foam adds support and bounce to the mattress. This layer also prevents sagging over time. The high-density polyfoam base reinforces the Nolah mattress and improves edge support along the perimeter. This is ideal for people who share the bed, or those who tend to sleep or sit on the edge of the mattress, as it offers consistent support.
The medium firmness of the Nolah mattress prevents the feeling of sinking in. The mattress offers ample back support while still contouring closely to the shape of the body. This puts less pressure on the hips and backs, reducing aches and pains for side sleepers. The all-foam construction also minimizes motion transfer.